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11:11.1 1..

?RES$URE LOSSES IN AIR FLOW THROUGH
RECTANGULAR DIVIDIEQG FITTINGS
OF THE mcamsm TIPE

8:
martin A. Molnar

A THESIS

unlisted to the School of Graduate Studio-
“ 316111511! State 001193. of Agricultm
and plied Science 111 partial
tulfl heat at the requirement!
for the degree or

EASTER OF SCIENCE

Max-wont at momma). Engimorlng

In: 1955

 

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3' ACKNOWLE: 12022:;st

The author extend. his sincere thanks to Dean L. G.
unu- of the School of Ensinooring for his oouneol and
to Proton-or O. H. Pasternak! of the Department of Macho
nun Sagittarius for m- guldanoo and announce.

to author duo wish" to thank Professor 3. J.
unit“ of tho Department or Mechanical Engineering.
{hung workod on thin proJoot. previously, his suggestion.
and “noun” wore invaluable in carrying out thin inves-
“yuan.

for their mmauon and assistance in the labora-
my, Hr. Donald Sable and Mr. Carl Redmon are also
We.

 

 

 

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TABLE OF CONTENTS

Imow mo“ . .

nioccr’ . .
DWUU'Ufk c o o o o 0
Volume control. . . .
Bosnia and Volume mean
fitting. 9 o o o c c
Static Procturo Tap-
Oriticl Plato.

I O D D O

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Static Pro-cure neasurin

KET‘ITOD OF 603' DUCTI ”JG TEST

I Orifice Calibration
V 10" Run. 0 o c c c

first Fitting a c c :
Scoond Fitting . . .
Third P1ET138 c o o o

CALCULATIONS.......
DISCUSSIOR . . . . . . . .
Orifice Calibration.
friction Lou Cur".
Loco of Velocity Head
CONCLUSIONS . . . . . . .
DATA SHEETS, FIRST FITTING
DATA 3mm, enconn rrrwmc
DATA mm, man FITTING

APPENDIX . . .

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FIGURE
1A Layout of Test Equipment . . .

3
3
4
5
6

10

11'

13
14
15
16
17
18
10
20

vole-3 Dumper . . . . . . . .
Mainmct........ ..
Blower Suction Regulator . . .
Vblunc Measuring Station . . .

Skctch 0: Nine Fitting:
comprising,fiecearch Project

to}. 1,8! Fitting in place . .
18' x 9-. 3' 1.8- fittings . .
mg. Orifioc um- . . . . .
snail Orifice Plati- . . . . .

Static Pro-mm vegans-mg Station

Q

Sketch of mm Fitting Tested . .

Sketch of second Fitting Teetcd
Sketch of Third Fitting Tented
Photogrlph of Gurvc Sheet no .
Photograph of Gurvc Sheet 11 .
Photograph of Curve Sheet 12 .
Photograph of Curve Shoot 15 .
Photograph of Curve Sheet 14 .
Photograph of Curve Sheet 15 .

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PAGE

. Packet

6
6
7
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13
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16
17
18
19
53
55
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63
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CURVE SHEET

1 Orifice Calibration . . .

8 Orifice Calibration . . .

3 Orifice Calibration . . .

4 Orifice Calibration . . .

5 Orifice Calibration . . .

6 Orifice Calibration . . .

7 Branch Duct Friction Lose

8 Branch Duct Friction Lose

9 Branch Duet friction Lose
10 Added Equivalent Length, First Fitting .
11 Added Equivalent Length, Second Fitting
13 Added Equivalent Length, Third Fitting .
13 Loee of velocity Head, First Fitting . .
14 Loee of Velocity Head, Second Fitting .
15 Loee of Velocity Read, Third Fitting

LIST OF ILLUSTRATICES

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PAGE
23
24
25
26
2?
28
29
30
31
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IV

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VIII
IX

111

X111

XIV

LIST OF TABLES

Trunk Duct Velocity, First Fitting . . . .
Straight Branch Velocity . . . . . . . . .
90° Branch Velocity‘. . .

Ratio Of Straight to Main Branch Velocity,
Firit Fitting e e e e e e e e e e e e e

Ratio of 90. to fiain Branch Velocity,
First Fitting

Straight Branch Lane in Terme of
Percent Velocity Head in‘uain Duct.
Firet‘fitting

90° Branch Loee in Terme of Percent
Velocity Head in Main Duct,
ruB‘PltBtlngeeeedeleeeeee

Trunk Duct Velocity. Second Fitting . . .

Straight Branch Velocity, Second Fitting .

90° Branch Velocity, Second Fitting . . .

Ratio of straight to Main Branch Velocity,
Second Fitting e e e e e e e e e e e e 0

Ratio of 90° to Main Branch Velocity,
SCQODG Fitting e e e e e e e e e e e e e

straight Branch Lose in Terms of
szrcent Velocity Head in Kain Duct,
90nd Fitting e e e e e e e e e e e e e

e e e e e e e e

e e e e e e e e e e e e e

illeeeeeeeeee

90° Branch Loee in Terms of
Percent Velocity Head in Main Duct,
Second Fitting e e e e e e e e e e e e e

PAGE
69
70
71

73

74

75

76

77
73

79

80

81

83

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TABLE
IV
171
XVII
XVIII

XIX

new or TABLES (Gcn't).

trunk Duct Velocity, Third Fitting . . . .

Straight Branch Velocity, Third Fitting

90° Branch Velocity, Third Fitting . . . .

Ratio of Straight to Rain Branch Velocity,
nirdpitvtingoeeeeeeeee

Ratio of 90° to Main Branch Velocity,

Third Fitting

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Straight Branch Lone in Terme ct

Percent Velocity Head in Bain Duct,

Third Fitting

900 Branch Loee in Terms of Percent

eeeeeeeeeeeee

Velocity Read in Rain Duct.

Third Fitting

9 O U O O O I O 0'

O I C

PAGE
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84
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86

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88

89

 

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IETRODUCTION

Thie paper represents the results of one phase of a re~
search project. designed to determine the extent of the losses
encountered when air is caused to flow through a rectangular
duct with a dividing fitting, so that a portion of the air is
diverted into a branch duct at 90° to the main duct and the
remaining air flows through a continuing straight branch.

This research project is sponsored by the American Society
of Heating and Ventilating Engineers, in cooneration with.the
Michigan State College Department of Mechanical Engineering.
The original scape of this research project was to test three
sets of rectangular dividing fittings of different design,
each set to consist of three fittings with different combin-
atione of branch sizes.

The first set of fittings was tested and results pre-
sented in theses written by J. H. Yohn and L. A. Yerkonvich
in 1950.

Tests of the second set of three fittings were made in
1951, and the results, tagether with a reevaluation of the
results of tests on the previous set of fittings, were sub-
mitted in a thesis by R. J. Wealkee.

This paper represents the results of tests carried out

on the last of the three sets of rectangular dividing fittings.

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In performing these tests the author has used the same test
equipment and followed a similar test pattern as his pre—
deoessors.

In the design of air handling systems, engineers and
designers have sufficient data to enable them to determine
and compensate for losses involved in air flow through
straight and curved sections of duct, diverging and expand~
ing sections, plenum chambers into branch ducts, nozzles and
various other combination of ducts and Openings. However,
the data available on the losses encountered with air flow
through dividing fittings is meager, and that which is avail-
able is of such form as to be of little practical use in the
design of air handling systems. The purpose of this research
project is to provide adequate empirical data on the losses
encountered in air flow through dividing fittings, to provide
the designer of air handling systems with a more exact know-
ledge of the losses involved, thereby, enabling him to achieve
greater efficiency and economy.

The decreaser type of dividing fitting which this paper
treats, is one of three types which are representative of
the many geometrical variations found in use. The other two
types of dividing fittings tested, were the increaser type
and the straight type.

If each component branch of this dividing fitting is taken

separately, one branch is structurally comparable to a rec-

 

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tangular'elbov, and the other branch is structurally com-
parable to a rectangular converging section. If this superb
ficial similarity is carried further, and each component
branch treated as a unit by itself, the losses involved can
be examined, since data is available for energy losses in
elbows, as well as in converging duct sections.

The pressure losses occuring in either branch can be
categorized as friction loss, and dynamic loss. Pressure
losses caused by friction result from the viscous action of
elements of an air stream at different velocities, and by
the resistance offered by the duct wall to the flow of air
in contact with it. Dynamic pressure losses result when the
cross section area of an air stream is changed, either by
expansion or contraction into a different size duct, or by
a change in direction of the air stream.

Air flow in an elbow is a complex phenomena affected by
many variables, among which, those concerned with the geome-
try of the elbow play an imoortant part. Because of this
complex flow and the numerous geometrical variations, there
is, at present, no comprehensive analytical method for pre-
dicting the losses encountered in elbows. ‘

Losses in converging sections are also dependent upon
geometric variables, and are predominantly of the dynamic
type. Calculations of losses for these two types of duct

sections are therefore essentially based upon empirical data,

the utilization of‘which permits design and construction of
air handling systems of maximum efficiency nnd economy.

In the dividing tyne of fitting tne converging or di~
verging section, and the elbow, are integrates into : single
unit. However, the resulting losses are not necessarily of
the ame extent as those found in the separate conoonents.

The variables affecting this pressure loss are: total
quantity of sir flowing through the system, which can be
regulated by the quadrant damper in the trunk duct close to
the fan and also by partial blocking of the fan intake to
obtain low volume of flow; the cunntity of air flowing in

the respective branches which is varied by the rectangular

branches which is also varied by the orifice plstee; and the
design or geometry of the fitting, which will remain constant
for each fitting.

The object of this resesrch payer then, is to obtain
empirical data on the pressure losses involved in the flow
of air through a decreoser tyne of dividing fitting by eye-

tematiCally varying the above mentioned factors which influence

pressure loss.

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TEST EQUIPMENT
General Description

The test equipment, (FigurelA --, pocket) located in the
mechanical Engineering Equipment Laboratory of Richigan State
College, consists of a centrifugal blower discharging air
into a horizontal run of round duct. A few feet from the fan
discharge is a quadrant damper, regulating air flowing through
an egg crate straightener and an ASKE nozzle, placed furthur
along in the duct. Taps for pressure instruments are placed
in the nozzle section, and furthur along the duct a transition
from round to rectangular duct takes place (Figure z; ). A
static pressure tan is placed in the main duct, Just before
the dividing fitting and in each branch duct, at a position
beyond the fitting, and Just before the rectangular orifice
plate. Air is discharged from each branch into the atmos-
phere.

Blower. To supply air to the system, a Type s, Size two,
Clarage blower driven by a 440?, three phase 60 Cycle AC motor
was used. The motor, which was rated at 8.5 H.P. at 900 RPM,
operated the fan at approximately.l,290 RPM. In order to
obtain lower volume of air flow than was possible with the
quadrant damper located in the main duct. the single Opening

of the fan was partially blocked, and the suction regulated

 

Figure 2. QUADRANT DAMPER IN MAIN DUCT.
Volume regulation from 200 - 1700 CFM is
obtained at this point.

 

Figure 6. MAIN DUCT. Blower at right
rear discharges air into circular duct.
Transition from round to rectangular
duct occurs approximately midway in the
length of main duct.

 

Figure 4. SUCTION REGULATOR. With the quadrant damper
in the full closed position, adjustment of the leaVes per-
mite closing of the suctiOn opening. Volume regulation from
200 - 70 CFM is obtained at this point.

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by adjusting the leaves of the suction regulator (Figure
.four).

. Duct worg. Approximately midway between the blower
and dividing fitting, the 14' round duct is changed to a
20' x 8' rectangular duct (Figure ‘£5). Excessive leakage
in previous tests necessitated soldering all longitudinal
and transverse Joints where possible. In those places where
soldering was not possible or feasible, adhesive paper tape
or mastic putty was used. Complete elimination of leakage
in the ductwork between stations was a constant goal, and
as far as could be determined with the instruments used,
leakage was absent or negligible during the tests.

Zolume Contgglg. A quadrant damper some distance from
the fan discharge, gave volume control from approximately
two hundred CF“ to 1,760 CFM (Figure inwy). To obtain still
lower volumes of air flow, the author blocked a portion of
the fan intake and constructed a multioleaved device, to
permit regulation of the size of the suction opening (Figure
fours). This device, together with a piece of finely woven
canvas, gave volume regulation from anproximstely seventy CFM
to 200 CFM.’

Egggle and volume meesuring_ststion. The nozzle is lo-
cated in the 14' round section of duct and is preceded by an
‘efis crate' Iir straightener.

The nozzle is an ASP?) long radius tyne, used when the

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ration of throat to pipe diameter is 0.53 or less. The
contour of the nozzle is a semi-ellipse, with the contracting
portion followed by a cylindrical section of the same area

as the throat. Throat diameter is six inches. An impact
tube is located at the end of the nozzle, in the nozzle Jet.
A static pipe tap is located in the straight portion, two
inches from the nozzle end.

The impact and static tape in the nozzle permit deter-
mination of velocity pressure and therefore volume of air
flowing.

The static and impact taps are connected to two mano-
meters which are in parallel. One manometer is s Vehling
inclined draft gage reading from zero to eight inches of
water, with graduations of .01 inches.

The other manometer is an Ellison inclined draft gage
reading from zero to 0.5 inches of water with graduationslof
.005 inches.

The smaller of the two instruments is used for pressure
readings at low flow conditions. These nanometers, together
with the nozzle, constitute the volume measuring station where
the readings notsted P3 0 P3 (velocity pressure) on the data
sheets are obtainsd,figure five..

grunk duct pressure tsp. 0n the bottom side of the 20'
2.8“ rectangular trunk duct prior to the dividing fitting is
a.static‘pressure tap from which the trunk duct static pressure

netated P, is obtained.

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1' ttin a. All three fittings tested are of the de-
creaser type and are Joined to the trunk duct by means of
companion flanges separeted by a rubber gasket. The branch
ducts of the two fittings with branch sizes of 18 x 8 and
5 x 8 are also attached to the fitting by means of compan-
ion flanges, separeted by a rubber gssket. The 10-22-" x 8”
branches of the third fitting have drive slip joints, and
the Joints are made air tight by acolying a mastic sealer
at the Joints and all other breaks in the duct wall.

The branch sizes of the first fitting tested are 18”

x 8' for the straight branch and 3' x 8' for the 90° branch
(Figures eight, twelve).

Branch sizes of the second fitting are 5' x 8' straight
branch and 18' x"8' 90° branch (Figures eight, thirteen).
Both branches of the third fitting tested are of the same
size, 10%“ x 8' (Figures seven, fourteen).

‘gtraight branch static tgg. At approximately ten
equivalent duct diameters beyond the Junction of the straight
branch with the fitting, and preceding the orifice plate, a
static pressure top is located on the bottom side of the
duct. The pressure readings taken at this point are notated
P5 in the data.

90° branch statig_tsg. The 90° branch static pressure
tap is also located on the underside of the duct, aoproxims-
tel: ten equivalent diameters from its Juncture with the fit-

ting end Just preceding the orifice plate. Pressure readings

 

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16"DEQREASER iCTION WITH 45° ANGLE

 

 

 

   

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

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Fittings 7, 8 & 9 are covered in this paper.

 

   

 

 

 

 

 

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Figure 8.. FITTINGS WITH 18" x 8" and
5' x 8' BRANCHES.

 

 

 

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taken at this point are noteted P5 in the data.

mug plates filigree nineLWtenl. The rectangular
sharp-edged orifice plates are constructed of twenty gauge
galvanized sheet metal. They are inserted through a slot
in the duct wall of each branch and are held. in place by
'U" shaped guides soldered to the other three walls of the
duct. These guides present a tight fit to the orifice plate,
however, there is some appreciable clearance between the
plate and the slot in the duct well, through which air leak-
age can take place. This is eliminated by sealing the crack

with paper masking tape.

Static gressure measuring; station (Figure elevenl. The
static pressure in the trunk duct (134) as well as the static
pressure in the branches (P5 and P6) is measured at a cen-
tral measuring, station. Each of the static pressure tape is
connected with rubber tubing to' a five-branch glass-tube
header. Each of the header branches is equipped with a glass
“on cock. Three of the branches are connected. to the sta-
tic taps and the other two branches are connected to mano-
metera. The two manometer branches permit quick changing, to
Ibsnometers of desired. range and the static branches permit
reading all three static pressures seearstely in the order
desired on the same manometer. Three nanometers of different
”“868 were used at this station, 0 - .‘5 inches of water, 0 - 1

“Ch of water and 0 - .5 inches of water.

 

15

 

Figure 9. ORIFICE PLATES.
These orifice plates were used in the
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Figure 10. ORIFICE PLATES.
(Top) Orifice plates used in 10%“ x 8'
branches.
(Bottom) Orifice plates used in 5 x 8
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arson or comwcrmc TESTS
Prolininsry Toots

Upon completing the installation or the fitting and
hunch ducts. an inspection of the various comments of
tho tut sat up was nods. This inspection included chock-
ins the bless: and motor bearings. quadrant damper. duct-
Iort. sud instruments.

The inclined nononstsr at the volume measuring station
In adjusted for level and alignment of meniscus. All in-
clined monsters and for tho testing were checked against
tho 8' inclined nanometer at this station, and against cosh
other at various volumes of sir flow.

111 Isnosstors agreed within the limits sith which,
“‘0 situations could be read. The nanometers were then 113006
fl tho assuring station and connections to the static taps
lsrs sad. with rubbsr tubing. All tubing about which there
'“ any doubt of leakage us replaced with not heavy well tun
“”50 filo mbbor tubing use than checked for looks by in-
”WIS mffloisnt static pressure upon the inélinod Isaac-Cur
’0 force the liquid to the maximum point or the souls, and
“"91” m the tubing at its Junctnrs with the static up.
its In“. pressure upon the liquid was maintained for soo-

“11mm... sttor which time the pressures were checked for

 

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as: drop. which would indicate e leak in the tubing, or in
the instrulent itself. This procedure for testing the
rubber tubing was repeated for eech of the instruments used
in the test.

Each branch duet wee blocked off by inserting a metal
plate in the orifice slot. the camper Opened side, end the
blower placed in epsrstion. The system was then checked
for leaks by observing any pressure indication on the 8"
inclined ”monster (P3 . 9; station st nozzle).

m Joints were furthur checked for air leaks, by ple-
°1n8 the heck of the hand or the ear, close to the Joint.
An: evening through which leakage might occur, was sealed
either with cohesive paper tape or a mastic sealer. The
author wss greetly concerned with the problem of leakage.
which. it appreciable end occuring: anywhere between the
pressure assuring points, would lead. to inaccurate data on
'Ms results. The shove procedure for detecting leehage
'" "Dated for eech fitting tested, and the search for
leeks cede with such core as to warrant considering; any

leakage which light possibly exist, as being negligible.
Orifice Oslihrstione

“I. use of critics pistes in this research project
"ma ”We purposes. that of varying. the resistance of
such breach, i.e. equivalent length. that or varying the

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proportion of air flowing in each branch, and that of pro-
Viding s convenient method for measuring flow. Once the
test equipment was set up, and the fitting installed, the
use of orifices ends it unnecessary to alter the length of
either branch, or the preportion of air flowing through
either branch, by other means.

lthe successful use of orifice plates necessitated that
each orifice be calibrated, using the volume of air flowing
in the branch and the static pressure in the branch Just
upstream from the orifice plate. The calibration of the
orifice plates was accomplished by blocking off one branch.
end inserting an orifice plate through the slot, and into
the sum- of the other branch. The quadrant demper was
Placed in the wide open position, the blower started, end
”tidings taken at the main measuring station (P3 e P3)
end the respective branch static tape. The volume damper
was adjusted in successive increments to the full closed
position end pressure readings taken st each position of
”1' dearer. In order to obtain flow rates lower than could
b. ”hi-Md with the quadrant downer completely closed, the
““1” Opening of the blower was blocked. The same pro-
°°dure was followed with each size orifice plate for the
ham!“ This branch was then blocked off and the process
"9"“4 for the other branch.

“3 Orifice plates of different sizes were used with

 

 

 

 

 

 

 

 

 

 

 

 

 

 

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the 18" x 8' trench, four with the 3' x 8' branch. and
tour 1.1112: the mi" 3 8' branch (Figuree nine. ten). Thie
required ten orifice calibration rune for the two fitting:
viii: the 18 x 8 end the 8 x 8 breaches and 8 orifice celi-
mtion. me for the fitting eith 10? x 8" branches.
W? a fitting on ineteiied in place. the orifice
plate- for each branch were calibrated prior to making tent
rune on tho fitting.
We ehute one to eix represent the calibration our".
for the orifice: and with each fitting. Guru eheete eeren
u 11m mount the measure ion or various lengthe of

equiveient round duet in vhich the orificee are need.
feet Bane

W. Upon completion or the orifice celi-

bretion teete for e particular fitting the equipment weenedied

for tut mm by inurtina orifice piatee in each of the-

breaches and piecing the quadrant damper in the wide open

volition. The blower no started and reedinge were taken at

“1' pressure Ieaeuring stations.

With given orifice: in the
breach duete,

the veriabielduring each test run wee the vol-
“. of air flowing through the eyetea. This variable wee

"awn“ by the quadrant damper and the fan auction regulator.
a” Volume of air flowing was changed in fifteen to twenty
tum-1.1.1,. from approximately 1.760 m to 70 m.

M
001‘ eeoh «tuna of the damper and after a eutfieient

CH
O?

intend of tine (generally two to three minutes) to allow
the eyetun to become etabilieed and the instruments to
uttle out, pressure reaCinge were taken. This procedure
of Varying the eir flow from nuximum to minumum in euoeeeeive

new with a given eet of orifice platee in the two branches,

eenetitutod e 'teet run.“ Upon completion of .9 test run,

the blower was ehut off, and one or both of the orifice pletee
chased, and the prooedure of Varying the flow and taking
readinge '31. repeated for each combioatlon of orifioel.

For examle. in testing the fitting; with the 18 x 8
etraight branch and the 5 x 8 90° branch, the 18 x 5 orifice
plate wee ineerted in the straight branch and the l x 6 on-

the plate wee ineerted in the 90° branch. The blower wee

eterted end preeeure reedinge taken at each of the fifteen to

WU l“¢0."179 701m lettings of the cleaner. 371511 the

etraight brooch orifice plate (13 x :5) remaining, in position.
the l x 6 90° branch orifice plate was replaced with the

1t I 6% orifice plate and another teet run wee made. The
1* ‘ 5% orifice plate eves replaced with the l§ x 6% plate

end after the teat run, this in turn one replaced with the
3 x 7 orifice plete. .Me 15 x 5 ”might brenoh orifice

1
1) ate wee then replaced with the 14 x 4 orifice plate end
euee
“'1'. rune were made with the l x 8. 1% 1 5%. 1i x 3%-
IM 8
I 7 erifiee platee in the 90° branch. Thin proeedure

wee
"WM-M until teet rune had been made. ueing ell eon»

#—

 

 

 

CH
1?»

blnetioce of etreight branch and 90° branch orifice pletee.
The inclined drei’t gagee need for pressure readinge

are ehown in riguree rm, eleven.

The welcoit: pressure (P5 -— 9;) we Ileneured at the

neeele and woe reed on an 8" inclined draft €830,
graduated in .01 inch incremente. In order to elicinete
my error due to veriationo between inetrunente. the static
preeeuree P4. 1’5 and P8 were read on the some inetrument.
either e 5', l' or.5' inclined draft gage. The 5' find 1'
5&8“ were graduated in .01 inchce, end the 0.5' gorge wee

emanated in .005 inchee. Occasionally a pressure reading

wee taken to e degree closer than the graduation of the

inetmont warranted. i‘hie wee particularly true at very
10' proceuree end wee done with full realization of its

ambttul accuracy. ouch readings, however, were made to

indicate that the pressure was not at zero. thouL-‘z clone

to 1:.
file data taken during each teet run included the welc-
:ity Droaeure (Pa - 3J. the static preeeuree- (P‘, P5. P6).
1" 01' dey, dry and wet bulb tempereturee of air and baro-
n” reading. The tecpereture and barometric oreeeure
"I" 1" no way need in the oeleuleticne covered in thie pe-
1:Ch I"fillowing the policy of my predecessore in this re-
proieet. thie data m taken in the event it might

t.“
.0
(3-3 in the future, for theoreticel enelyeee or more

‘ -

 

v x

*1‘14-

a
.I‘.#A

r9
L04"

3;
113

_ fig;

«-

0‘ ;.-.-.V‘ — 0
‘ “ ' #3:. xxx

 

 

 

{55

“scrum omplrical analysis of the results of the research

“0500*. as a whole.
In adjusting the damper for variation of flow during

a test. run, an attempt. was made to approximate a predeter-

Ilned value or Velocity pressure corresponding to a desired

Dredetermlned volume of flow. The aata then for all test

fun. made were taken at approximately the same increments

of volume or air flowing in the main duct.

£1335 fitting tegtgd. The first fitting tested 10 shown

In figure: eight. anci twelve and-"the orifice calibration
“We: are on curve sheets one and two. The straight branch

use was 18 x 8 and the 90° branch was 3 x 8.
plates were and in the atraiaht. branch. (figure nine) and
r0“! cringe plates in the 900 branch, (figure tenh

The number of ounce plates for this fitting necessi-

Six orifice

tatod making 24 teat mm which are numbered 180 to 313 1T”

”“31" 1n the data.
”39 Observed and calculated data for this fitting or.

tab
mated! on data sheets 1 to BOB and tables I to VII.

W. The second fitting tested 1,!

shown in 1‘1.ng eight. thirteen and although the two branch"

21:0:118 some also as in the first fitting tested. their

and th. 9:: now roverud. The straight branch can is 5 x 8

"to ‘1qu branch use in 18 x 8. Four orifice plates

“I. 96 b 3‘13 the straight branch and at: orifice plates in
barn“. Orifice calibration curves or. thorn“ in

‘ l
I‘ 'irt 61" .1'
« tln'l H .
.'ga.|r ”I.

41.4”

‘ ‘2: I.

wri .

1h Alum-n;
’1 .'

 

 

 

C»
0)

curve shoots thrn and tour.
Twenty-tour test-runs, numbered 214 to 247 in the data,

were necessary in testing all the possible combinations of

orifices. The observed and calculated data for this fitting

are tabulated on data sheets 61 to 1208, and tables VIII to KY.
gird fittinfifitcstcg. The third fitting tested is illus-

trated in figural seven and fourteen. Both branches of this

fitting are 10'}, 1 8 and {our orifice plates are used with

ouch branch. The critics calibration corms are shown on

our” cheats tour and five.
Tho test of this fitting comprised sixteen test runs

numbered 348 to 87]. inclusive.
The observed and calculated data for these test runs are

Monica on data sheets 181 to 1823 and tables m to XXI.

O.‘
a.
V
Q

I”
l‘.
u_
it

it
h».

 

' ‘ H'- IIF .I
m ,,r wot.“ ,.— , L t. . . a, 4 n . 1 r W! .. o v a. 4 1!,uw4f1 .5tf1' .J'xvnr II»! N ‘ , , . . . .
. TC; .1 x , . _. . ; , . . 9.. #71? .1». 1 v . . «A... flat»! n ....Wu roman? a... .1. .Tuflqflur . -1. -...‘ an L. .rruhufl... ‘irLLtl. Eu... ..

 

r‘: 7
L}

CALCULATIONS

From the observed data a number or calculctionc were
and. to determine the prouuro loss in each of the branch
ducts. tailoring in the step by step procedure used in
making all the mathematical calculations and in obtaining
the values used for the graphical presentation of the re-

culto. Included in the appendix are canola calculations

which follow tho procedure on outlined below.

All calculations are based on standard air. The

author relied upon the 1952 edition of the 531m: Quidg
ciao-t onlusivoly for values and relationships used in

“has the calculations.
Tho conned data which tones the basin of all suc-

«odine; calculationl in- as follows: the velocity proacur.
H the nozzle, the static precaur. in the main duct Juat
“putt-can from the dividing, fitting. the static pressure in

the .traight branch downstream from the dividing fitting.
”‘4 the static pressure in the 90° branch duct downstream

”on the dividing fitting.
All calculations were made with an automatic calcula-

to: on which it was usually convenient to carry values to

“1" than the accessory three decimal places. However,

r
h"! ontmd on the data sheets these values were generally
l"NM“: of! to three decimal places which represent the

 

CT
US

degree with which the inclined manometere could be read

eecuretely.

l.

3.

3.

Orifice Calibration

the total quantity of air flowing in the system
(Q‘) is determined from the velocity pressure at
the nozzle (P5 w P3) and the area of the nozzle
(An).

The static pressure in the branch (P5 or P6) ie
obtained by observation at the static preeeure
measuring etation.

The values obtained in 1 and 3 above repreeent
the coordinates used for the orifice calibration

curve.
Test Rune

The total quantity of air flowing in the system
(9‘) ie determined as in step 1.

From the volume of air flowing in the main duct
(Q4) end the area (A‘) of the duct at the etatio
tap (Pi), the velocity pressure (VB‘) for eteticn
tour is determined.

The total pressure in the main duct (TP‘) is ob-
tained by addition of the velocity pressure in
'the main duct (12‘) end the etatic preeeure (P4)

     
 

  

t .fi‘. . 3.. “fut. 4453!)?qu . .i. ... a #:33131‘ f e + i ".1: a
. Urcllmt . v‘ , , I

   

7.

8.

11C).,

(0

upstream from the fitting. The static pressure

is observed at the static pressure measuring eta-
tion.

Using the observed static pressure in the straight
branch (P5) and the orifice calibration curves for
the straight branch, the volume of air flowing
through the straight branch (as) is obtained.
Using the observed static pressure in the 90° branch
end the orifice calibration curves for the 90°
branch, the volume of air flowing in the 90° branch
(Q‘) is obtained.

Since the sum of the branch volumes differs some-
what from the volume of air flowing in the system
as determined in Step 1, the branch volumes must
be adjusted so that their sum equals the system
volume. The straight branch volume (Q5) is added
to the 90° branch volume (Q8) giving the value

as e Q6‘ .1

In order to determine the correct quantity of sir
flowing in each branch, the percent diverted into
e.particular branch is obtained by dividing the
quantity flowing in a branch (Q6) by the sum or
the volume in each branch (Q5 e Q6). The result
is the percent of the volume or air in the system

Vision is diverted into the 90° branch.

 

 

P I

,ID‘I‘)"

”W,<

one.

H
“I

7 4A..
(73!.

inflrmrhx.”

lm.4

h

C

9:

Isl“

 

11.

12.

13.

14.

115.

ILES.

111?.

Iii.

40

the corrected 90° branch volume (Q60) is obtained
as the product of the percent diverted into the
90° branch and the volume of air flowing in the
main duct (Q4).

The corrected volume flowing the straight branch
(Q55) is the difference between the main duct vol-

ume (Q‘) and the corrected 90° branch volume (963).

.Ueing the corrected volume for the straight branch

{Q50} and the duct area of the straight branch at
the static top, the velocity pressure in the straight
branch (vrs) is determined.

The sum of the velocity pressure and static pressure
in the straight branch (VP5 and P5) is the total
pressure in the straight branch (795).

Using the corrected volume for the 90° branch (:30)
and the duct area of the 90° branch at the static
tap, thehvelocity pressure in this branch (We) is
determined:

The sum of the velocity pressure and static pres-
sure in the 90° branch (VP6 and p6) is the total
pressure in the 90° branch (TP5).

The pressure differential between the main duct

and the straight branch is calculeted (TP‘ - TPE).
the pressure differential between the main duct and
the 90° branch is calculated (T?‘ e TPB)’

19.

21.

£33.

Jail.

41

Using the corrected quantity of air flowing in the
straight branch (Qsc), and the equivalent round
diameter for the straight branch, the friction lose
(APs) per hundred feet of straight duct is found.
These last two valuee are obtained from the table
and friction chart in the gggz§_ uide.

Using the corrected quantity of air flowing in the
90° branch (Q63), and the equivalent round diameter
for this branch, the friction lose (£396) per hune
dred feet of straight duct is found.

The equivalent length of the straight branch Eq.iL.5
is found by dividing the pressure differential

(TP‘ - TF5) by the friction loss per hundred feet
of straight duct. I

The equivalent length of the 90° branch (Eq. L.6)
is the result of dividing the pressure differential
(TP‘ e TPG) by the friction loss per hundred feet
of straight duct.

The added equivalent length for the straight branch
(ZiEq. L.5) is the difference between the equiva-
lent length and the actual measured length

(Eq. Ins - Act. Lea’e

The added equivalent length for the 90° branch in
the difference between the equivalent length and

the actual measured length (Eq. Lme 0 Act. lug).

 

I“

I'IMI a]

-'L'-.

 

p

u

   
    

mo.

.uwlv'in'l i» I.

f".

35.

38.

37.

28.

29.

:5]..

32.
‘BES,

42

tho velocity in the main duct (Vi) in the quantity
in the main duct (Q‘) divided by the duct area at
the Itotic top (A‘).

The velocity in the straight branch (V5) is the

,-

qucntity or air flowing in this branch (Q50) divi-
ded by the area of the duct at the static tap (A5).
The voiocity in tho 90° branch ('6’ is the quantity
of air flowing in this branch (Q60) divided by tho
duct arca at the static tap (A6).

Tho ratio of the straight branch velocity to the
main duct velocity (v5 / v4) in calculated.

Tho ratio of the 90° branch velocity to the main
duct velocity (Vg./ V;) is calculated.

Uning the friction loss per hundred feet or straight
duct and the actual length of the straight branch.
the friction loss for the actual measured length
(AP5 / Act. 1:05) in obtained.

The friction loan for the actual length or straight
branch (A P5 / Act. lab) is subtracted from the
pressure differential (TP‘ ~ TPs) to obtain tho
pressure ices due to the fitting (Loon / Fitting).
Stop 50 is rcpoated for the 90° branch.

Step 31 is rcpcated for the 90° branch.

Th. 10!. per fitting for the straight branch (Loan
4/ Fitting) is divided by the velocity pressure in

I J

\cy¢1-\‘.AA.J.iullqllliorm. ‘ I....o.w!,.!l..;m ”Ema.

 

. i

 

55.

P:
4~
L.

the main duct (VP‘) to obtain the lose as a porn
cent of the velocity head in the main duct (% VH4).
Step 54 in repeated‘for the 90° branch.

Ueing Values for standard air, a Reynolds number

_ of 4000, and the equivalent round diameter, the

critical velocity of air flow (V Grit. for each
branch is determined).

44

DISCUSSION
General

All calculations and results are based upon the mea-
amcment of the velocity preeeure at the nozzle and the
static pressure in the branch ducts. Consequently the
occur-coy with which these values can be measured and read,
dirsotLv effects the resulting, calculations and the graphi-
ul representation of the results.

the inclined draft gages used to measure pressures in
fine test cannot be read accurately at low flow conditions,
1.0. at 101 pressures. The static pressure difference be-
tuen the two volumes, at low flow, is generally so small
‘fimt it tells somewhere between the graduations of the hence
meter scale and in order to obtain a reading, the observer
cunt interpolate. such technique is questionable. Of the
fifteen to twenty increments of volume used in each test
run the last three or four are low and the calculations
lad! with the data. obtained at these low flow conditions in
inconsistent Iith that at higher flow conditions. This in-
ooaoistency is readily apparent in the data of tables one
” "Onto-one.

At low 210! the velocity in some cases equals or

I
ppmch” the critical velocity for turbulent flow. Since

T

'7'
r‘
'
O
f

q
4

4’

e.' c
a

e

u A
4
n I

—-w

‘i,

«J ‘

an: at.“ .1.

\V

._.

..

"‘

 

.

than

J

He

 

L

E

45

this paper is concerned only with turbulent flow conditions,
those values about which there is any doubt regarding type
of flow are so indicated and are discarded in the graphical
results. Those data obtained at low flow conditions. which
are inconsistent with preceding data are also disregarded

in the graphical representations.

The friction chart in the 1952 edition of the term:

 

Guide. was used in determining the friction loss of the branch
ducts at the various volumes in each test run. Here again
the last three or four values in the teat run data, had to

be disregarded because they were below the range of the fric-

‘J. on chart e

Orifice Calibration

The orifice calibration curves are used to determine
the quantity of air flowing in each branch duct at a given
static pressure in the branch. The volume of air flowing
in each branch is a basic value upon which most of the cue-
needing calculations and final results are based. It is
therefore highly important that these curves represent as
accurately as possible the flow conditions existing with
each orifice plate. With the exception of the lower portion
°f “10 curves of the orifices for the straight branch of the
first fitting tested (which will be discussed later): the

”1:10. calibration curves are in good 839808“ with 93°11

"h” and with the volume found at the nozzle. mu: the

WW *’ "1’ 313'. V"

.fipocu .‘ .V

"1.3.1."! H»: .51.? f“

Olg‘lfio' Ol" V

.13. :f 112 We: 1"?

.I-vl: . O ‘n ‘ I
m3. (2‘ 1: I. ‘a‘m-c‘

":.“IA’£ .IO - 7
1‘- .02.... O- C

I.‘
‘. 'M
4- ‘metcli; '-
'l:-.'.'. u
' ax ' i‘.‘ ‘t
16;..oh'. 1
I.
[MIJJM‘ 0‘40:
-. ....;\ Uh.
‘
B"
”‘3: Q" 0‘60:
...U. o l
t:“:':

 

exception of low flow values, the sum of the trench volumes
as determined from the onlihration curvee ie within five
percent of the system volume as measured at the nozzle. This
is considerec‘ to be within the range of experimental error.

Furthermore, the coercinetee of the curve of an orifice
plate teetec”. in the straight trench are almost icenticel
with the coordinates of the curve of the some orifice when
it ie tested in the 90° branch. This is beet illustrated
by the orifice cclibrntion curve-o for the third: fitting tested
in which both straight and 90" branches are of the same size
and identical orifice plates are ueefi with each branch. The
curves for thin fitting are in such close agreement that
they coincide.

As mentioned previously, the orifice calibration curves
were found to be accurate within the range of experimental
error, with the exception 01'" the curves for the eireigjxt
branch orifice plates of the first fitting. tested. These
were the 18 x 8 branch orifice plates. of wi-aich there were
six. These ourVee continue from the high flow region in a
straight line path until the low flow regi on is reached where
a definite upward curvature taken place, “niece came orifice
platen when tested in the 90° branch chow no ouch peculiarity.
”he“ these curves are used to determine the branch volume
and 151113 volume coded to that found by using the curves for
”1' 90° branch, the total is so far- in excess of the total

Mum. as measured at the nozzle that these data must be

out in: the "9.11!
Mines Ii 10v {101 t
and. the or bat}.
with far the in?
”WI, narrate ‘1'
“N”. L I. -
«05... L. if.....§r
him ex‘:e:e err:
lightxj '12 ' a .
In a... u‘QPln..O
‘0 is- ..E

“m a :1" VII?!

 

 

“'3! item. e... -
“can at n

O
I .61.".

“3" lieeu u -.-

  

4'7

rejected from the reeulte. This will eliminate tour or

five values at low flow conditions, from each test run for
thie branch. One or both or the following factors could be
reeponeible tor the deviation of these curves; leakage in

the eyetem, inaccurate pressure readings. Of these two
poeeibilitiee the latter is felt to be the more likely, in
View of the extreme care taken to eliminate leakage. and

the difficulty with which low pressures could be accurately
reed upon the inetmmente ueed. Deepite the lace of the

iaet four or five Valuee in each teet run, the remaining

data were numeroue enough to permit adequate graphical re.
presentation of the teat results.

On curve eheete eeven, eight, and nine ere plots of

data taken from the friction chart in the mm which
ehoe the friction lose of varying lengths or equivalent

round duct at varying ratee of flee. Superempoeed upon

time are plate or the friction ion of each orifice plate
need in the cane eize duet at ravying flow rates. Theee carve!
will give an approximate value for the reeietance of each of

the orifice pletee need, expreeeed in equivalent length of the
sin duet need.

The elcpe or the orifice curves is considerably leee

than that of the duct they are need in. Coneequently, at

1” rate: or flow, the resistance ie leee than at higher retee
"1’10... The Varying equivalent length at varying flow rate.

I
M“: hue on adverse effect on the accuracy. if one were to

limo orifice ealiir
M2! a 51m 1501::

ml: which the c.

film he mattiii:

fit: I the final m.“

Hm muss-6 0‘:

 

£me 111 Q! ”313’
“12253211. 1; .3

il“"413- mh 3'32}. ‘
M”! u:
i.

7% the .

e
O... ‘ e
m a: 6..

”“1! '
l the: h .t-‘QI 1:;

‘ F
i. W1" hilt»

In. h
it .3318: yum]

i.‘ ..

“he.

‘\

I.

09 .
s”. 31m. ,d .
N h“ 9;. '
~91 "" 0“" ‘ ‘
MW }

« '.‘

use these orifice calibration curves to obtain an absolute
value with a given isolated set of conditions. However,
the say in which these curves were used in this project
eliminates the possibility of this discrepancy hearing, any
effect on the final results.

Al was mentioned earlier in this paper, the volume of
sir flowing in the system was determined by measurements
Bade at the'nozzle in the main duct. The volume cf‘eir
flowing in each branch was determined from the orifice oalie
bration curve using the observed static pressure in the
branch. The sum of the volume of air in the two branches
was adjusted to equal the volume of air flowing in the eye-
tsc. The orifice calibration curves then, give the propor-
tion of the system volume of air which is flowing through
each branch.

In order that the orifice calibration curves serve
their purpose accurately, the following conditions must be
true. The proportion of air flowing in each branch should

main constant during each test run, and, in order for
this to be true. it follows that the orifice calibration
“"9! for each fitting must have the same slope. The date
“1°" that the first of these conditions does exist and
1"'P'Btion of the calibration curves shoes that the curves
t” lIll orifice plates used for each fitting have the cane

mp.» in fact the curses of the plates for all the fittings
tuteq are parallel within very close limits.

maul P?“

e .l
a. 109m 15‘3""

o 9"
Fla ”11:137.! 0‘
.«t “

aunt. . t!!! 17'“
Items! to 1m 1

I29 029! ll to “"371
If“

3"
.. M in the Ir ~-

Meet! to rep!" 9!?

u:

u
.5-

its Lttcr‘

N ‘
I..'.‘.‘.:g IN: is 1'

'9 move-:1 Come

in {semantics m

“3371mm lou r1:
hr} -

.1. or Q. c._“'
Math: lent 1‘.

"atom [111‘ '1
"‘2 h 18 x 8 1r

 

49

Graphical Presentation of Results

The losses involved with the three fittings tested, at
varying conditions of flow, are presented graphically for
esch fitting. These losses are presented in two ways; one
is to express the loss in terms of added equivalent length
end the other is to express the loss as a percentage of the
velocity head in the main duct. This results in using two
curve sheets to represent the branch losses in each fitting.

Although the interpretation of both sets of curves for
each fitting leads to identical conclusions for most cases.
there are several descrepancies which require an explanation.
These descrspancies are apparent when the conditions for ob-
taining minimum loss with each fitting are determined. An
inspection of the curve sheets shoes that these curves which
represent the loss in terms of added equivalent length have
points clustered within a small area. This is particularly
true with the 18 x 8 branch. This makes it difficult to
scourstely locate the curve and to accurately represent its
Path. On those curve sheets with losses presented as per-
cent of main duct velocity head. the plot of, the points gives
e such more accurate and complete curve.

For this reason it is felt that this latter set of curves
" the more reliable and the conclusions drawn should be laced

"9"" the interpretation of these curves.

”iced.

in: Item ten, 2

I" U -
m. or I;::i*.° * '

I y.

11:19.: mm and tr:
“4' Ham mace-
W11: knit: 13': o‘

Marina ”1, .
“1‘2.

klf‘lrn .

. damalm
s1:

. ’M‘Jser in:

m. X
“en its $1....

I t.‘
“9.5. 'H.
0“
' of c3..."-

K’m h ””4113.

"£1; es
«9:53. 1.

v.
“I 1!} uh.

2:1

'°:.;I

 

h “1°11“.
'- 3r .
”We ‘ L
can" }
in. a» I
he Jr 9
01"" w.
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“3 3.11
‘W ‘ 1f; 9'.
5:1: U.
i by
L. ‘ {fee
"31‘! 5 .(.
h Whiz. ~

50

Friction Loss Curves

Our?! sheets ten. eleven, and twelve in the pocket are
plots of data showing the relationship existing between
velocity ratios and friction loss for the three fittings
tested. Figures fifteen, sixteen, and seventeen are photo~
graphic reproductions of these curves.

The ordinate axis represents the ratio or the velocity
in either of the tea branch ducts to the velocity in the
coin or trunk duct. i.e. ratio of velocity in smaller to
velocity in larger duct. The abscissa represents the pressure
loss through the titting,eXpressed as added equivalent length
in feet. This. of course. postulates the loss as being
sholly due to friction. Although it is known that a portion
of this pressure loss is dynamic loss. by eXprsssing the to-
tal loss in terms of added equivalent length, a convenient
comparison of the relative resistances of the fittings tested
can he made.

The calculations used in obtaining the values used to
plst these curves are illustrated in steps 23 to 29 of the
Portion of this paper entitled "calculations.“

The outstanding characteristic of these curves is that
“m0 of them fall in the region of negative eouivalent length,
"0- negative resistance.

Borers proceeding with a.discuseion of these curves for

«ch fitting. an explanation of this apparent paradox is in
inn-3,.

‘

51

The test equipment is such that the main or trunk duct
is always larger than either of the branch ducts. The
quantity of air fleeing in the main duct is always greater
than the volume of air flowing in either branch. The fric-
tion loss as determined from the friction chart is based on
quantity of air flowing in the branch duct and upon the
equivalent round size of the branch duct. The pressure
differential for each branch is the difference between the
total pressure in the main duct and the total pressure in
the branch duct. This pressure differential is the pressure
loss through the fitting and is the dividend in the mathe«
sstical operation to determine the equivalent length (see
steps 81. 32 of 'calculations'). The friction loss per
hundred feet of equivalent round duct is found by using the
size of the branch duct. This value represents the division
in the mathematical oneration to determine equivalent length.
Noe this friction loss is based upon the branch size and is
approximately twenty percent greater than if the main duct

size vere used to determine the friction loss under corres—
bonding conditions of flow. The added equivalent length is
the algebraic sum of the equivalent length and the actual
length. A larger division will give a smaller result, he.
3 Waller value for eouivalent length and hence a negative
add‘d equivalent length.

There exists in these tests a situation where sir floss

t
m“ Q larger duct through a converging section into a smaller

I‘. I! it: ;;:‘zs.:..
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52

duct. If the pressure differentials ere small, 1.8. low

loss, and these are exgressed in terms of the smaller duct.

01:. negative Values for added equivalent. length will re-

Q- .44-
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Fl

sun. The negative Values for adéied BQ'.x.‘LV-';1&3fl

never exceed five feet which represent relatively 10:? loss

values.

The correct. interpretation for such resins is that the
pressure lose in so small as to be inalgn ficant.

21:53 {Agging curvg. (Figure 15, Curve Sheet 16)

Both the straight. branch (18 x 8) and the 90° branch (3 x 8)
have a minimum added equivalent length, Le. resistance,

than the velocity ratio is aoproxi-sately one, 1.8. when
branch duct. velocity and main duct velocity are approximately
”final.

The 90° branch offers least resistance when the branch
“hut-y 1. 1.3 to 2 times 4&5 great as the 5.3.1 . duct velocity.
a“11111 this range of velocity ration, the addec’: eqzuvelent
1'30:h remains Virtually unchanged. As the branch valccity
Gewefifiea below that of the main éuct the curve becomes
“m"hat parabolic. the édcled equivalent length increases
ind “3° maximum added equivalent. length 18 found when tho
branch Velocity is approximately .50 of the main duct VOL-
001“. representing an equivalent length of approximately
36° fut.

Th. Plot of the data for the straight branch results

1a.;
“3311 cluster of points representing a narrow range of

 

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hoth velocity ratios and sad-fled eqnimilent lengths. The

points indicate a. trend. similar to that of the 90° branch.
The minimum edc‘ied equivalent length is found when the branch
velocity is approximately 1.1 times an great as the trunk
Velocity.

The displacement of the two curves indicates less re-
sistance is encountered with air flowing through. the straight
branch than with air flowing, through the 90° branch. Vini-
sun losses with this fitting; are incurred when the following
conditions are present; a short straight branch (approximately
CE feet) with a velocity ratio of 1.10, and a short 90° branch
(approximately 50 feet) with velocity ratio from 1.00 to 2.0.

"Becong fittizg ourzg. (Figure 16, Curve Sheet 11). In
“113 fitting the two branches of the first fitting are re-
mud. 1.0. that 90° branch is 18 x e and. the straight branch
""0 in this case is very similar to the 90° branch curve
01' the previous fitting. From a velocity retio of 1.0 to
3‘0 ”19 curve appears asymptotic with the afiCEd. equivalent
length ranging from approxmtely two feet down to apnroximatoly
on. half root at the higher velocity ratio. Below the. vol-

Ocity x“Mao of one the curve anpeera parabolic increasing,

in added equivalent length as the velocity ratio is reduced.
Main“ losses are encountered in this brzmciz when the branch
velocity 1. equal to or greater than the trunk. duct velocity:
1... the Velocity ratio is one or {greater than one. hat

porno
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seats an guivalont length of fro” approxieetely 80 to 30
fefto
The plot of the date for tie 90° branch {18 x 8 pre-

sents a rather wiCe scatter of pointe reaming in velocity

ratios from .80 to 1.10 nod in efideé eqnivalent lengtl from
55 feet to approximately 75 feet. This presents some diffi~

(5

culty in attehpting to afxix tie locus of the urvc along
tie horizontal axis, horevor the curve is felt to be repre-
zwntetive to witiin plus or minus several adoed equivalent
fixt. the ourVe at no time Tulle below epmroxixatcly S7
aflaed eguivalent feet and tte minigum point of res‘etenco
£113 at an approximate velocity ratio of one.

The lateral displacement of the 90° branch curve from
the straight branch curve indicates the resistance is quite
large for tLe 18 x 8 90° branch. The contrast between the
curves for this and the first fitting in which the brenCLBQ
are reversed is appreciable with regard to the 18 x 8 brnnbh.
Losses for this fittiz ...; are a minimum when the straight branch
ranks from 80 to 50 feet and thn velocity rotio from 1.00

toILOO and when the 00° branch rename firma long to short
alt... a. velocity ratio of .75 to 1.10.

euro flitting gurve. (Fibure 1?, Curve Sheet 12) Both
stream and 90° branohee of this fitting, are my a 8".
Both curves are parabolic in shape, though nonsmoetrical.
um muszwsiptanoe varies over a samewhat nerrog range with

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For th e etzaigtt txazich, tie a;* 3 equivalent length
is a minimum with a velocit; ratio of 1.00. For velocity
ratios ebc ve or below 1.00, the added equivalent length in-
creases at a relatively slow rate. The lower portion of the
curve represents approximately 280 feet equivalent length

IN

and the upper portion represents acuroiirctelJ as fact
equivalent length. I

For the 90° branch, the minimum added equivclent length
is approximately 23 feet and occurs at a velocity ratio of
atpr oximstely .95. The curve is perabolic, tncugh nonSJmmetn
ricel, and the aéced equivalent length increases as the val—
ocity ratio departs from .35. The lateral displacement of
the two curves i..;ic ates that the minimum difference in re-
sistance between the two which c:n be expected is an roximaw
tely 84 equivalent feet, with the 90° branch providing the
greater resistance. This occurs when the velocity ratio is
aggroximately one. The lower portion and ucoer portion of
tile curve are identical, in regarfi equivalent length, with
tie straight branch curve.

"“6 losses for this fitting are a minimum when the $00
bmumh velocity is high with a short branch or low with a
Inmsbrinch and the straight branch 18 short (approximately

29.feet) with low velocity or long with high velocity.

*1

\_ ’/~

—5. ._

Loss of Velocity Head Curves

Curve shoots 15. 14, and 15 in the pocket are plots
of data. showing the relationship between velocity ratios
and branch 10” expressed as a percentage of the main or
trunk duct velocity head. Figures 18, 19, and 20 are photo-
graphic reproductions of these curve sheets.

The ordinate axis represents the ratio or the velocity
in oithcr of the branch ducts to the velocity in the main,
or trunk, duct. Tho abscissa represents the branch pressure
loss expressed so s percentage of the velocity head in the
main duct.

The calculations used in obtaining, the veluos for plot-
ting these curves are illustrated in steps 28 to 55 of the
'Cslcuistiono.' Before discussing these curves furthur. a
brief resume will be given or the procedure followed in ob-
taining the percent velocity head lost.

the total pressure differential between the branch duct
and the main duct results from both friction loss and dynas-
nlc 10“. If the branch pressure loss duo to friction, as
computed from the friction chart, is subtracted from the to~
tsl pressuro loss, the remainder may be assumed to result

from the dynamic louse inherent with the fitting. Although
there is no sharp dividing line between these two types of
lam. and although- there is some question concerning the

Validity of using the actual measured length in determinirg

Ifriction 1022, U:
mandated by tie i
tamed.
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60

p the friction lose, this approach permits a comparison of the
losses induced by the geometry and construction of the fit-
tings tested.

An inspection of these curves chose that we are ngein
confronted with the question of negative losses. Here
again the author must submit as the only reasonable expla-
nation that which was given for the previous set of curves.
The losses incurred by the flow of air from a larger duct
into s smaller duct, when these losses are small and when

they are expressed in terms of the smaller size duct sill

§// result in negative values. These negative losses then must

 

be considered so smell as to be insignificant.
zirgt gigging cugzg. (Figure 18, Curve Sheet 13). This
is the fitting sith 18 x 8 straight branch and 3 x 8 90°
branch. the plotted points or the straight branch are clus-
tered within s small area, however the concentration of
points is such that the curve as drawn is a relatively true
representation. The losses for the straight branch are smell
vith the minimum losses occurring at velocity ratios above
anO, i.s. in the range of critics plates representing
Emnmximatsly 50 to 80 equinlent feet.
The plot of the date for the 90° branch is fairly con-
sistant for the lower portion or the curve, however the
Points of the upper portion of the curve are rather nicely

/ scattered.

Since the data was insufficient to give a closer growing

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of plotted points, the upper portion of this curve must be
considered of doubtful accuracy. The minimum loss for this
branch occurs at e velocity ratio of approximately 1.00
vith orifice plates representing approximately 30 to 80
equivalent feet, the loss increases to a maximum of approxe
imetely 60 percent of the trunk velocity heed when the branch
velocity is decreased to approximately .20 of the trunk vel-
ocity. this occurs when the orifice plate representing
approximately 260 equivalent feet is used.

the minimum displacement.of the two curves from each
other represents a loss or from 10 to 15 percent of the
main duct velocity head, with the 90° branch exhibiting the
greater loss. The conditions which give minimum fitting
loss are short 90° branch (approximately 30 rest) with s
velocity ratio of approximately 1.5 and s short straight
branch (approximately :55 feet) with s velocity ratio or
approximately one. The equivalent length and velocity rue
tic tor the straight branch are not nearly as critical as
for the 90° branch.

§gggn§_§i§§;§g_§gzzg, (Figure 19, Curve Sheet 1‘).
Iith this fitting the branches of the previous fitting are
reversed so that the straight. branch is s a: e and the 90°
branch is 18 x 8.

The slaps of the straight branch curve above a velocity
ratio or one is such that the velocity may be varied over’s

fairly side range and yet the losses incurred are relatively

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small. This portion of the curve represents a rather short
equivalent length of small size duct (approximately 30 to

80 feet) with air flow at higher velocities. The trend of
the curve is such that the percent loss is encroaching zero
as the branch velocity increases over the main duct velocity.

Below a velocity ratio of one the clone of the curve
decreases rather rapidly so that at the point representing
approximately 260 equivalent feet the loss is at a maximum
'of approximately 48 percent with the branch velocity about
three tenths the velocity in the main duct.

The curve for the 90° branch is rather unusual, indica-
ting greater losses for relatively minute changes in velo-
city. the loss in this branch never falls below approximee
tely 95 percent of the mahn duct velocity head. This mini.
sun velocity occurs with a branch velocity of approximately
seven tenths of the main duct velocity. This minimum point
represents soproximstsly 800 feet of eqtuwelent duct. is
the velocity is increased in small increments and the equivb
slent length of duct is decreased, the loss increases in
almost a straight line. The point of maximum loss occurs at
s velocity ratio of approximately 1.4 with an equivalent
length of duct of approximately thirty-five feet.

The conditions which result in minimuc loss for this
fitting ere) short straight branch (approximately thirty
feet) with a velocity ratio of 1.60. and a long (approximately
800 feet) 90° branch with a velocity ratio of approximately .75.

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gig fitting cmg. (Figure 20, Curve Sheet 15). Both
branches of this fitting ere of the same size, 10% x 8.

the straight branch curve is parabolic with the minimum
lose occuring at a velocity ratio of approximately 1.15, re~
presenting an equivalent length of approximately seventy feet.
At velocity ratios above and below this value the loss in-
creases vith the maximum loss occurring at a velocity ratio
of approximately .65; representing an equivalent length of
290 feet. .

The 90’ branch curve flattens out at the higher velocity
ratios the minimum loss of approximately 51 percent occuring
at a velocity ratio of .55 representing an equivalent length
of 290 feet. The losses increase rapidly with smaller in-
creases in velocity. The maximum loss of approximately 150
percent is incurred with a velocity ratio of approximately
1.20 representing an equivalent length of epnroximatsly 55
feet.

The minimum losses with this fitting were found under
the following conditions; a straight branch equivalent length
of approximately 35 feet with a velocity ratio or 1.35 and
a long90o branch (approximately 890 test) with s velocity
ratio of .55.

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67

CONCLUSIONS

The following conclusions may be drawn from the data

and results of this investigation.

1.

3.

5.

Of the three fittings tested. the first fitting
(is x a straight branch. 5 x a 90° branch) shows
the least lose, in added equivalent length, due
to fitting resistance. Velocity and equivalent
length in the straight branch are not very criti-
cal, however. velocity and equivalent length in
the 90° branch are very critical below a velocity
ratio of 1.00 and above anoreximately 80 equiva-
lent feet.

The second fitting tested (3 x 8 straight branch.
18 x 8 90° branch) presents the greeted fitting
loss in added equivalent length. As the equiva-
lent length of the small straight branch is in?
creased and the velocity reduced, the losses in»
crease rapidly. Losses in the straight branch
remain relatively small with large increases in
equivalent length.

The third fitting tested (both branches 10% x 8)
slices greatest flexibility in regard to branch
equivalent length and velocity vith.relstively

lee losses.

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68

with each of the fittings tested, s small size
branch of long equivalent length with flow at

low velocities incurs excessive losses.

The maximum added equivalent length for any
branch results with a long equivalent length and
low sir velocity in the branch.

the greatest loss in terms of percent velocity
head occurs with s large 90° branch (18 x 8 and
e shell straight branch (3 x 8) when the large
branch is.of short equivalent length and the sir
velocity is high.

A comparison of the results of this investigation
with those of the tests made with the straight
and inerseser type fittings is necessary for the
svelustien of the three types of dividing fittings.

 

  

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1. .921 1.06 1.011 3.0 , 1.06 1.07 “ "
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TMSLE V
1211219 01‘ 9730 291.2132 Vi-ILOCITY 21; 2311712: ‘7 2100121, 75/711 _
18 x 8 STE§LI&:{T glib-LCM, 3 x S 90° JBLQJCH
012159192 211:2 0111:1021 312.1:
5222.129: 5311-11731: 15 1.. '1; 19 g 14 15 1: 5 151;» 9: 53-: 1'5 x 6 16.1. :1: 6.1.- 52:11:11.2? 25299333 1‘1 x 3 11* X 1; 15 X 5 15?: I 53‘: 15 X 5 1&3; I 53.:—
1, 399' .65 .113 .35 .31 .26 1.25 .8, .57 .97 .240 . 35
2. .97 . 3 .93 .39 .31 .25 1.29 .9: .57 .127 .211 .35
5’ .96 .613 .113 .35 .30 .2 1.23 .83 .7 .97 .111 .35
. 1.03 .63 .123 .35 .75 ~26 1-33 .33 .91) 3‘5 3+0 -35
5. .95 .63 322 .35 .30 .26 1.121 .sz .56 .146 .123 .35
2. .95 .69 .213 .36 .22: .26 1.2: .31 £5 . *5 .39 ~32
7. .953 .62 .1: .3: .2'.‘ .25 1,29 .75 55 .115 .35; .3
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9. . .. .59 .90 .31 ~22 .27 - 1.11 .75 .22 .122 .35 .31
021111013 10. ' 36 . 53 ' 97 .25; . '20 .25 09.15101) 1. 17 . 69 1x I _ 3": . 32 . 33
$122: 11. .83 .33 .8. .27 .22 .22 531351 .96 .65 .13 .31 .2 .23
90° Biiiiiiiiii 2. 1 " .53 .39 .27 .121 .1 90° 2m .56 .170 .31 .29 «2‘7
1 x 6 13, I .29 .33 12';- x 53:: .32 .3 .19
3.. 1.51 1.021 .72 .97 .51 . '5 2.03 1.311 .99 .89 .714 .65
2. 1.52. 1.03 .71 .99 .51 .95 2.21 1.91 .99 .23 71.23
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TMSLE V
19.1219 01‘ 90° 1111.235 27120121 '11; 2311712: 721100121. 75/71. _
18 x 8 STKJihifi‘ PnLJnJH, 3 x S 90° JBLQJCH
02159121: 211:2 0111:1021 312.1.
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1, '.99' .65 .113 .55 .31 .26 1.25 .8, .57 .97 .90 . 35
2. .97 . 3 .113 .55 .31 .25 1.25 .9 .57 .127 .211 .35
5' .96 .613 .115 .35 .30 .2 1.23 .83 .57 .97 .111 .35
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5. .95 .63 322 .35 .30 .26 1.121 .92 .56 .146 .123 .35
2. .95 .69 .213 .36 .29 .26 1.22 .91 .55 . *5 .39 ~39
7. .95 .62 .i.: .5: .2'.‘ .25 1.20 .75 55 .115 .35; .3
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9. . -" .59 .120 .31 '9 .27 - 1.11 .75 .39 .122 .35 .31
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912:2 11. .83 .53 .3; .27 212.22 531.951 .96 .65 .13 .31 .2 .23
90° 3:99:99 2. 1 " .53 .39 .27 .127. .1 90° 2109 .56 .90 .31 .29 «2‘7
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90. . ‘1 12. 1.25 .22 .60 . .5 .90 .35 90° 99209 1.56 1.05 .63 .95 -99 .92
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111. .58 .327 .129 .31 .212; .55 .112
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TRUE-3’1: DUCT V.‘»LGCITY. V1;
3 x 2 5210.11.20 111111011. 18 x 1: 909 2121111011
900 mg 90° MOE
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1. 19.62 22.71 21.2.11 25.23 25.113 25.52 20.17 22.95 211.52 15.10 25.110 25.58
2. 16.10 20.22 22.36 23. 2 23.29 23.<1 19.51; 22.51 233.93 23. 6 23-39 33- 3
. 15.7,? 19.32 31.13 3,3 16 23.52 22. 1 17.95 21.01 22.51 22. ' 22.58 28- 3
3.. 13390 13.03 19,521 20.25 21.05 21.06 16.50 19.3 21.09 30-92 21-03 20-35
5. 12.13 16.19 18.92 19 he 19,117 19.52; H.672 13.07 19.19.73 19.539 19.35 19-61
6. 2.90 15.00 16.50 17.91 17.99 12.0; 13.51 16.511 19.02 18.00 12.02 18.10
7. 7,50 13.70 15.27 10.50 16.2 16.31 11.90 15.00 16.37 16.511 16. 32 16.37
11. .231 11.02 11.311 111.26 15.10 12.22 10-67 13-5 19-96 15-15 15'0” “'91
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mag 10. 3.69 51.7.. 15.9,) 13,02 13,111 12.02 EREME 7. 15 10.67 12.02 11.79 12.20 11.9
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0 g. -1433 -13.}. ~11. “12.1 . , _ “ Ion " 9.6 -130? -1103
90 3mm 9. 1.5 42.1 — 6.0 .. 9.0 90° 23.1mm _ .138 _ 6.0 ”13.5 40.6
09.115105: 51213: 10. 3.8 .. 7.9 49.6 -16.0 031121013 5sz 15.1 .. Ll: - 9.0 42.9
8‘1“ 3‘ 6 11‘ 6'3 '12'8 ' 3'5 “m7 9 1 5% 10A: - 9.6 -11»? 41.2
12‘ 8'3 ‘10“? 41.6 “12'” 14.7 - 7.2 -11. -12.?
1 ‘ " 9‘2 “1'5 " 6'1 3.5 -11.7 - s. -123;
1 0 2'5 — 1‘3 ~ 7.7 c 8.8 u 6.8 -12.5 a 1.5
15. .1705 Q 509 10.0 2.5 1.3
16. #520 2.0 - .o
x

 

 

 

r404

 

 

 

 

 

 

 

 

330° ‘77 .220}! P33533020; Loss 03222735021) AS z-aitqo‘mzr.0:~; 01* mum: 77:100sz mean, 6 van
32201000 mm 900 202.0030; .. 10?.- x s
a. 0; 2 30.001»: 25001002 mum ‘
xiii??? 917473 “,1 v 15.} 8 x 51. 6‘:— x 6 q x 6? 0013103 $sz 7 x m. g I 5;. 3;, I 5 9 x g,
1. 07.6 172.17 39.0 l 33.6 82.8 59.2 10.5 10.1;
2.; 60.2 175.9 39.0 31.3 . 374.0 55.5 1.3.3 340.0
”J 57.1 161.5 36.8 I 30.5 33,2 57.7 Mk5 1.9.2
ii 0.2 147.3 35.1 | 30.1 90.3 57.6 66.2 33.5
5,: 62.5.! 05.0 37.1 32.8 87.7 53.0 1717.6 .6
6.: 55.2 1717.3 38.5 l 33.6 90.3 52.3 has: 12.8
7.1 24.2 37-6 316:} 7 33.1 317.3 517.? 1115’: Mg
6'. 6.1 9.3 35-) s 353-3 77.0 55. ' . -
90° 00.000 9.1 56,1. 30.6 37.0 I 32.0 90°. W“. 817.7" 50.5 172.8 30.7
021010;: 372.22 10.1 533,2 3.1 317.7 ; 35.0 111-102. gas. 72. L 1.5.? high. “15
7 X ‘47::- 11 622.2 130.6 35.0 ; 2.6 8 X 5:? 935 37.? was no.1;
7. 513-6 33.3 35-6 1 33-3 78.5 9.3 148.9 97.6
1 . 86.7 50.0 7.6 i 29.2 66.3 60.5 50.3 {0.0
1 . 80.0 32.0 1.3 38-5 85.0 60.0 55.0 ”7.5
15. 56.0 66.0
16.
1. 8); 6 .1: 52.2 01.5 117.7 69.8 51.9 1717.0
2* a“ 52-5 ‘3-3 “’4’? s. 66.5 5 .0 34.6.6
B. 90.9 63.8 5. .8 29.3 12916 65.1 5 .6 1:3.1
‘. 108.0 60.1: 0.5 133.3 122.2 2.7 55. 1.0.3
5. 108.“ 59.1: 39-9 171.9 119-? 62.1 53.0 177.2
6. 102.5. 61.0 177.6 1.13.0 121. 4 59.0 53.2 119.8
7. 97.9: 57.9 *-:-9.0 11.0.8 117.2 62.8 53.5 176.7
. ., , 8. 98.3 55.7 I: .0 03.14 112.3 66. 56.5 12.6
9° mm 9. 96.1 .7 179.8 122.1: 90° mum mm 63.6 52.2 km
0mm 5sz 10. 93.8 57-“ “9.1% 121.0 001710.32 512:: 105.3 56.6 3.2 61.7
8%; a: 6 11. 89.5 50.8 122.7 170.0 9 x 63;: 121.3 50.2 9.7 20.3
12. 80.0 61.2 12.9.5; 1.5.}; 1103 58.3 “9.2 g,1
17. 103.8 {tr .7 363.8 156-7 100.0 68.3 56.3 51.2
111. 107.5 68.3 35.3 1:50. 123.3 62.5 249.2 50.5
15. 75.0 75.0 627.0 50-0 120.0 50.0 60.0 33.0
16‘ . 37‘5 115.0 36.0 .0

 

 

 

 

 

 

 

 

 

 

 

 

 

 

89

90

the data sheet. which follow give the observed and
calculated data for the first fitting tested (18' x 8'
attaight branch, 5' x 8' 90° branch).

Orifico Calibration ¢ Sheet No. 1 - 13
- Run No. 180 . 189

Tent Run. Observed data - Sheet No. 15~ 36
- Run No. 190 - 213

Test Run, Calculated data ~ Sheet No. 57 . 603
~ Run No. 190 - 315

*‘P ”'7!- .. ‘

. ‘0' 3.4:. at '
I, A-
SLsE g? 4

P=CE925. 5'2:

0::
'i3?RU\ C"

.
’b‘rr‘
“ s
‘. .
It '
‘l
‘\
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O
..." “A
.515
.I'A
I-I~' " ...
O
O. ‘.
V.
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0... ‘h
..-7
|
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O- _'
o
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u
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II
03"?
b A‘ ‘
0‘, -

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DATA Observed RUN NO. 180 SHEET NO. 1

DATE 0/11/52

FITTING - SIZE OF STRAIGHT BRANCH: 18 X 8

SIZE OF 90 DEGREE BRANCH: 3 X 8

ORIFICE SIZE - STRAIGHT BRANCH: Blocked
90 DEGREE BRANCH: 1 x 6

TYPE OF RUN= Orifice calibration

 

___—~-————— - ——~

 

 

 

Temp»

.Tima--._——£3-P2 P4 “—1375-————-—~P6w—mwfig-w—PB—w—--43&Pv~--
15:5 .134 5.75 5.75 3.55 53 ‘78 29.04
15:58 .119 3.50 5.50 5.10

16:00 .105 2.86 2.86 2.73

16:03 .087 2.39 2.39 2.25

16:05 .065 1.76 1.76 1.66

16:07 .050 1.43 1.42 1.54

16:09 .035 .90 .99 .93

16:13 .016 .50 .50 .47 Cl 80 29.05

 

li': 5'3‘ “0;. g .l‘
* .1 _ v
3" P ~- I-
\a- .3th C: S"
E 7 F a
:!.E 3' :C I

"'2: fl:
- V.

. n

- J
P fi—;—
9“ “t:

m 9*

I‘)

O“‘
I

0“.

0..

0£;J

NRA
.‘~\V

..J

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DATA Observed

FITTING - SIZE OF STRAIGHT BRANCH: 18 X 8
SIZE OF 90 DEGREE BRANCH:

RUN NO. 19,1

SHEET NO. 3

5x8

ORIFICE SIZE - STRAIGHT BRANCH: Blocked
90 DEGREE BRANCH: 1:} x 5.3..

TYPE OF RUN: Orifice calibration

 

DATE 5-11.. 5::

N

Temp

Time—459133 -——~——-P47 , ——-~-——£5 -——-——~ ~38 ~ -———— ~33 —-—-—Dg __-_._____. Ear—‘- . ~—
15:15 .232 3.70 5.70 3.50 59 78 29.02
15:17 .210 5.35 3.55 5.03

15:20 .200 5.20 5.20 2.88

15:22 .180 2.84 2.83 2.55

15:25 .148 2.35 2.32 2.07

15:27 .115 1.80 1.80 1.60

13:30 .067 1.08 1.08 .96

15385 .045 .74 .73 .66

15:35 .034 .56 .56 .49

15:38 .020 .34 .54 .50 59 77 29.04

‘t’: M.
' w

~ “A
serve: “

I- , .
.12.. ‘5 3'
h 1 .

’I'c - . ...
| . l

m“ on a k
HOT: '7’: 5
H“ .*-- ..
'v

.H. 7‘“ '
«lb .~" “

1‘1

I .“V

q“-

.~..;7 ”Kr
.VVV

I. .

I| Q

IHJ' AI-
0y:

‘0

.u.

\I'L «...:
.v. v

I.

”5:

......

DATA Observed RUN No. 183 SHEET No. 5

FITTING - SIZE OF STRAIGHT BRANCH: 18 x 8
SIZE OF 90 DEGREE BRANCH: 5 x 8

DATE 5/11/52

ORIFICE SIZE - STRAIGHT BRANCH: Blocked
90 DEGREE BRANCH: 1.13 x 69--

TYPE OF‘ RUN: Orifice calibration

Time— —Pfia23-_-_84_—_-.~-__.P 5.-...mpa_fi_-_42’;ff 232..---.»2512.”
14:55 .572 5.55 5.65 2.98 28.00
14:59 .258 2.50 2.60 2.14

14:45 .205 2.01 2.01 1.55

14:48 .181 1.75 1.77 1.45

14:51 .152 1.50 1.49 1.2

14:54 .110 1.10 1.10 .50

14:57 .065 .525 . 525 . 507

15:00 .045 .459 .459 .55

15:05 .055 .55 .555 .270

15:05 .025 .22 .22 .180 29.02

 

 

 

 

 

DATA Observed RUN NO- 195 SHEET “0 4 DATE 2/25/52
FITTING - SIZE OF STRAIGHT BRANCH: 18 X 8

SIZE OF 90 DEGREE BRANCH: 5 X 8
ORIFICE SIZE - STRAIGHT BRANCH: 21001150

90 DEGREE BRANCH: 2 x 7
TYPE OF RUN: Orifice Calibration
Temp

me——«P—5=F 2 ~34“ ~~~P5-~——~- 195-» 5 —D5 —— — —— 418—25--
15:55 .69 5.55 5.54 2.05 82 29.21
15:40 .59 2.88 2.85 1.75
15:45 .405 1.91 1.91 1.15
15:50 .255 1.28 1.27 .70
15:55 .144 .71 .71 .45
14:00 .065 .55 .55 .20
18:05 .045 .214 .214 .125
14:10 .051 .145 .145 .085 79 29.20

...

 

'1.“

I

\‘I
\l,

DATA Observed RUN NO- 184 SHEET ”0- 5 DATE 22/28/52

FITTING - SIZE OF STRAIGHT BRANCH: 18 x 8
SIZE OF 90 DEGREE BRANCH: 5 x 8

ORIFICE SIZE - STRAIGHT BRANCH: 15 x 3
90 DEGREE BRANCH: Blggked

TYPE OF RUN: O rifice Calibration

 

Elma___P;g-HP.3WP4__1__£5 flflflflfl P 5- w_31':f3DB-___n._-...-lE‘:1r.__
11:00 2.58 2.05 2.01 2.07 81 80 29.25
11:05 2.55 1.90 1.88 1.91
11:09 1.95 1.59 1.5-5 1.81
11:12 1.85 1.55 1.50 1.54
11:15 1.51 1.08 1.08 . 1.09
11:18 1.05 .85 .81 .84
11:2 .81 .64 . 3 .84
11:25 .58 .487 .48 .475
11:55 .407 .51 .51 .514 81 81 23.25
11:59 .259 .197 .19 .20
11:45 .141 .107 .097 .107
11:48 .070 .051 .05 .052
11:55 .085 .048 .047 .049
13:00 .045 .052 .051 .055

12:05 0.28 .020 .019 .021 82 82 29.24

O.”

DATA Observed RUN NO- 185 SHEET NO- 8 DATE 2/5/52

FITTING - SIZE OF STRAIGHT BRANCH: 13 x 8
SIZE OF 90 DEGREE BRANCH: 5 x 8

oRlFlCE SIZE - STRAIGHT BRANCH: 14 x 4
90 DEGREE BRANCH: Blocked

TYPE OF RUN= Orifice Calibration

 

 

Temp
Time 355%.__._*£4--._.__:-.-1‘:5_____-1:5.--__._.__1'-;;3-__.1.. _'__-_-1.,,. 1351:,“
5:45 5.74 1.17 1.10 1.19 59 78 29.05
15:49 5.18 .990 .94 1.82
15:52 2.5 .728 .872 .745
15:57 1.54 .520 .495 .550
15:00 1.05 .515 .500 .525
15:05 .550 .180 .151 .185
18:18 .405 .115 .107 .117 80 77 29.05
18:25 .280 .072 .088 .074
15:27 .140 .058 .055 .059
18:50 .085 .015 .014 .015
16:52 .045 .010 .010 .010

18:93 .027 .005 .005 .005 59 77 29.05

 

 

 

DATA Observed RUN ”0'188 SHEET NO' 7 DATE 13/5/53
FITTING - SIZE OF STRAIGHT BRANCH: 18 x 8
SIZE OF 90 DEGREE BRANCH: 5 x 8
ORIFICE SIZE - STRAIGHT BRANCH: 15 x 5
90 DEGREE BRANCH: Blocked
TYPE OF RUN: Orifice Calibration
Temp

815....--53.p3------51--45 ———————-~Pe —-—~- ~5——n::~--——-— —- 542:5-
14:24 4.42 .600 .550 .840 61 78 29.03
14:88 4.14 .560 .499 .598
14853 3.18 .425 .577 .454
14:40 2.55 .309 .5373 .550
14845 1.65 .215 .190 .287
14:49 1.05 .155 .317 .145
14:55 .550 .070 .063 .075 59 76 33.04
15:08 .405 .049 .043 .053

15807 .248 .050 .0235 .052

15:11 .144 .016 .014 .018

15:15 .065 .006 .005 .006

1581-3 .045 .004 .008 .005

15821 .056 .001: .002 .005 60 77 29.04

 

 

Q“

..
v
'1
\‘l

.x
'l

DATA Observed RUN No.18? SHEET No. 8

FITTING - SIZE OF STRAIGHT BRANCH: 1

8 x 8
SIZE OF 90 DEGREE BRANCH: 5 x 3

ORIFICE SIZE- STRAIGHT BRANCH: 15,}; x 5.}
90 DEGREE BRANCH: Blocked

TYPE OF RUN: Orifice Calibration

DATE 2/12/52

 

 

Time_————£.32£ 2_-___,11'.4--___.MP 5~——-—-—-A— P "———uge—:DB
13:50 4.75 .395 .3238 .443 70 85
5355 4.16 .349 .788 .559
14 :00 5.18 . 26.) . 2'18 .291
1.4304 3.37 .192 .18) .215
14:08 1.64 .13 .109 .148
14814 1.05 .085 .070 .098
14318 .540 .045 .035 .049
14335 .404- .050 .013.) .055 67 84
14840 .258 .018 .014 .02
14-345 .157 .008 .007 .009
14348 .085 .003 .003 .004
14353 .045 .002 .001 .003
14356 .037 .001 R .001 85 82

 

29.24

'7.-

 

‘.

VI

DATA Observed RUN NO'lBS

FITTING - SIZE OF STRAIGHT BRANCH:

 

 

SIZE OF 90 DEGREE BRANCH: 1% i: g
ORIFICE SIZE - STRAIGHT BRANCH: 15 X 6
90 DEGREE BRANCH: 131001180.
TYPE OF RUN: Orifice Calibration
TemD
P¢~—_m—PS—*——_P6~——~Jfi}—~DB—~———Bar ——
4.86 .282 .214 .528
4.15 .244 .184 .283 02 79 8-.08
5.18 .185 .140 .214
2.58 .156 .102 .157
1.65 .038 .070 .109
1.03 .059 .044 .078
.550 . 33 .025 .057
.407 .03? .015 .085 62 80 $8.98
.347 .013 .009 .015
.145 .007 .005 .008
.060 .005 .003 .003
.043 .001 .001 .000
.056 o - - 62 80 88.99

 

SHEET NO. 9

DATE 1/ 229/51

 

 

DATA Observed Ru” ”0- 189

FITTING - SIZE OF STRAIGHT BRANCH: 1;; x 8
SIZE OF 90 DEGREE BRANCH:

ORIF’ICE SIZE - STRAIGHT BRANCH: 1Q}; x 5:;
90 DEGREE BRANCH: [.15 cked ”

TYPE OF' RUN:

Orifice Calibration

SHEET NO. 10

5x8

via

 

 

 

Temp

T1BB-~~~P 5.? g~——-—-P4—-—————P 5————-«--— P 3—-———-———¥:‘3 -———DB———-« -—-- Ear. —~-
13225 5.08 .212 .144: .2357 65 8-5 29.35
13153 4.13 .175 .119 .212

1.3840 5.18 .154 .004 .101

13845 2.38 .100 .007 .123

13849 1.02 .067 .045 .08.;

13355 1.05 .042 .0238 .0338

13858 “350 .083 .015 .0237 65 85 20.55
14804 .410 .017 .010 .019

148.08 .255 .009 .006 .012

14812 .143 .005 .003 .008

14816 .000 .003 .001 .00}.

14320 .043 .001 ~ .001

14236 .03 ~ '- - 64: 85 29.L5
Remark" Checked duct. Joints mm tubing. for let-.128.

DATA Calculated RUN “0- lBO-lSSSHEET ”0- 11

FITTING - SIZE OF STRAIGHT BRANCH: 18 x 8

SIZE OF 90 DEGREE BRANCH:

3x8

ORIFICE SIZE - STRAIGHT BRANCH: Blocked

TYPE OF RUN: Orifice Calibration

 

 

4—32-6-

287.60
271.17
854.67
231.81
197.23
175.78
147.02

99.40

 

____.- .1;}_—x—-£;§;

 

378.51
300.38
551.40
355.41
502.53

864.42

203.56
168.74
144.90
111.11

...-.ILx» £41

90 DEGREE BRANCH: 1 x (3, 1;}; 6;», 1-},- x 6;, 2 x 7

 

 

 

470.3
406.64

358.74

#3-
Cl

.5

'7
(,u w

)

01

30'.4
260.84
200.57
188.74
147.10

119.30

605.48
500.54
404.68
808.80
200.57
163.74
138.38

DATA CalculatedRUN No.134-189 SHEET NO. 13 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 19., X 8
SIZE OF 90 DEGREE BRANCH: 5 X 8

ORIFICE SIZE- STRAIGHT BRANCH: 13, X 3, 14 x 4’ 15 x 5, 15:1}. 03;.
QOEMHSREEEN%ANC+R Blocked 18 X G, 10: X 6:

TYPE OF’ RUN= Orifice Calibration

111.5.__14_x-4__15 1.5.1....1513; x. 1.11.4-6. .1194: 5...---
1857.25 1519.70 1051.71 1708.89 1726.36 1760.15
1199.10 1401.85 1599,01602.21 15 79'.3 15176. 71
1097.74 1194.39 1401.83 1401.05 140 .05 1031.05
1005.44 1000.58 1199.39 1200.32 1337. 74 1E1»..
899.73 Gr5.45 1009.73 1300.53 103 9:; 1000.50

05.45 572.05 797.57 805.43 797.57 805.45

707.2 500.15 593.06 577.55 593.86 533 .06
598.37 400.75 500.15 499.73 .07 502.90
501.35 294.13 391.59 399.19 530.53 505.35
339.91 1i37.23 299.39 29 .05 397.42 293.2%
395.30 160.74 197.23 200.5 193.53 192.5?

637084 1231.10 129074 169. 4 18208; (2.93
200.37 119.14 129.10 149.51 149.51

DATA Observed RUN No.1eo SHEET NO. 13 DATE 4/19/53

FITTING - SIZE OF STRAIGHT BRANCH: 18 X 8
SIZE OF' 90 DEGREE BRANCH: X 8

5
ORIFICE SIZE - STRAIGHT BRANCH: 15 x 5
90 DEGREE BRANCH: 1 x 3

TYPE OF' RUN: Test

 

 

 

Temp
'31 me ——————F{§np 3-~—-— “13¢“ P 5 116—— ...- 1133—1141....” _ 79 9 ...1
14:05 2.95 1.75 1.74 1.75 64 82 29.25
114110 2.54 ‘ 1.41 1.41 1.51
11115 1.59 .953 .913 .915
14420 1.04 .615 .r13 .rcz
14424 .586 .35. .555 .:c'
14150 .402 .230 .226 .923 (4 21 29.21
14:34 .258 .145 .141 .140
1415 '.141 .077 ‘ .07; .074
.14340 .066 .035 .054. .034‘
14:45 .050 .025 .-25 '.035

14847 .055 .016 .016 .016 63 81 29.25

DATA Observed RUN No. 191 SHEET NO. 14 DATE 4/19/53

FITTING - SIZE OF STRAIGHT BRANCH: 1;; x 3
SIZE OF 90 DEGREE BRANCH: r: x Q

U

 

 

 

 

 

 

 

ORIFICE SIZE - STRAIGHT BRANCH: 14 x 4
90 DEGREE BRANCH: 1 x 6
TYPE OF' RUN: Test,
Temp

T1Ine—————P5-P-g— 94 535——D6_—£J§3 1.33 ~B‘er1——
15:10 5.55 .077 .055 .555 55 50 25.25
15:15 5.10 .795 .700 .700
:15:20 2.52 .575 .550 1.550

5:24 1.55 .410 .40 .414
15.57 1.04 .2:1 .555 .535
15:51 .500 .1:5 .150 .145 04 01 20.5:
15:55 .405 .005 .005 .005

15:40 .255 .050 .050 .050

15:44 .145 .055 .051 .055

15:47 .005 .015 .015 .015

15:51 .050 .011 .010 .011

15:55 .040 .000 .000 .010 05 00 20.55

Remarks: Checked. manorueters for zero and level.

DATA Observed RUN NO. 192. SHEET NO. 15

95'.)

DATE 4/15 :0

 

 

 

FITTING - SIZE OF STRAIGHT BRANCH: 13 X 8
SIZE OF 90 DEGREE BRANCH: 3,. x a
ORIFICE SIZE - STRAIGHT BRANCH: 15 X 5
90 DEGREE BRANCH: 1 X 6
TYPE OF RUN: Test.
Temp
Wgzflg ....___ “32¢—__1‘5-_W1761_.-_LZR___DE____- - _EL.R.I!--_
10:55 4.30 .520 .40= .EC” Eu 80 20.37
10:56 4.14 .480 .445 .510
11:00 3.16 .300 .540 .500
11:03 2.36 .272 .250 .530
11:08 1.83 .100 .175 .800
11:00 1.04 .120 .110 .130
11:15 .508 . 85 .060 .070 63 00 20.38
11:17 .400 .045 .000 .046
11:21 .250 .028 .025 .050
11:84 .145 .014 .013 .015
11:27 .089 .007 .005 .009
11:30 .048 .005 .005 .005
11:55 .027 .003 .001 .002 62 78 23.33

DATA Observed RUN No. 193 SHEET No.

FITTING - SIZE OF STRAIGHT BRANCH: 18 X
SIZE OF 90 DEGREE BRANCH: 5 x

ORIFICE SIZE - STRAIGHT BRANCH: 15.1.: x 5;;
90 DEGREE BRANCH: 1' x 5

TYPE OF RUN: Test.

10 DATE 4/19/92

8
8

 

Test

1119,; gin—.493 1‘4 P5 P6 1173 DB ”Fr-
09:50 4.00 .300 .52: .405 9* 79 99.40
09:56 4.14 .005 .270 .345

09:40 3.19 .255 .210 .205

09:44 2.35 .170 .150 .195

09:47 1.0 .190 .105 .152

09:51 1.05 .079 .009 .099

09:55 .590 .049 .050 .047

10:00 .402 .030 .025 .053 (1 70 29.39
10:05 .253 .020 .016 .090

10:07 .147 .010 .010 .011

.10:11 .006 :005 .005 .000

10:14 .049 .003 .005 .004
113:19 .05 .001 .001 . 03 0‘ 90 29.38

DATA Observed RUN NO. 194 SHEET NO. 17 DATE 4/17/52

FITTING - SIZE OF STRAIGHT BRANCH: 19 x 8
SIZE OF 90 DEGREE BRANCH: ,3 x 8

 

 

 

ORIFICE SIZE - STRAIGHT BRANCH: If; X {3
90 DEGREE BRANCH: 1 X 6
TYPE OF RUN: Test.
Te'flo

Mm—EgnPgVS—ik-.—I—5 Jig—Ag “n ”tr.
15:08 5.04 .L .210 .31.”) 5“ 76 23.35
15:08 4.14 .210 .170 .250

15:13 5.08 .170 .140 .000

15:15 2.38 .100 .100 .140

15:18 1.623 .085 .070 .100

15:21 1.02 .050 .045 .060

15:25 .570 .050 .0235 .035

15:30 .405 .020 .015 .025 60 80 29.57
15:54 .231 .010 .010 .015

15:57 .145 .013 .CI"3 .010
15:40 0’ ’ .009. .003 .035

15:45 .035 .001 .009 .001 60 79 29.56

DATAobgepved RUN No. 195 SHEET No. 18 DATE 4/17/53

FITTING - SIZE OF STRAIGHT BRANCH: 19, x 8
SIZE OF 90 DEGREE BRANCH: 5 x 3

ORIFICE SIZE - STRAIGHT BRANCH: 1:33,. at 6%;
90 DEGREE BRANCH: 1 Ax 5

TYPE OF RUN: Test.

Wye—4k—JJ5—pa—hgflgg Hfrfigg—
15:23 5.15 .105 .145 .245 50 78 29.53
15:50 4.14 _ .100 .120 .200

15:53 5.18 .120 .00 .100

15:41 2.34 .09 .002 .110

15:45 1.61 .005 .045 .075

13:49 1.05 .040 .050 .050

13:55 .500 . 20 .015 .025 58 77 29.26
13:58 .405 .015 .010 .020

14:02 .252 .010 .005 .010

14:05 ..140 .005 .005 .005

14:09 .060 .001 .001 .001
14:14 .030 .0005 - -' 50 72 20.50

Remarks: Checked zero and releveled nanometers.

DATA Observed RUN NO. 1% SHEET NO. 19 DATE 4/26/53

FITTING - SIZE OF' STRAIGHT BRANCH: 1;: X 8
SIZE OF 90 DEGREE BRANCH: 3 X g

ORIFICE SIZE- STRAIGHT BRANCH: 15 x 5
90 DEGREE BRANCH: 1.3“ \ 53.

TYPE OF RUN: Test

 

W_$E_5_J._.:fl.m -55..
15:00 5.055 1.55 1.55 1.55 55.5 85 20.27
16:05 2.555 1.271 1.575 1.20

15:10 1.55 .5‘0 .500 .510

15:15 1.055 .550 .550 .515

15:20 .579 .250 ..55 .575

15:25 .400 .159 .100 .155 60 85 29.20
15:50 .255 .125 .125 .114

15:55 .142 .0575 .0575 .0030

1€n4o .055 .050 .050 .0575

1Eh45 . 59 .017 .017 .015

113:4? .020 .009 .009 .000 50 85 20.24

DATA Observed RUN NO. 197 SHEET NO. 20 DATE 4/26/53
FITTING - SIZE OF STRAIGHT BRANCH: 18

x 9
SIZE OF 90 DEGREE BRANCH: 5 X 8

 

ORIFICE SIZE - STRAIGHT BRANCH: 14 X 4
90 DEGREE BRANCH: Ii 3 {33‘
TYPE OF RUN: Test.

T5710
TW—EflHt-4fi-nfig—lgi Jig—V 43—5111.—
15:00 4.0: .950 .020 .019 50 05 22.20
15:05 5.15 .750 .720 .713
15:10 2.25 .540 .540 .552
15:15 1.52 .274 .5:- .550
15:20 1.05 .2 .275 .225
15:25 .580 .1205 .1245 .1":0 50 84 20.28
15:00 .400 .005 .024 .522r
15:55 .255 .055 .0515 .050

15:59 .143 .030 .029 .053“

15:42 .005 .012 .0115 .0115

15:44 .042 .0075 .007 .027

15:48 .021 .0055 .005 .005 52 84 29.25

 

DATA Obaerved RUN No. 198 SHEET No. 21 DATE 4/28/52
FITTING - SIZE OF STRAIGHT BRANCH: 18 x 3

SIZE OF 90 DEGREE BRANCH: 5 x 8
ORIFICE SIZE- STRAIGHT BRANCH: 15 x 5

90 DEGREE BRANCH: 1; x 5.};
TYPE OF RUN: Test
“55:19

Tim—affiz—Er—Lb—Ea—» 2.. p...
1.3845 4.65 .510 .480 .560 00 83-, 29.28
15:50 4.13 .4413 .450 .470
15:55 3.19 .53 .310 .550
14:00 2.345 .2425 .2275 .855
14:05 1.61 .165 .153 .170
14:10 1.025 .103 .007 .107
14:15 ‘ .58? .057 .055 .055
14820 .406 .009 .0075 .041 58.5 83.5 29.28
14:25 .200 .024 .023 .025
14:50 .145 .0125 .0113 .0155
14:35 .065 .00.. .01” .0“?
14:59 .041 .005 .0025 .033
14:42. .026 .0013 .0015 .002 58.5 83.5 29.28

 

DATA ngefled RUN NO. 103] SHEET NO. 83 DATE 4/26/52

FITTING - SIZE OF STRAIGHT BRANCH: 18 X 8
SIZE OF 90 DEGREE BRANCH: 5 X 8

ORIFICE SIZE - STRAIGHT BRANCH: 15} X 57‘.
90 DEGREE BRANCH: 13' X c;

TYPE OF RUN: Test.

mk—Ranfiz—B.——Rs——Pe—4:e:~ —7~ um.—
11230 4.855 .u50 .8?) .570 59 88 29.35
11‘55 4.15 .900 .2‘“ .514

11340 5.175 .012 .100 .257

11345 .35 .154 .137 .17q

11:50 1.51 .105 .000 .117

11:55 1.055 .000 .000 .075

13300 .588 .007 . Z? .041

12305 .400 .034 .031 .038 60 85 89.53
12:10 .858 .010 .0125 .016

12215 .145 .007” .007 .003

IEHBO .065 .OCIL .0025 .03?5

12:25 .040 .001 . 01 .0015

IJBIBO .029 ’.0005 .0005 .0005 60 85 29.51

Remarks: 810w res’vonee of manometer fluid,
Removed lubricant from glass stop cock opener of P6

DATA Observed RUN NO. 23;) SHEET No. 35 DATE 4/25/52

FITTING - SIZE OF STRAIGHT BRANCH: 19 x 8
SIZE OF 90 DEGREE BRANCH: g. x 8

ORIFICE SIZE- STRAIGHT BRANCH: 16 X 6
90 DEGREE BRANCH: 1%. X (‘1.

Q

TYPE OF RUN: Test.

10:55 5.05 .258 .230 .2530 59 79. 89.3
11200 4.1.3 .1023 .167? .PI’O

11:04. 3.1? .147 .122 .175

11:09 .33 .107 .089 .125

11:12 1.6.2 .073 .002 .05“?

11:16 1. 35 .048 .040 .055

11:20 .501 .027 .023 .031 57 77 29.53
11825 .400 .01-‘3 .015 .0230

11329 .2130 .012 .010 .013

1115.3 .1472 .007 .000 .037

11:57 .081 .003 .0025 .003

11140 .040 .03“ .002 .0025

11845 .031 .0053 .001 .C03 58 77 29.52

DATA Observed RUN No. 201 SHEET No. 34 DATE 4/19/52

 

 

FITTING - SIZE OF STRAIGHT BRANCH: 1:2 I 8

SIZE OF 90 DEGREE BRANCH: 5 x 8
ORIFICE SIZE - STRAIGHT BRANCH: 153.. x 6’:

90 DEGREE BRANCH: 1:; x
TYPE OF RUN: Teet
Temp

¥%me-—-Pfi”p2-—-——P4——m—*—I5 98 "L 3h ¥é¥+~—
16:05 5.09 .180 .140 .030 66 85 20.24
16:10 4.13 .150 .114 .190
16:15 5.18 .115 .090 .145
16:17 2.32 .004 ~.004- .105
16:20 1.64 .000 .045 .075
16:25 1.05 .040 .030 .043
16328 .588 .023 .016 .030 64 81 29.25
16:51 .403 . 15 .012 .019
16:54 .255 .011 .008 .012

18:57 ..145 .000 .004 .009
16:40 .053 .005 .003 .003
16I45 .044 .00? .002 .003
16346 .019 .001 .001 .001 64 81 29.25

DATA Observed RUN NO- 2302

SHEET NO.

”3
£5

FITTING - SIZE OF' STRAIGHT BRANCH: 19 X 8

SIZE OF 90 DEGREE BRANCH:

5 x

ORIFICE SIZE- STRAIGHT BRANCH: 13 x 5
90 DEGREE BRANCH: 1.; x 5:.

TYPE OF RUN: T881.

8

DATE 5/11/53

 

 

 

 

Wlisng .-_.J’4._.__-1J5 _____.Pg__l._tp-__DB____

16840

3.19
2.55
10 6‘15

1.025

0 o

" 1 "5* U1
( ‘1 (.3 =13.)
CO CH O

I

H
”a
{'1

.005
.04‘5’
'2!"

0 kN.)

.025

1.55

1.155
.770
.405
.275

.186

.1175

.007

.033

'k r..—

u
. “,‘l'

.030

.0 45

1.56

1.155
.7?3
.493
.277

.190

.11?i

.067

O 0') r“!
O‘ I,
. $2 '._

cvr.‘
O i-le

.020

.0145

1.37
1.05

‘r'fi’
(21.3L/

(Ti

f:

Temp

a»
b ‘u

0.)"

(31

(I)

7

H

C)

d5

’22

r“. (x
(38. CH;

0 m
:30
0

ID
{\3

 

 

DATA Observed RUN No. 205 SHEET No. 25 DATE 5/11/53
FITTING - SIZE OF STRAIGHT BRANCH: 18 X 8

SIZE OF 90 DEGREE BRANCH: 3 X 8
ORIFICE SIZE - STRAIGHT BRANCH: 14 X 4

90 DEGREE BRANCH: 1% x 6:5.
TYPE OF RUN: Test.
Temp

Tima____£%3231_~___2¢__v Fr Pa “3 .fiB___1_jE:r.__
15:50 4.075 .89” .890 .815 55 75 88.92
15854 5.155 .005 .“09 .538
15:57 2.330 .511 .509 .470
16201 1.615 .300 .247 .518
16:05 1.030 .324 .321 .308
16:09 .57G .125 .123 .113
16315 .407 :0?) .030 .0785
16817 .2.5 .00” .054 .OZW .56 75 88.92
16:20 .lei .OEEQ .032 .050
16:25 .003 .0165 .010 .015
163.6 .045 .0125 .0125 .0115
16:89 .025 .009 .009 .008
16333 .014 .007 .007 .0330 56 74 28.92

DATA Observed RUN No. 234 SHEET No. 27 DATE 5/11/52

FITTING - SIZE OF STRAIGHT BRANCH: 18 x 8
SIZE OF 90 DEGREE BRANCH: ,3 x 8

ORIFICE SIZE - STRAIGHT BRANCH215 x 5
90 DEGREE BRANCH: 135. x 6%-

TYPE OF RUN: Test

 

 

 

18mg
THML——J%F£%-———l%—————£5 —F0 “0 DB iklh——
14:50 4.00 .475 .450 .477 55 72 20.91
14:55 4.15 .424 .407 .422

15:00 5.16 .319 .500 .510

15:05 2.32 .251 .230 .250

15:09 1.685 .1025 .155 .1815

15:14 1.045 .105 .101 .1035

15:18 .505 .0005 .050 .0575

15:21 .405 .042‘ .040 .04 5 50 75 23.91
15:25 .255 .0200 .0205 .0770

15:28 .155 .0100 .0175 .0175

15:52 .052 .010 .010 .010

15856 .043 .000 .0075 .008

15:39 .029 .007 .0065 .007

28.92

C»!

15"3 .016 .00” .0 55 .000 55 7

DATA Observed RUN No. 305 SHEET No. 28 DATE 5/11/53

 

FITTING - SIZE OF' STRAIGHT BRANCH: 18 X 8
SIZE OF 90 DEGREE BRANCH: 5 X 8
ORIFICE SIZE - STRAIGHT BRANCH: 15". X 5%
90 DEGREE BRANCH: 13;; x 6%
TYPE OF RUN: Test.

Temp
Time_———E3=P2~_____24______1Qi____.J%&____Hfi___fl3______Bar1__-
13350 4.955 .317 .202 .345 54 70 28.90
13255 4.15 .2075 .249 .200
14800 5.15 .202 .185 .215
14:04 2.565 .152 .133 .163
14109 1.615 .105 .096 .110
14:15 1.025 .0625 .033 .0715
14816 .500 .040 .0?“ .041
14320 .408 .050 .027 .030 53 72 28.91
14325 .255 .070 .018 .020
14:29 .143 .015 .017 .015
14155 .082 .008 .0075 .038
14:57 .046 .0075 .00? .0075
14840 .029 .0085 .007 .0305
14:43 .016 .006 .0035 .003 ES 72 28.91

DATA Observaci RUN No. 205 SHEET No. 29 DATE 5/11/53

 

 

FITTING - SIZE OF STRAIGHT BRANCH: 13 x 3

SIZE OF 90 DEGREE BRANCH: 3 x 8
ORIFICE SIZE — STRAIGHT BRANCH: 15 x 6

90 DEGREE BRANCH: 1.3,. x 6%
TYPE OF RUN: Test
Team '

Mo—J.snkz_P¢—_-pfi_ _1?fi__:;fi_12§ A 3.3;.
12800 5.07 .224 .10: .2“1 53.5 67 28.91
13:05 4.15 .184 .100 .216
12:09 3.19 .145 .133 .104
12:14 .3? .103 .000 .110
12:19 1.61 .0725 .032 .0825
12:25 1.043 .048 .0435 .055
12:27 .531 .030 .0555 .0525
12:51 .410 .02 S .0180 .0253 54 69 28.90
12:55 .255 .015 .01 S .0155
12:39 .144 .010 .0095 .011
12:45 .065 .00? .005 .007
12146 .046 .008 .0055 .008
18:49 .050 .0055 .0055 .0055

12353 .016 .005 .0045 .005 54 68 28.90

DATA Observed RUN No. 207 SHEET No. :50 DATE 5/11/52

 

 

FITTING - SIZE OF STRAIGHT BRANCH: 18 x 3
SIZE OF 90 DEGREE BRANCH: 3 x 8

ORIFICE SIZE - STRAIGHT BRANCH: 161’: x (3?;-

90 DEGREE BRANCH: 133:: x 5;
TYPE OF RUN: Test.

Temfi

Tine Ps-PS P‘.i P5 F6 I r: ”B Ber.
10:55 5.15 .1?3 .134 .212 54 08 20.91
11:00 1 4.15 .132 .199 .172
11:05 5.20 .106 .004 .131
11:10 2.34 .078 .033 .008
11:15 1.635 .057 .045 .007
11:19 1.0.2:) .033 .030 .045
11:24 .590 .0215 .018 .07? E? 86 20.01
11:29 .405 .0175 .0150 .020
11:33 ..259 .0130 .010 .014
11:57 .145 .009 .0075 .009
11:41 .002 .0005 .0055 .007
11:45 .045 .0057 .035 .006
11:48 .025 .005 .005 .0035

11:51 .015 .0045 .005 .005 55 66 23.91

DATA Obeer'red RUN NO. 209 SHEET NO. 51 DATE 5/15/58

FITTING - SIZE OF STRAIGHT BRANCH: 18 X 8
SIZE OF 90 DEGREE BRANCH: 5 X 8

ORIFICE SIZE - STRAIGHT BRANCH: 1;; x 5
90 DEGREE BRANCH: 3 x 7

TYPE OF' RUN: T085

 

W4342—_1~r_55_.46_1;353_1*51r~
13:50 5.505 1.575 .300 .05 02 72 20.01
15:55 5.15 1.245 1.255 .540

15:40 2.575 .595 .915 .500

15:45 1.025 .555 .545 .421

15:50 1.05 .410 .415 .204

15:55 .550 .320 .2225 .1435

14:00 .404 .147 .150 .00: 51 73 20.01
14:05 .250 .055 .095 .053

14:12 .144 .050 .051 .053

14:17 .051 .030 .0215 .012

14:25 .045 .015 .015 .000

14:27 .035 .0115 .012 .0055

14352 .0155 .0045 .005 .0035 80 60 29.01

DATA Observed RUN No. 209 SHEET No. 52 DATE 5/15/52

 

 

FITTING - SIZE OF STRAIGHT BRANCH: 18 x 3

SIZE OF 90 DEGREE BRANCH: 5 x a
ORIFICE SIZE - STRAIGHT BRANCH: 14 x 4

90 DEGREE BRANCH: g x 7
TYPE OF RUN: Test.
Tenn

WZT—Jr—PS 26—42»? “-DB’—‘~’£ar*—
14350 4.255 .770 .775 .539 60 75 29.01
14355 4.15 .76? .7715 .5415
14359 3.18 .594 .533 .415
15803 a.‘G .433 .455 .305
15307 1.59 .2875 .f71 .200
15211 1.04 .185 .1375 .129
15815 .565 .100 .100 .067 57 71 29.01
15:20 .410 .033 .03? .C405
15324 .261 .0455 .0435 .028
15327 .148 .024 .034 .016
15151 .065 .010 .010 .0085
15835 .049 .0075 .0075 .0045
15:38 .035 .005 .005 .0035
15842 .017 .0025 .0025 .0015 58 73 29.01

DATA Observed RUN No. 310 SHEET NO. 33

FITTING - SIZE OF STRAIGHT BRANCH: 18 x 8
SIZE OF 90 DEGREE BRANCH: 5 x 3

ORIFICE SIZE - STRAIGHT BRANCH: 15 x
2

5
90 DEGREE BRANCH: x 7

TYPE OF RUN: Test.

10805 4.75 .410 .410 .525
10810 4.15 .300 .3575 .200
10815 5.155 .270 .2€0 .210
10:20 2.30 .195 .191 .15

10324 1.62 . ES .1335 .104

10:88 1.045 .088 .085 .065

10:52 .580 .0475 .0403. .055
10:50 .402 . 32 .001 .0005
10:59 .250 .000 .019 .014

10:43 .149 .011 .0105 .0075
10:40 .065 .005 .005 .0005
10:49 .040 .0075 .0025 .0015
10:52 .036 .0015 .0015 .001

10355 .016 .001 .001 .0005

DATE 5/20/53

TeTD

61 73
60.5 74
61 75

89.07

29.05

29.04

DATA Observed RUN NO.

211

SHEET NO.

34 DATE

5/20/52

 

 

FITTING - SIZE OF STRAIGHT BRANCH: 18 X 8

SIZE OF 90 DEGREE BRANCH: 5 X 8
ORIFICE SIZE - STRAIGHT BRANCH: 153.7. x 5.33.

90 DEGREE BRANCH: x 7
TYPE OF RUN: Test.
”023

Time—1252.2934m_24_-, P = I n 1‘3 Jinan.—
11:00 4.93 .270 .2615 .?55 Cl 75 20.04
11:04 4.13 .221 .218 .195
11808 5.18 .173 .166 .149
11:12 2.335 .135 .120 .105
11318 1.62 .006 .0??5 .0755
11:20 1.050 .054 .0515 .041
1 :24 .570 .0305 .030 .GQLS 62 70 29.03
11:28 .401 .023 .019 .015
11:33 .250 .0195 .0118 .010
11356 .141 .007 .OCCS .005
11:59 .062 .0025 . 325 .003
11:43 .045 .003 .00? .001
11:46 .037 .001 .001 .00
11:50 .015 .001 .0005 .000 61.5 74 29.02

DATA Observed RUN NO. 213 SHEET NO. 55 DATE 5/21/53

FITTING - SIZE OF STRAIGHT BRANCH: 1:; X 8
SIZE OF 90 DEGREE BRANCH: 3 X 8

ORIFICE SIZE- STRAIGHT BRANCH: 15 x 6
90 DEGREE BRANCH: 2 x 7

TYPE OF RUN: Test

 

m1me.___n3=231__.__247_.___25__1___10}____13;_Znfi___,_112uu__
18215 5.075 .190 .175 .182 04 80 23.25
18:18 4.07 .1755 .1015 .170

10:23 4.155 .153 .144 .149

15:27 5.175 .115 .103 .1115

15:51 2.52 .055 .0775 .050

18855 1.50 .0575 .055 .055

18:59 1.025 .1075 .034 .035 54 81 29.25
18:45 .575 .020 .0175 .0175

18:45 .404 .014 .0120 .0120

13:49 .259 .0005 .007 .007

18:50 .140 .005 .005: .0055

18:55 .0005 .002 .001 .001

18:58 .045 .001 .001 .001

19201 .027 .000 .000 .000 64 81 29.25

DATA. Observed RUthO. 215 SHEET No. 58 DATE 5/21/52

FITTING - SIZE OF STRAIGHT BRANCH: 18 X 8
SIZE OF 90 DEGREE BRANCH: 5 X 8

ORIFICE SIZE- STRAIGHT BRANCH: 16.? x 6‘3-
90 DEGREE BRANCH: 3 x 7 “

 

T500

Time————23=Pz» .E;——H——HB5——————P6————WB»w—£fir—~—-—EaP.——
19:08 5.110 .138 .1175 .145 84 81 29.25
19812 4.675 .1855 .1075 .155

19:16 4. 55 .1011 .008 .1175

19:20 5.155 .084 .073 .039

19:24 2.5”“ .OF“; .0? 5 .OCS

191?? 1.60 .0410 .030 .0435

19150 1.015 .0265 .0'5 .027

19:54 .585 .015 .0125 .015 64 81 29.25
1913. .407 .010 .0075 .010

19:41 .859 .006 .005 .006

19144 .141 .OOTE .0025 .0035

19:48 .OC3 .001 .001 .001

19:51 ..045 .001 .001 .001
19:54 .028 .001 .001 .001
19:57 ".015 .0005 .0005 .0005 04 81 29.24

DATA Calculated RUN NO- 12-30

FITTING - SIZE OF STRAIGHT BRANCH:
SIZE OF 90 DEGREE BRANCH:

ORIFICE SIZE - STRAIGHT BRANCH: 1:2:

TYPE OF RUN:

SHEET NO. 37

90 DEGREE BRANCH:

Test

1?

'.’
\
Q .1

x 5
x 6

‘33 C0

DATE

 

 

 

O

...:
(‘11)
H
.q

.001

A'.‘ C)

Wu. v

“042 {0 WM ‘4 e; a 0*0

1.717 1049.? .002 1.?v: 1170 20: 1573 14.q

1.523 1231.5 .0 5 1.47- 1030 170 19;“ 14.?

1.231 000.0 .050 .000 0: 1.. 1101 14,1

1.0; 801.: .033 .417 £00 137 817 13..
.7055 601.5 .010 .259 511 03 £0: 14.:
.0537 407.9 .01. .24: 410 70 400 14.5
.508 390.2 .003 .150 33' 53 :9 14.3
.6753 204.9 .004 .09 215 39.5 204.5 13.0
.2507 201.0 .002 .057 17- 23.5 70.3 13.3
.zgga 175.7 .0010 .0230 1:0 22.: 177.5 15.0

H
,‘O
O
1"

G...

DATA CalculatedRUN NO. 190 SHEET NO. 57.)). DATE

FITTING - SIZE OF STRAIGHT BRANCH: 18 X 8

 

 

 

 

 

SIZE OF 90 DEGREE BRANCH: 3 X 8
Eq. D. Str. Fr. ~ 12.9"
ORIFICE SIZE - STRAIGHT BRANCH: 15 x 3
9° DEGREEBRANCW 1 x 6 Act. L. Str. Fr.— 10.55'
TYPE OF RUN: Test
~m~——-- ,. -Higgé I Acced
C550 V135 W5 TF4-TI’5 P5 fiq. L05 liq. L.5
1149.5 .083 1.822 .020 .180 11.11 .78
1086.1 .038 1.478 .007 .143 4.79 “5.58
848.2 .045 .071 .000 ~ .101 .01 ~1.44
677.3 .029 .650 .000 .077 10.33 .04
515.5 .017 ‘.358 .004 .041 9.78 -.59
428.7 .011 .207 .006 .0205 30.54 9.90
543.1 .007 ..148 .005 .020 20.0 14.85
“255.9 .004 .000 .001 .0115 8.85 -l.50
175.0 .002 .038 .001
152.9 .001 .020 .0036
135.1 .001 .017 .000

“Values which follow are beyond the rPng of the friction chart.

DATA CalculatedRUN No. 190 SHEET NO. 5733 DATE

FITTING - SIZE OF STRAIGHT BRANCH:1;O. X 8
SIZE OF 90 DEGREE BRANCH: 5 x 8
En. Do 900 PT. " 50F“

 

 

 

 

ORIFICE SIZE- STRAIGHT BRANCH: 15.; x 3 get. L. 9.30 pr. .. 6.75'
90 DEGREE BRANCH: 1 x 6

TYPE OF RUN: TGBt

”— ”_ Loss # Adfied
C60 VFG TPG 1F4~.16 PG Fq. L'G Kg. L'G

109.7 .000 1.940 .JLB .(5 .51 ~6.44

175.4 .050 1.459 .0"4 .495 4.85 -1.00

143.7 .040 .961 .019 .340 5.50 ~1.16

134.2 .035 .057 .010 .310 5.23 ~3.53
16.0 .017 .347 .033 .130 '.02 .17

71.8 .011 .255 .010 .0035 10.81 4.06

57.1 .007 .147 .000 .0025 u.60 2.05
41.0 .004 .078 .003 .0346 8.07 1.02
80.9 .0018 .0356 .0014 .0100 8.45 1.08
23.8 .001 .088 .0006 .0125 4.80 -l.95

17.7 .0007 .0187 .0005

‘

1|Mir-..luea wnich follow are beyond he range of the friction chrrt.

 

 

 

 

DATA CalculatedRUN NO. 19.1 SHEET NO. 323 DATE
FITTING - SIZE OF' STRAIGHT BRANCH: 18
SIZE OF 90 DEGREE BRANCH: :5
ORIFICE SIZE - STRAIGHT BRANCH: 14 x
90 DEGREE BRANCH: 1 x
TYPE OF’ RUN: Test.
VPa-Pz 24 77_ 724 25 “a Q5+q€ ; Div.
1.558 1522.1 .125 1.10 1420 15: 15 2 5.7
1.775 1297.1 .020 .884 1270 154 140A 5.;
1.525 1155.7 .072 .647 1020 115 112: 5.6
1.277 1005.4 .05 .450 910 50 100. ".5
1.02 801.5 .032 .255 750 75 Bus 5.4
.752 507.5 .018 .151 575 55 551 ..5
.52. 502.1 .01. .109 445 45.6 450.7 2.5
.5 c 255.2 .002 .072 550 55.3 255.: 5.2
.5724 257.5 .0045 .0275 270 20 295.0 8.8
.2502 204.9 .002 .017 195 17.3 215.5 8.0
.2255 175.5 .00 2 .0 2a 29 14.6 155.0 5.0
.200 57.2 .001 .010 52 14 17: 2.0

DATA CalculatedRUN NO. 191 SHEET ”0-3913. DATE

FITTING - SIZE OF STRAIGHT BRANCH: 1:3

It 8
SIZE OF' 90 DEGREE BRANCH: 3 x

1“

CD

E136 D. 8t 0 RI". - 1?.9"
ORIFICE SIZE- STRAIGHT BRANCH: 14 x 4
9° DEGREE BRANCH= 1 x 6 Act. L. Eitr. Eru- 10.3.5!

TYPE OF RUN: Test

 

 

 

Loss Adéed

Q50 VP5 TP5 TF4:TP5 P5 Ea. L.5 K3. L.5
1410.0 .135 1.090 .020 .I85 7.55 2.:0
l~b4.4 .100 .QCO .024 .215 11.10 .81
1081.8 .073 .335 .014 .100 8.70 ~1.00
908.1 .052 .412 .003 .115 4.9; -0.00
720.3 .'53 .288 .005 .073 3.33 ~8.40
545.6 .018 .158 .0‘3 .043 6.t3 “.83
435.4 .015 .108 .00” . 35 2.1? 1.77
358.R .008 .084 .004 .0215 6."? ~3.57
“271.1 .005 . 50 .0013 .015

188.5 .003 .017 .000

161.5 .0016 .0110 .001
144.6 .001 .010 .000

‘Values which follow are beyonfi the range of the friction chart.

 

 

 

 

 

 

 

DATA CalculatedRUN NO. 19,1 SHEET NO. 533 DATE
FITTING - SIZE OF STRAIGHT BRANCH: 13 X 8
SIZE OF 90 DEGREE BRANCH: 3, x 8
En. D. 900 Pr. - 5.9"
ORIFICE SIZE- STRAIGHT BRANCH: 14 x 4 Act. L. 930 Er .. 6.75'
90 DEGREE BRANCH: 1 x 6

TYPE OF RUN: Test

22—“— - " "WM—9.13;: _ ___,_ ’ ”(Te—a—
C60 VPS TF8 TP4-TPB PG V". L‘B T“C”. L’B
151.5 .052 1.047 .085 .C"5 18.9 10.00
133.7 .040 .83 .054 .30 18.0 11.E5
114.9 .050 .810 .057 .933 18.09 9.34
95.3 .020 .434 .020 .160 16.35 9.50
75.5 .015 .278 .015 .102 14.71 7.93
57.9 L008 .155 .008 .08“ 12.31 5.50
46.7 .005 .105 .008 .044 la 64 6.89
56.4 .003 .085 .005 .0275 18.18 11.45
“26.2 .0015 .0740 .0035 .01": 18.0 9.25
16.4 .0308 .0156 .0014

14.1 .0004 .0114 .0012

12.6 .0004 .0134 -.0004

“Values which follow are beyond the rrn e of the friction chrrt.

 

 

DATA calculatedRUN No. 193 SHEET No. 39 DATE
FITTING - SIZE OF‘ STRAIGHT BRANCH:19 x 8
SIZE OF 90 DEGREE BRANCH: 3 x 8
ORIFICE SIZE - STRAIGHT BRANCH: 15 x 5
90 DEGREE BRANCH: x 6
TYPE OF RUN:
{F3:Pg Q4 774 T?4 05 Q6 15+QG i Div.
2.145 1665.6 .144 .666 1:50 116 176: 6.4
2.064 1696.6 .160 .810 1660 107 1657 6.5
1.776 1697.1 .099 .45" 1660 66 14:. 6.4
1.566 1207.0 .074 ..4. 1170 60 1260 6.4
1.276 1000.6 .061 .241 676 66.5 1040.. 6.6
1.020 801.5 . 62 .15? 770 52.6 622.6 6.4
.7666 601.5 .616 .66: 670 38.5 609.5 6.6
.6626 497.0 .016 .ore 476 60.6 535.6 6.1
.600 662.9 .006 .031 663 24.6 409.6 6.0
.6765 297.4 .0046 .0166 226 17.6 609.6 6.6
.2627 206.4 .602 .066 202 16.2 216.2 6.1
.2145 168.5 .0014 .0064 .170 10.7 180.7 5.9
.1646 129.1 .0008 .0066 162 6.1 166.1 4.4

DATA CalculatedRUN NO. 193 SHEET NO. 3ng DATE

 

 

FITTING - SIZE OF STRAIGHT BRANCH: 19 x 8
SIZE OF 90 DEGREE BRANCH: 5 x 8
3‘1. D. Star. PP. - 3.8.9“
ORIFICE SIZE - STRAIGHT BRANCH: 15 x 5
9° DEGREE BRANCH= 1 x 6 Act. L. 57.10. Pr.- 10.551
TYPE OF RUN: Tee-t
L026 Aéded

1577.6 .155 .645 .025 .550 7.59 -2.77
1494.4 .140 .595 . 95 .50 6.55 -2.02
1507.7 .107 .447 .012 .250 5.22 ~5.15
1129.6 .090 .550 .016 .175 9.14 -1.21
957.5 .055 .250 .011 . 29 9.02 -1.55
750.2 .055 .145 .007 .000 6.75 -1.60
63." .020 .090 .005 .049 .25 -4.10
466.7 .014 .054 .004 .0547 1.44 -9.91
509.5 .006 .055 .005 .0225 6.59 -1.481
”290.7 .005 .019 ~ .0005 .0150 15.24 2.99
195.5 .002 .007 .002

158.6 .0016 .0043 .0018

123.4 .00096 .002 .0019

*Values which follow are beyond the range of the friction chart.

DATA calculatedRUN No. 123,3 SHEET NO. 398 DATE

FITTING - SIZE OF STRAIGHT BRANCHzlg x 5
SIZE OF 90 DEGREE BRANCH: ,3 4 a

ORIFICE SIZE - STRAIGHT BRANCH: 15 X 5 A
90 DEGREE BRANCH: 1 X, 6

TYPE OF RUN: Test.

 

 

 

 

L093 Vléggfi

Q CC V98 T?8 TPénTPe 1; YR. L'G EC. M.A
107.5 .065 .509 .079 . 0. 5..05 51.50
105.9 .024 .554 .073 .165 41.39 $4.35
60.4 .019 .409 .051 .140 56.43 -9.Vs
77.2 .015 .50: .04: ’ .197 40.19 £5.44
63.0 .009 .909 .05: .075 49.57 55.02
51.5 .006 .156 .023 .0525 49.52 2.77
57.9 .005 .075 .010 .050 35.:5 26.59
31.5 “007 .046 .010 070 50.0 15.:5

33.8 .001 .031 .035 .0 38 50.75 50.01

12.6 .0004 .0094 -.0004

fir‘ n , .5: -" '1 r:
9 a 9 a L;\JC a: Q 00 5);): . ‘V’L‘l .12

x)

5.7 oOCIOOw .I‘\3;-\)8 000188

*VFIues which fallow are b03000 t‘

DATA CalculatedRUN No.13; SHEET No.

FITTING - SIZE OF STRAIGHT BRANCH: 1;, x
SIZE OF 90 DEGREE BRANCH: 3 x

ORIFICE SIZE- STRAIGHT BRANCH: 1;”; y
90 DEGREE BRANCH: 1 [I

I.)
.

«3“

TYPE OF RUN:

L
Tenn

VPa“?S 54 ‘T4 Tia ’0

B
8

4.3 DATE

 

2.212 1730.1 .13: .513 17:0
3.0:: 1500.1 .130 .425 1r00
1. 751.8 1433.4 .10.: . 5.1:. 14:13-73
.53: 1 $0.6 .0 a .243 1100
1.200 907.3 .010 .173 370
1.033 003.4 .03: .11‘ 7 3
..7015 500.4 .013 .023 570
Q £54 498‘ 2 a 315 gm” T. U115?
.50. 377.0 .013 .r T 41:
“.335 5.1173 95:0: .3175 Th.
.207 201.3 .JDX .GS? 'r'

i E- 1
5;: 1
4.:

7.5

 

 

 

DATA CalculatedRUN NO. 193 SHEET NO. 40A DATE
FITTING . SIZE OF STRAIGHT BRANCH: 18. x 8
SIZE OF 90 DEGREE BRANCH: :5 x 8
Egg. D. Str. Br. - 12.9
ORIFICE SIZE - STRAIGHT BRANCH: 15. x 5:;
90 DEGREE BRANCH: 1 Let. L. tetr. 1'r.- 10 {5-

TYPE OF RUN: Test.
__ M ' 1.52.79 ”ABBEY
2:50 VP5 TF5 TP4-TP5 P5 Pig. L‘S Fig. L.5
1647.7 .170 .4270 .01/.5 ..':.-5 6.30 ~4.0S
1515.9 .144 .414 .081 .31 6.77 -3.58
1530.4 .111 .3231 .014 .2740 5.F.. “1.5
1140 .8 .081 .238 .012: .1723 6.576 -3.4‘;‘J
945.5 .058 .161 .O-Cw .125 7. .1 -5.15
7C1.9 .036 .104 .088 .CP“5 9.? -.65
508.5 .0220 .003 .004 .043 9.15 ~2.1€)
475.8 .014 .039 .004 .035 11.43.. 1.08
579.5 .009 .023 .005 .021-1- 153.5 2.15
200.6 .005 .015 .000 .0145 -----

19.3.6 .002 .007 .000

167.1 .0018 .0048 .000

123.4 .001 .002

 

 

DATA CalculatedRUN No. 195 SHEET No. 403, DATE

FITTING - SIZE OF STRAIGHT BRANCHzlfz x 8
SIZE OF 90 DEGREE BRANCH: .3 >. 3
HQ. 0. 00° Er. - 5.3"
ORIFICE SIZE- STRAIGHT BRANCH: 15;: x 5% Act. L. 990 yr, .. 5,75:
90 DEGREE BRANCH: 1 x 6

TYPE OF RUN: Test

 

 

1030 A000:
(:60 T6 TPG TF‘é—T'Fe 2:6 7‘30. L’B Eq. L‘G
90.4 .010 .405 .000 .144 07.5 ' 50.75
05.2 .016 .301 .074 .120 50.75 51.00
75.0 .012 .277 .050 .097 50.79 50.04
00.0 .000 .204 .023 .077 50.65 45.00
51.9 .000 .130 .072 .055 60.58 53.05
45.5 .004 .009 .020 .059 58.97 52.22
20.9 .002 .040 .011 .020 55.00 48.25
”24.4 ‘ .001 .055 .010 .014 71.45 04.00
18.5 .0007 .0207 .0073
12.7 ' .0004 .0114 .0300
0.3 .0001 .0001 .0009
7.0 .0001 .0041 .0004
6.7 .0001 .0051 c.0011

‘Values which follow are beyonr’. the flange of the friction chart.

DATA Calculated RUN No. 194 SHEET No. 41 DATE

 

 

FITTING - SIZE OF STRAIGHT BRANCH: 18 x 8
SIZE OF 90 DEGREE BRANCH: 5 x 8
ORIFICE SIZE - STRAIGHT BRANCH: 16 x 6
90 DEGREE BRANCH: 1 x 8

TYPE OF RUN: Test.

753338 04 794 724 05 Q0 05+Q5 0 DIV-

2.245 1704.1 .159 .419 1770 55 1905 4.5

2.055 1599.1 .150 .540 1550 74 1004 4.0

1.794 1409.7 .100 .270 1400 50 1450 4.5

1.525 1190.7 .072 .10: 1070 05 1255 5.5

1.275 1000.5 .051 .150 990 40 1020 4.5

1.01 795.6 .052 .092 750 55 0:5 4.2
.755 595.5 .015 .047 500 20.0 030.0 4.2
.5505 500.1 .015 .055 474 22.5 496.5 4.5
.511 401.5 .008 .010 :05 17.5 412.5 4.2
.581 299.4 .0045 .0140 20? 14 50 .0 4.5
.2008 204.9 .002 .005 295 9.9 504.9 5.2
.1872 147.1 .001 .002 205 4.5 209.5 2.1

DATA (gt-210.1191,“ RUN No. 194 SHEET No.4“ DATE

1

 

 

 

 

 

 

1‘3: FITTING - SIZE OF STRAIGHT BRANCH: 18 x 3

1': SIZE OF 90 DEGREE BRANCH: 9 8

.. 5 x

$1: 29. D. St 0 It“. - 1:399"

.-.. ORIFICE SIZE- STRAIGHT BRANCH: 1.2; x 5 Act. 1,, my, E‘r.- 13,353!

I 90 DEGREE BRANCH: 1 x (3

‘ TYPE OF RUN: Test.

G __ -1.

3 L095 £0000

'1 ._

’1

a 1005.0 .177 .597 .051 .550 8. 0 ~2.10

: 1585.5 .145 .515 .ch .310 8.08 ~2.29

i

} 124600.; 0114' :23-C4 001": .24"; 8043 “130??

k

5 1155.5 .050 190 .012 .170 0.05 -5.55

w

.'

1 700.5 .050 .091 .001 .093 1.9: ~0.15
568.4 .020 .045 .003 .049 8.12 ~4.23
477.8 .014 .029 0004 003‘. 11.11 '7‘),
0184.6 .003 .019 -0001 .0245

 

”Values

.005
.003
.001

which follow are beyond

.010
.008
.005

the range of the fricti0n chart.

DATACalculated RUN No.194 SHEET NO. 41:3 DATE

FITTING - SIZE OF STRAIGHT BRANCH; X 8
SIZE OF 90 DEGREE BRANCH: X 8
FC- D- 900 Fr. - 5.2"
fict. Lo 90° Fr. - 8.?5'
90 DEGREE BRANCH;

H
CDC) CAO.)

ORIFICE SIZE - STRAIGHT BRANCH: 1 , X
X

W C)

TYPE OF' RUN: Tt'iEt

 

r VPG T?
81.1 .015 .525 .098 .117 73.49 78.74
.3306 0012 CECE 007‘: .....G 7800 71025

85.4 .039 .20? .001 .075 91.33 74.5?
65.4 .Q09 .14? .043 .041 174.99 $8.13

4330:.) 0005 0105 ‘13:,‘1 OOCL; 129.17 EEO/13

LK'O I
2 .9 .031 037 .01? .T 23 Q”-&( 91.91
2:13. 5 . 331 . (7M . CO?

6.9 IOO()8 0015\‘ 00024

13.5 .0004 .0104 .0341

5.1 .03005 .00195 .00097

“Values which follow FTG beyona the range of the friction chprt.

DATA Calculated RUN No. 195 SHEET NO. 43 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 15?, x 8
SIZE OF 90 DEGREE BRANCH: 5 x 8

ORIFICE SIZE - STRAIGHT BRANCH: 15;, x (3.};
90 DEGREE BRANCH: 1'); 6 ‘

TYPE OF RUN: Test.

 

 

 

 

 

{5:57-02 '34 W4 '1" 4 (5,5 30 051528 Div.
2.205 1779.8 .100 .355 1000 3 1973 3.9
2.035 1599. .130 .200 1540 CS 1705 5.8
1.783 1401.1 .000 .cla 1430 57 1477 5.9

1.53 1808.2 .075 .183 1100 48.5 1238.5 5.9

1.209 907.2 .050 .115 900 40 050 3.9
1.015 509.2 .052 .073 810 {2.3 8L..5 5.8
.7405 500.0 .017 .037 595 23.5 637.5 5.7
. 303 394.0 .013 .028 405 20 505 4.0
.502 804.1 .108 .018 560 14 374 3.7
.3748 102.5 .004 .000 294 9.0 535.9 5.5
.245 147.1 .002 .003 106 4.“ 200.3 2.1

.1872 .001 .0015 -~- ---- ----- ---

DATACElculatedRI-IN NO. 195 SHEET NO. 42.”. DATE

FITTING - SIZE OF STRAIGHT BRANCH: 18 x 8
SIZE OF 90 DEGREE BRANCH: 3 x 8
Eq. D. Str. Er. ~ 12.?"
ORIFICE SIZE- STRAIGHT BRANCH: 16::- x 6
9° DEGREE BRANCH 1 x 6 Act. L. Str. 1713- 11.1.35'

TYPE OF RUN: Test.

 

 

 

 

Lo 8 s
r. ‘21 ~ "I: .. .. . 17' I.“ r
“’50 l 5 TF5 1.1 t TL):- I‘5 ‘ “q. Lo 5 (Ag. $40.5

 

 

1710.4 .185 .528 .097 .505 6.84 ~3.51
1538.3 .148 .288 .023 .310 7.10 -5.25

0114 08‘34 .015 .244 6.15 -4020

1.4
('91
v.3
C)
0

01

...J
9...:
('11
()1
0

Cl

.058 .105 .312 .1?? 9.52 -.85

(0
{:1
5D
0

(A

‘3
C)
U)
o

01

(T1

.020 . 35 .002 .040 4.08 ~0.27

C. 3
U1
0

.014 .034 .004 .0505 10.90 .01
.009 .014 .004 .024 10.07 6.53

G?)

.45
(U
I“
O

«I (n '33

.7

.285.8 .005 .008 .001 .014 7.14 -5.21

188.1 .002 .003 .000

I" h]

144.0 .001 —~-- ----

“Values rhich follow are beyonfi the rrnge of tie frictian chart.

DATA CaloulatedRUN No. 135 SHEET NO. 43;: DATE

FITTING - SIZE OF STRAIGHT BRANCH: 1;; x 8
SIZE OF 90 DEGREE BRANCH: 3 x 8
'30. 9. 9-00 3:". - 5.2"
ORIFICE SIZE- STRAIGHT BRANCH: 1.2;. x 6%; .1. : .300 :23 _ 8.7:3'

‘* (luv J. .J.
I

90 DEGREE BRANCH: 1" 3, «3

TYPE OF RUN: ’7">~t.
4.9K:

 

 

 

' ”‘13 ...-”’3’. ' . .....J‘f‘t f ‘ NIH ' n
060 VPG TP6 xs 1.3:? I; D - P6 x_ I “O E) I -- \ 0 LI. (1

 

 

69.4 .011 .350 .000 .00? ,11.§5 4.50
60.8 .009 .203 .033 .073 11.71 4.03
'5 .6 .007 .157 .003 .050 10.09 5.20
46.9 .005 .115 .000 .040 «---- --~-
58.9 .000 .070 -.015 .0215 «-~-- --«~
51.1 .003 .00; .020 .021 0.53 2.7?

3.4 .001 .020 .011 .012 9.17 2.19
1‘? . 5 .0008 .0308 ' .0038

15.8 .0000 .0100 .0074

10.9 .0003 .0055 .0057

6.4 .0001 .0011 .0010

3.1 .00005

*Values which follow are beyond the rrnge of the friction chrrt.

DATA Calculated RUN NO- 196

SHEET NO. 45 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 19 x 8
X 8

SIZE OF 90 DEGREE BRANCH: 5

ORIFICE SIZE- STRAIGHT BRANCH: 15 X 5

9o DEGREE BRANCH: 1i“ x (7.2.

 

 

 

 

We 04 VP 4 W4 (.5 . n €54.06 .2 Div.
1.748 1575.5 .095 1.755 1145 (77 1438 18.7
1.528 1200.7 .073 1.344 lOfiO f2’ 1229 9.6
1.277 1005.4 . 51 .911 805 13? 1011 19.4
1.0175 799.0 .0L3 .ER” CC3 143 733 19.5
.761 538.0 .018 .310 483 13( 59b 18.1
.6325 497.0 .013 .212 EL 87 477 1Q.2
.505 395.; .009 .13 310 F“ 579 1Q.O
.577 P96.3 .004 .0715 235 47.5 937.5 17.5
.255 200.4 .003 .053 163 32.4 154.4 18.7
.1978 155.5 .0012 .0183 39 27.4 150.4 17.5
.1415 111.2 .0308 .0098 10: 17.2 119.2 14.4

DATA CalculatedRUN NO- 19.13

FITTING - SIZE OF STRAIGHT BRANCH: 13
SIZE OF' 90 DEGREE BRANCH: 5

ORIFICE SIZE - STRAIGHT BRANCH: 13 x :5

SHEET NO.

x 8
x 8

E9.

90 DEGREE BRANCH: 1.3.: X 3;

43}\ DATE

D. Str.
AC1... L. E“

tr.

”r
.1 x o

- 12.0”
PT." 10. 35‘

 

 

 

 

 

TYPE OF RUN: Test
— _ L030 ‘7 Aéch
Q50 VP5 TFE .14 TP, P5 39. L.5 fig, L
1110.7 .078 1.720 .02 .170 15.93 5.5.
077.4 .000 1.305 ‘ .000 . 30 6.77 ~3.0.
818.8 .040 .0 a .000 .005 9.08 -.07
051.0 .027 .577 .005 .072 0.04 «3.41
439.8 .015 .511 .005 .030 7.89 ~2.00
‘400.5 .010 .700 .005 ' .027 3.70 ~0..5
524.1 _ .007 .130 .001 .010 ~--- -—---
“244.4 .004 .0715 .000 .0100 1.00 -e.40
100.0 .0010 .0318 .0002

128.1 .001 .018

95.2 .0000 .0000

”Values

which follow are beyond the range of the friction chart.

DATA CalculatedRUN NO- 1953 SH

FITTING - SIZE OF STRAIGHT BRANCH:
SIZE OF 90 DEGREE BRANCH:

ORIFICE SIZE - STRAIGHT BRANCH: 15
90 DEGREE BRANCH: 1::

TYPE OF’ RUN: Test.

EET NO. 429 DATE

&

..x8
5 x 8
En. D. 90° Br. - 5.2"

x 5 Let. L. 90° Er. - 6.75'

 

«2

71.1 .011 .125 .036
51.8 .006 .CFC'q .0655
35.5 .005 .0378 .OOAB

16.0

C

.luee

.017

“hi-Ch f0110‘2’ RI“? 138303”:

.55 4.36 ~2.39
.586 4,03 ~l.,3
.351 5.18 -1.57
.145 8.2.1 -.54
.09: 6.45 -.30
.05: 6.80 -.15

10.05

..0166 7.83 .48

the runge of the frictisn chart.

DATA CalculatedRUN NO- 197

FITTING - SIZE OF STRAIGHT BRANCH: 18 x 8
SIZE OF 90 DEGREE BRANCH: 5 x 8

ORIFICE SIZE - STRAIGHT BRANCH: 14 x 4
90 DEGREE BRANCH: 1.; x (3;.

TYPE OF RUN: Test

 

SHEET NO. 44

DATE

 

We ...“; W4 TF4 (.5 5-6 C—S‘I'CG ff. 121v.
2.008 1577.5 .135 1.002 1400 500 1500 12.5
1.770 1555.5 .000 .550 1250 170 1420 12.5
.227 1199.9 .075 ”.521 1000 150 1210 2.4
1.275 1000.5 .051 .4?5 875 124 000 2.4
1.015 707.5 .055 .235 000 07 757 12.0
.7515 508.4 .015 .1445 510 70 520 12.1
. 525 407.0 .015 .000 4 5 57 452 11.9
.505 595.2 .000 .0505 3.5 45.5 584.5 12.0
.5755 207.5 .0045 .0545 255 52.7 255.7 11.5
.251 197.2 .002 .014 175 20.5 10 .0 10.4
.005 101.1 .0015 .0058 147 15 105 0.8
.145 115.9 .0007 .0042 112 10.5 122.5 8.4

DATA CalculatedRUN NO. 197 SHEET NO. 44;. DATE

FITTING - SIZE OF STRAIGHT BRANCH: 19. X 8
SIZE OF 90 DEGREE BRANCH: 3 X 8
Eg. D. Etr. Br. ~ 13.?"
ORIFICE SIZE- STRAIGHT BRANCH: 14 X 4 Act. L. Str. El".— 10.35!
90 DEGREE BRANCH: 131: X C

‘\
In
34

TYPE OF RUN: Test.

 

Loss A0000
”4-1135 P5 Ego L05 liq. L05

 

1380.8 .119 1.050 .023 .255 9.08 -1.53

1225.5 .004 .505 ' .015 .305 7.88 -2.47
1051.1 .059 .600 .012 . 55 7.55 -g.43

if)
.1»

878.5 .048 ‘ .416 .009 .107 8.41 -1.
639.5 .031 .259 .000 .072 .53 -2.02
528.0 .017 .1415 .003 .0525 7.08 -5.29
438.4 .012 .090 .002 ..51 6.45 ~5.90
345.4 .007 .0595 .002 .010 10.0 “.35
205.7 .004 .053 .0025 .0195 20.0 9.05
178.7 .002 .0 SE .0005

145.3 .001 .009 .0008

104.5 .0007 .003 .0005

DATA Cglcu ated RUN NO. 137 SHEET NO. 4413 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 18 x
SIZE OF 90 DEGREE BRANCH: .5 X

ORIFICE SIZE- STRAIGHT BRANCH: 14 x 4 AC‘L. L, 900 Hr, - 6,75‘
90 DEGREE BRANCH: 1% x E

TYPE OF‘ RUN: Test.

 

 

 

 

 

 

 

 

Loss. ,01ed
2C0 V26 TPn .P4-LPG PH ‘n. L.p wv. L.6
197.3 .088 1.00QF ~”HT—:13". .613 8.71 1.? A
171.6 .068 .700 .044 .49 9.17 S. 2
148.8 .C50 .500 .031 ..‘E 7.29 .54
124.0 .035 .405 .0?” .2‘0 8.41 1.71
98.1 .022 ..oJ .015 .177 8.87 ..S
72.4 .017 .l'rC .OJQ .09. 8.46 1.C7
58.8 008 .03? .00? .017 8.96 2.21
49.8 .006 .057” .00: .0.0 6.03 -.75
35.6 .005 .051 .0055 .O‘E 14.0 7.?»
“20.5 .00 .0125 .0025 .0107 23.76 16.61

15.8 .0006 .0070 .0012

9.6 .OOLB .005? .001

(

“Values which follow rre beyond the range of the friction chsrt.

DATACalculated RUN NO. 199 SHEET NO. 45 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 153 x 8
SIZE OF 90 DEGREE BRANCH: x 8

ORIFICE SIZE- STRAIGHT BRANCH: 15 x 5
90 DEGREE BRANCH: 1}, x 0-;

TYPE OF RUN: Test

 

 

 

 

' F 5" P 2 Q4 VP 4 m3 4 r 3 (94‘ ‘I‘ Q...“

2.156 1604.1 .145 .655 1020 155 1773

2.033 1507.5 .189 .571 152' 142 1€03
1.786 1403.4 .100 .43. 132 125 1445

1.5315 1205.4 .075 .5155 1120 103 1233

1.208 906.4 .050 .Plfi 950 85 023

1.0125 705.6 . 50 . 33 750 67.5 705.0
.705 601.9 .013 .075 E 0 40.5 507.5
.057 500.5 .013 .052 4:5 40 530
.510 400.7 .008 . 32 375 z 3.5 "

.581 203.4 .0045 .0170 280 21.8 504.0
.255 200.4 .003 .007 105 13.4 208.4
.2025 159.1 .0015 .0045 147 10.3 170.5
.1813 186.7 .0008 .0028 - 8.4 145.4

7.8
7.1
6.4
6.0

5.0

DATA calculatedRUN No. 138 SHEET No. 4.5;. DATE

FITTING - SIZE OF' STRAIGHT BRANCH: 1

X
SIZE OF 90 DEGREE BRANCH: X

mm

0} 0'3

1719‘. D. 8131". PI‘. - 120$?"
ORIFICE SIZE- STRAIGHT BRANCH: 15 x 5 Act. L. gtr. pr... 1.3.35:
90 DEGREE BRANCH: 1;; x '

TYPE OF RUN: Test.

Loss A0000
1‘29, L. 5

 

 

 

 

 

 

 

 

1540.4 .150 .330 .035 .330 7.59 ~8.77
146107 .155 .555 .019 .290 6.21 “4.14
1384.1 .105 .422 .016 .320 7.27 ~3.08

1102.3 .076 .3 55 .012 .107 7.19 ~5.10

9130? .052 1:05 .010 .115 8970 -1065
73‘.4 .035 . 30 .005 .077 6.49 ~5.86
552.5 .010 .070 .00: .740 6.52 «5.83

400.5 .013 .0505 .0015 .0355 4.48 ~5.87

309.4 .008 .000 .002 .0192 10.42 .07
.1 .005 .017 .000 .0135 ~~--* -*---

187.6 .002 .0005 .0005

143.6 .001 .0 $5 .0008

“values which follow are beyonfi the rrnge of the friction chart.

 

 

 

 

 

DATA CalculatedRUN NO. 198 SHEET NO. 4.53. DATE
FITTING - SIZE OF STRAIGHT BRANCH:19 x 8
SIZE OF 90 DEGREE BRANCH: 5 x 8
EC. Do 900 Br. - 5.2“
ORIFICE SIZE- STRAIGHT BRANCH: 15 x 5 mt. L. 900 Er. .. 3.75:
90 DEGREE BRANCH: 13. x (1.3.
TYPE OF RUN: Test
1053 Adfled
C: ‘m E: P -‘:\ " Tj. . I; n “:00 ‘-
<30 ”6 T 6 T 4 r6 "- c: - I- c

 

 

14-53.?

135.8

“Values which follov are beyond t

.043

4C

.599

'-‘

c‘ ,1
I

, .

a

.‘s.’

rs" -‘
. Q..k. ..

.‘
,72
. 1-: \,.I

."W

.1x6
.117
.084
.045
.037
.0135
.0054
.0032
.0031

.019
.011
.007
.005
.0035
.0016
.0011

.0007

}.

I

e

"r:
0 UL)
.OQJ
.04?

F 1
f
\—

O O
r.) .
H

range

of the friction Chrrt.

DATA calculatedRUN NO. 199 SHEET No. 4;;

FITTING - SIZE OF' STRAIGHT BRANCH: 18 x 8
SIZE OF 90 DEGREE BRANCH: 5 X 8

ORIFICE SIZE - STRAIGHT BRANCH: 152: x 57;.
90 DEGREE BRANCH: 1.3“ x {3‘

TYPE OF RUN: Test.

DATE

 

 

 

 

 

2.2035 1751.5 .113 .482 1800 125
2.050 1539.8 .130 ~ .410 520 114
1.782 1400.3 .009 .311 1330 00
1.537 1199.9 .073 .227 1130 83
1.260 997.8 .030 .155 950 89

1.027 907.0 .‘33 .101 753 84.8

.787 602. .018 .055 530 40

.6325 497.0 .015 .087 405 31.5
.508 303.8 .OCB ..83 $35 34.5
.381 2?3.4 .0045 .012 2?? 17.8
.251 197.8 .0019 .0044 105 9.5
.200 157.2 .0012 .0022 147 7.3

'2'. ~ r3
1.933 s {3
I; x

154.3

DATA Calculated RUN N0: 1‘39

SHEET NO. 43,.

DATE

FITTING - SIZE OF' STRAIGHT BRANCH: 18 X 8

TYPE OF RUN: TBS-to

SIZE OF" 90 DEGREE BRANCH:

3 x 8

ORIFICE SIZE - STRAIGHT BRANCH: 1Q}: x
90 DEGREE BRANCH: 1.; x f.

E9. D. St 0 Br. - 13.9”
5: Act. L. Str. Br.- 10.55'
.3.
«‘4

 

 

 

 

 

 

5:20 “’5 TI’5
1€10.3 .162 .457
1487.8 .158 .390
1303.3 .108 .200
1117.1 .078 .215
028.4 .054 .149
758.1 . 35 .095
562.5 .020 .0"?
465.7 .015 .034
374.1 .000 .0215
282.0 .005 .013
0
188.1 .002 .0045
149.8 .001 .002
“Values

 

 

 

which follow are beyond the

iLose Adfied
_#E?&-TP P5 Eq. L.5 _*Eq. 0:5
.025 .555 7.04 ~3.31
.020 ‘0“ 6.76 ~5.59
.015 ’2? 0.81 -5.74
.013 .1€7 7.10 -5.16
.008 .1?0 5.00 ~5.55
.003 .OQO 7.50 ~2.85
.003 .048 6.35 ~4.10
.003 .0‘43 8.70 -1.65
.0015 .0233 2.88 2.55
.000 .0149 10.14 -.21
“.0005
.0002

rynge of the friction chart.

DATACPlculated RUN NO. 199 SHEET No. 453 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 18 x 8
SIZE OF 90 DEGREE BRANCH: 5 x 8
E0. D. 90° Br. - 5.2"
ORIFICE SIZE- STRAIGHT BRANCH:15,1_. x 5.1. Act. 1.. 9.30 Er. .. 6.?5'
90 DEGREE BRANCH: 13;. x 634--

'4

TYPE OF RUN: Test.

 

 

 

 

c VPC TP‘ TP‘-TP P. be. L._ ac. L.6
' )

 

 

121.2 . 55 .405 .079 .25 51.6 84.55
112.0 .020 .542 .009 .21 55.89 EE.C5
90.0 .023 .25. .052 .175 £0.00 33.31
83.8 .015 .185 .049 .125 .5.60 20.?5
18.8 .011 .128 .0?7 .000 50.00 23.05
54.9 .007 .082 .010 .0?8 52.73 8C.01

4

40.4 .004- .045 .010 .05 *- 50.30 23.5

(.

51.5 .003 .028 .000 .0?1 42.55 50.11

25.1 .001 .017 .002”? .0145 41.59 34.03

(.3

17.1 .0007 .0097 .
9.1 .0008 .0027 .0015

7.4 .0001 .0016 .0008

“Values which follow are bcy.nd the range of the friction chart.

DATA Calculatec'iRUN NO- 800

FITTING - SIZE OF STRAIGHT BRANCH:
SIZE OF 90 DEGREE BRANCH:

ORIFICE SIZE - STRAIGHT BRANCH: 16
90 DEGREE BRANCH: 1.1.

TYPE OF RUN: Test

SHEET NO.

1

.4

G
6

.1 .‘-

N3
I

R
3x

47
8
8

DATE

 

 

 

. 200

.1701

f‘ "I
O ‘V :7.)

.051
.053
.013
.013
.008
.OOéE
.0019
.0013
.00006

34.5
27.5
8?.
18
10.3
9.4
8.4

@2 :4 V334 11> 4 :7. ‘70 213.1% v.
2.24: 1702.5 .153 .304 1070 107 1777 5.0
2.032 1500. .139 .92? 1500 97 :07 0.1
1.730 1:9s.7 .099 .220 1:90 84 1371 9.1

DATA CalculatedRUN NO. 300 SHEET NO. 47A DATE

 

 

 

 

FITTING - SIZE OF STRAIGHT BRANCH: 18 x 8
SIZE OF 90 DEGREE BRANCH: 3 x 8
13. D. Str. Er. - 12.9"
ORIFICE SIZE - STRAIGHT BRANCH: 15 x 5 Act. L. Str. LT.- 10.551
90 DEGREE BRANCH: 1.2. x 63*-
6. ‘3.
TYPE OF RUN: Test
LOSS 16090
n- f‘ _ ‘ ...-TD 0 o T: 0 0
“SC 11's Trb Tl‘4 - 5 P5 [q L 5—“; -—q——*L 5
1658.7 .171 .371 . L: .3F? {.55 *4.00
11:41:09 0137‘? 01":‘8 .03.. 0173 604’.) “3.95
940.5 .055 .117 .009 .135 7.20 ~5.15
75:.1 «xv; .075 .005 ’ .702 8.M) -4.25
300.9 .03 .043 .003 .070 4.00 “6.:5
409.7 .014 .039 .003 .035 2.38 “7.49
379.5 .009 .019 .091 .034 2.08 “8.3
283. .005 .011 000‘35 .014 2.86 -7049
W

0
105.6 .008 .0045 .0004

150.5 .001 .005 .0002
15 ~8 ~001 .003 .0090

*Vslues wnich follow are beyond the r6050 0f the friction chart.

FITTING - SIZE OF' STRAIGHT BRANCH:1

9 x 8
SIZE OF 90 DEGREE BRANCH: 5 X 8

H
ORIFICE SIZE- STRAIGHT BRANCH: 1.3 x 5 got” 1., 900 pp, - 3,75!

90 DEGREE BRANCH: 1.3;. x C

'2.

TYPE OF RUN: Test

 

 

 

 

 

 

6.8

“values

_-Loes 7 A0500
VPQ. Eififl_ fifi4-TP6 Pf3 T‘0. L:8~. 3:. 1:8
.0“5 .50: .QPQ .100 4?.(- {3.8:
.021 .251 .071 .IPE 45.05 75.7?
.016 .103 .057 .130 A..83 37.13
.012 1"? .04? .003 46.21 {7.4"
.9013 .005 .03,“ .079 3". 74 ””32;
.005 ."PO .0"? .04- b7-L’ A0.87
.000 .0”4 .“11 .0?E A4.00 $7.13
.003 .0?“ .0‘7 .9167 F1 F7 47.14
.071 .914 .00" .0109 55 L5 €G.”O

.0008 .0033 .0017
.0001 .0020 .0006

.0001 .0021 .00088

which follow sre beyonfi the rrnge of the friction chirt.

DATA cglculgtedRUN NO. 23.0 SHEET No. 4.7;; DATE

FITTING - SIZE OF' STRAIGHT BRANCH:1_r.—: x 8
SIZE OF 90 DEGREE BRANCH: 3 x 8
EC. D. 900 Yr. - 5.2”
ORIFICE SIZE- STRAIGHT BRANCH: 16 x 6 Act. L. 90° Er. ._ 3.75:
90 DEGREE BRANCH: 1% x 6}:

TYPE OF RUN: TGSt

 

 

 

 

 

 

iosB “(ICC

(Lg VPC “FEE::"” Tfié-TRC PG Eq. L.6M. 1:. L16
105.8 .025 .805 .O“3 .105 4?.(4 {9.57
07.4 .021 .251 .071 .135 43.03 TF."R
85.3 .016 .19 .057 .130 Af.85 07.13
71.8 .018 .13? .0A7 ."0" f 2 {7.4"
r0.0 .008 .095 .931 .078 59.74 32.33

34.4 .003 .“”5 .017 .0'5 A5 03 77.23
27.3 .003 .023 .000 .0IC7 53.83 47.14
21.2 .001 .014 .007 .0179 55.05 :§.30
9

14.2 9004 .{3'774 .004].

8.5 .J008 .003? .0017
6.9 .0001 .0028 .0008

6.8 .0001 .“021 .00088

“values shich follow Ere beyoné the range of the friction chgrt.

DATA Calculated RUN NO. 3:31 SHEET No.44; DATE

FITTING - SIZE OF STRAIGHT BRANCH: 1’3 X 8
SIZE OF 90 DEGREE BRANCH: 5 X 8

ORIFICE SIZE - STRAIGHT BRANCH: 13:7.
90 DEGREE BRANCH: 1;

_‘ 1..

M>¢
50¢)

TYPE OF RUN: Test

 

 

 

 

 

773.7 .159 .530 1730 07 1837 5.3

C: r., . r; I r ‘3' '1 (‘3 fl ’2 ‘H » C” ”
Q U . 17-..'O . '7.) I.) |J£J ‘J (”1‘15 1 Ll? 1"? L) Q 0

H H N
o
\‘1
C3
\. I
H
Ii!-
(J
IT" -N}
C

O O
o
O
'2
C
I 3
H
I55
{.1
.5.
1...!
L.
.Q
N}
H
1.”:

I)
'x'?
0‘:
0
IX)

.53? 1170. .072 .153 1170 {a 7:: 0.2
1.:71 10:0.0 .05 .111 9‘: :2 1040 5.3
1.01: 7.7.0 . 3? .07) 011 43.: 010.5 0.1

.7.5 5f0.0 .018 .041 L 0 c .0 (51.5 5.0

.034 413. .015 .OLS 5.3 20.« 5'3.3 4.8

.705 :0 .8 . 30 .010 0:. 21.9 450.? 4.0

.5705 207.4 .0040 .0 05 0:3 17.: 545.2 5.0

.2: 107.3 .0010 .0040 200 1'.5 503.3 3.4

.2008 104.9 .0014 .0034 2:0 10.3 200.3 4.0

.1373 100.5 .00050 .00158 105 5.0 200.0 2.9

,1; t" ~RUN NO. ”7.33.1 SHEET NO. (23‘. DATE

- SIZE OF' STRAIGHT BRANCH: 1.2 .,
SIZE OF 90 DEGREE BRANCH:

i
£

‘3 ‘1‘:
in:
I

.- "n.

I: u y... . 7~ .
{a} ...'. #1.. I“. ~

I»: .a-Ctu In 3:159 if."

.r
1.!

Iv".

I" I"
Q)
o O

SIZE - STRAIGHT BRANCH: 1,113.
90 DEGREE BRANCH: II...

A " "7.;

8.

71M

{Tl ‘\

RUN: T03t

 

 

 

.... ._.-..—-o-_a—_

 

t «a
*f.’ 0
5 a

03

it:

a:

Is:

:n
.32-
:
‘l'
07
.0
O
3
U 1
..D
U
U“
10

 

 

a 1‘? 'j o 0.: '1 o k .3 a \ 1.57:: :1 o I: :3 -4 O C

n 14:: . . r: 9I g : E 0 r2..-) 7 I If} "' 1?. £35
5 11:3 . 3.31:3 . C... 1.4 . :3 i. E; . {if i: “r . 3“.“
I (3771:; t 1 5; ‘1; . -.. I. a 1 T‘.; ’I a :I  ‘=.: ‘Z C: 6 "It in)
.95' .100 .CT3 .1}fi

fl '3‘ r“ x. !‘ .‘ A ... ‘JI. "'v“‘ ~(
.“§"~I':§J .(J' (-9: Y '11.’ Iv; '_ .-

J. 1,: . . -_, .t. -. - . - -' -
.1120. 'v :2 ‘¥ -. ‘32 .~..~. 'ztf.
‘. f .“s. ‘ ‘ = at. J

.014 .Gifl .Q?] .5333 3.33 *4.73
.350 .317 .03“ .0??? 3.00 “1.05
.035 .030 .0013 .310 10.71 .36
.302 .033 -.CT?1

f‘-:‘ 2 I." .r'\ P: 1* :7” f: ’1’ '1‘
I \J'-..-1'-._..' I! ._ L- - l ‘r‘ a. K) H“

{m7 .0017 “1.00013

..
0.}

.a

’3‘“.
\ ‘I

DATA Calculated RUN NO. 301 SHEET 010.493 DATE

FITTING - SIZE OF STRAIGHT BRANCHzlg x 8
SIZE OF 90 DEGREE BRANCH: 5 x 8
EC. D. 900 Er. ~ 5.2"
ORIFICE SIZE- STRAIGHT BRANCHzlgj}; x 0‘: Act. L. 900 Mr .. 5.75.
90 DEGREE BRANCH: 1; x611

.
‘4
4.

TYPE OF RUN: Test.

 

7 a a . 3? . r} '1
1 JO 1.: .. .r ;(...f.- c; L.

 

93.2 .019 .240 .000 .140 00.81 54.00

84.7 .018 .308 .070 .130 58.15 40.40
72.9 .012 .157 .057 .007 53.70 53.01
08.3 .009 .114 . 4? .07? 57.53 50.78
53.5 .008 .081 .050 .050 $4.55 47.00
40.7 .004 . 53 .019 .020 55.07 49.5;
30.0 .002 .020 .013 .0138 - 65.0 58.25

23.9 .001 .020 .000 50.02 52.07
10.5 .0007 .0127 .0005
14.9 .0005 .0005 .0015
6.7 .0031 .0051 .0010
6.6 .0001 .0051 .0005

5.1 .00003 .30103 .00055

“w. 1180 which follow are bejism’ the rs‘n._“0 of the frictim chart.

SHEET NO. 4g DATE

DATA 09.101115: tedRUN NO- 202

FITTING - SIZE OF STRAIGHT BRANCH: 13 x 8
SIZE OF 90 DEGREE BRANCH: g

ORIFICE SIZE - STRAIGHT BRANCH: 15 )r

2
. L!
t

 

 

 

 

90 DEGREE BRANCH: 13 x 3.
TYPE OF RUN: Test.
{pgrfig Q4 VP4 T94 05 C5 C5+56
1.786 1405.4 .1n3 .653 llfio 5:2 1449 :2.
.53 1205.4 .073 .338 953 £95 975 23.
1.2925 13fi7.8 .052 .828 735 ago 1315 22.

1.0 25
.7615
.635
.538

1

(I.

.5

O
‘1
U"
r?-
O

o
(‘0
H
I. O
{J 1

.1871
.1517

795.6
598.4
433.0

'20 K?
.../L" O {a

293.4
203.3
163.7
147.0
119.2

'3' 1
U~ I.

'7 'I'
(emu

r". " f"

H .~’ V"
1 ..' .I Q I.)
17“ P
'9’ O \1

150.8

DATA CalculgtedRUN N0-

'1‘“
QUE:

FITTING - SIZE OF' STRAIGHT BRANCH: lg}

SIZE OF 90 DEGREE BRANCH: g.
ORIFICE SIzE — STRAIGHT BRANCH: 15 x ..

90 DEGREE BRANCH: 1;, x 6"

SHEET No. 41"EA DATE

x 8
x 8

m - 12.9"

O

D.
L.

(‘J- "
Our. 1.

{1'4-
(LIT.

Ea.

ACE.

11‘.“ 1003:"

Q

)3.

 

 

Loss Aéfied
QSC VF? TPS TP4-TP5 P5 Fq. L.r fig. L.5
1084.8 .271 1.085 .017 .163 10.40 .14
927.0 .232 1.309 .019 .101 15.70 5.35
779.0 .195 .910 .010 .0?0 11.0; 1.23
615.8 .154 .514 .706 .06£ 5..G ~é.90
465.0 .118 .200 .003 .OF:S 8.7L -1.60
387.7 .097 .105 .00” .014 16.53 5.01
310.5 .079 . 335 -.005” .0137 ----- --~--
“835.6 .050 .070 .0315 .310 15.0 4.65
159.4 .090 .034“ .0004
185.4 .033 .0045 .00‘4
118.0 .030 .0230 .OWO?
93.8 .024 .0151 .20013
“Values which follou rre Lsgug’ txe rrn e of the friction chrt.

DATA nglculg:_,t,edRUN NO. {OT-3 SHEET NO. 4-532?

FITTING - SIZE OF STRAIGHT BRANCH: 18
SIZE OF 90 DEGREE BRANCH: {5

NM
CD

 

 

In. D. 900 “r - 5.
ORIFICE SIZE- STRAIGHT BRANCH: 1:: x 5 ct. L. $700 i‘ir. - 6.73'
90 DEGREE BRANCH: 1; x 5};-
TYPE OF RUN: Test.
I ”” ‘——- LOSS {6586
r 4;;2 N's: .. 9;? 3 T ’7 . . En.
cc VPa "e 1*4. '11; ’6 C L 6 L

 

318.8
273.4
828.8
173.8
133.4
111.3

87.1

65.8

(D

40.

.119
.03?
.0315
.025
.010

.0135

.053
.004
.0235
.020
.01?
.011

- Q OCO 7

.0055
.0035
.0019
.0021

.00173

 

 

.770
.054?
.0235
.013

.0125

.714
10.14
8 . 07;"
11.05

13.94

'2 '3
" {J o L.- .

'1‘

0L)-
1 '2’

.‘l'
408‘}

7.03

 

 

 

 

 

DATA Calculated RUN No. 30': SHEET No. so DATE
FITTING - SIZE OF STRAIGHT BRANCH: 18 x 3
SIZE OF 90 DEGREE BRANCH: 5 x c;
ORIFICE SIZE - STRAIGHT BRANCH: 14 x 4
90 DEGREE BRANCH: 1}: x 82;;
TYPE OF RUN: Test
4P 5-132 r14 W}; "'1‘ 4 (:5 CE; r‘sswfi “3 Div.
8.0195 506.1 .557 1.013 360 353 1613 15.8
1.776 595.5 .315 .7“? 1200 220 1420 5.1
.50? 199.1 .270 .584 1030 19 1217 15.4
1.271 903.7 .EJE .401 830 154 1004 15.5
1.015 707.8 .170 .25” 875 121 706 15.2
.7605 597.8 .154 .143 512 99 601 14.8
.658 501.5 .115 .00? 425 74.4 470.4 14.3
.505 39o.2 .099 .065 345 58 405 14.4
ou7uu 278.3 .007 .057 276 45 813 14.2
.251 107.? .044 .0184 20c 51.8 334.8 13.5
.813 183.6 . 37 .0 30 184 87.5 911.5 15.0
.1581 134.8 .013.q .0303 18? 83.8 185.8 13.3
.1184 $5. .031 .00744 14? 20.4 169.4 2.1

DATA CalculatedRUN NO- 305

FITTING - SIZE OF STRAIGHT BRANCH:
SIZE OF' 90 DEGREE BRANCH:

ORIFICE SIZE - STRAIGHT BRANCH: 14 x 4

TYPE OF RUN:

SHEET NO. 5ng

19x8
5x8”

90 DEGREE BRANCH: 1}, x 6.3:

Test

DATE

 

 

 

 

LOSS Adfied

CBC VP5 TF5 ”Pg-7P5 P Sq. L.5 kg. L.5
1558.7 .113 .003 .01? .242 7.50 -?.85
1170.2 .087 .770 .018 .13? 8.60 -1.75
1014.4 .065 .074 .010 .140 7.14 -C.81
840.9 .043 .302 .030 .10 9.00 -1.FV

H
‘3

:5: O
c
('3

H H
C) ID
:1)
o

«I (0 (.3

(D
H
.

“Vzluea

my;

Hot

.001
.0007
.0004

.250
.139
.096

.003

p?)

"A;
OK’UO

r.

70

J}-

.0
.0001

.00004

(‘0 ’f‘
. V. kw

.040

8.00

10.0

Iich follow are beyond the range of the

“1.73

frictlfin chnrt.

DATA calculatedRUN NO. 303 SHEET NO. 503 DATE

FITTING - SIZE OF STRAIGHT BRANCHzlg X 8
SIZE OF 90 DEGREE BRANCH: '2 X 8

Q.)
TVIC. Do 900 PP. - 502:”
ORIFICE SIZE- STRAIGHT BRANCH: 14 X 4 .Aét. I... 900 El". _ 6.75.
90 DEGREE BRANCH: 1;. X 61.

TYPE OF RUN: Test

 

 

”—_. ~__.._.

L058 16660

 

 

 

“60 We; 7'26 7144- 726 26 1:5 . L. €;_-___:‘__¢;__I_‘_‘_ 6
247.4 .122 . -5 .05' .04 6.05 -.50
216.5 .105 .741 .011 .7. 5.02 .24
124.7 .077 .547 .027 .55 5.75 -.02

52. .052 .070 .021 .37 7.05 .20
121.2 . 55 .225 .021 .250 0... 1.65

88.4 .014 .13 .01 .140 0.21 2.5

74.7 .015 .0015 ' .0075 _ .10: 7.35 .63

56.9 .007 .055 .007 .002 11.11 4.50

2.4 .004 .034 .005 .020 0.55 1.52

26.6 .002 .017 .0014 .0105 2.45 1.62

h21.7 .001 .0125 .0014 .0115 12.07 5.52

15.3 .0005 .0085 .0015

11.5 .0005 .0000 .00004

”Values which follow rre b03000 the 10052 of the friction chart.

DATA calculmedRUN No. 204 SHEET NO. 51 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 18 x 8
SIZE OF 90 DEGREE BRANCH: 3 x 8

U}

1

ORIFICE SIZE - STRAIGHT BRANCH: 1
1

x 5
90 DEGREE BRANCH: x (3.;

q
:5
ho

TYPE OF RUN: Test.

 

 

2.158 103?.7 .146 .721 1580 151 1771
2.05? 1630.6 .150 .5:4 SFO 177 1577
1.778 1507.1 .039 .41? 1500 158 1405
1.525 1106.? .073 .505 1090 130 1320

1.275 1001.2 .051 .2125 010 102 1015

1. 325 803.5 .005 .15? 7é0 90 PP?
.7315 500.5 .01? .0700 55? CS F1”
.CCUS 500.1 .0 5 .0535 47? E? 5’0
.535 30'».Q 00° . So 59* 18 :41
.894 810.0 .O'S .0?’0 300 30.. USA.
.249 105. .00? .017 205 ?5.5 83°.

7
.2075 122.2 .0014 .0004 234 22.2 256.
.1705 155.2 .0002 .0070 225 21.5 244.

0" ’1 A \f‘. .-« 3". 3: \A r‘ r A ,2 {-1 ,a) (3,".
0150‘: $.7st 5 QOULIQ .CJC“.¢5 13's.“; 113.0 Luz- '2.

10.0
10.4
0.4
8.8

DATA CalculatedRUN NO. 204 SHEET NO. 51.53. DATE

 

 

 

 

 

 

FITTING - SIZE OF STRAIGHT BRANCH: 18 x 8
SIZE OF 90 DEGREE BRANCH: 5 X 8
EH. Do 53?. Bro - 1209"
ORIFICE SIZE - STRAIGHT BRANCH: 15 X 5 13.01.. L. 31.1". I‘ir.- 10.35.
90 DEGREE BRANCH: 1;. x 6;.
TYPE OF RUN: TGSt
Loss Afifed
C 2' T? -Tp p o o E o o
450 VP5 7115 .12 5 ps 3 L 5_ 3 L 5
1512.6 .143 .589 o 83 031 7.10 -5085
1430.9 0128 .555 .019 0275 6.9 -5044
1250.4 .003 .404 .014 .21 6.67 “5.68
1068.6 .071 .801 .C 8 .154 7.79 “"056
05.7 .050 .2 5 .0095 .113 7.50 “2.78
719.8 .033 . 35 .005 .075 6.67 “5.08
550.5 .018 .074 .0233 .043 5.91 -4.54
450.1 .015 .053 .0035 . 525 7.69 -d.GC
355.5 .038 .0345 .0015 .021 7.14 “5.31
280.5 .005 .0325 .0005 .0157 5.85 -G.70

178.5 .00? .012 .000
148.4 .001 .0095 .0009
122.3 .001 .0075 .0004

90.6 .0005 .008 .0005

“vanes which follow are beyond the range of the friction chart.

SHEET No. R112 DATE

v

DATA Calculated RUN N0. 804

FITTING - SIZE OF STRAIGHT BRANCH: 13 X 8
SIZE OF 90 DEGREE BRANCH: 3.) X 8

ORIFICE SIZE - STRAIGHT BRANCH: 15 x 5
9o DEGREE BRANCH: 1;... x 52.

 

 

 

 

TYPE OF RUN: Test ' "
Loss Added
'3 rm‘ T) - '1. 37‘ J. E q
185.1 .076 .553 .03? .580 3.85 6.08
169.7 .065 .487 .087 .4235. 15.40 Sofa)

Llue

.039
.003
.004
.003
.0007
.0005
.0005

~- 1
V: L11 Cl].

follow

.0005

are be and

.365
.990
.197

rm f)
D v<l K .3

T .7- T1 3

14.25
13.71
14.03
18.13
13.00
14.4?

18.219

O~J

Of the frictiaa chrrt.

DATA CPICU].8.I.B€BUN NO. 335 SHEET NO. 5 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 18
SIZE OF 90 DEGREE BRANCH: :5

ORIFICE SIZE - STRAIGHT BRANCH:15.;; x 5-
90 DEGREE BRANCH: 1.3:- x (

TYPE OF RUN: Tent

 

 

We 74 . W4, 7’94 75 7e 75*6

 

2.238 1749.1 .155 .472 183 1:: 151;
2.036 599.8 . 3 .3975 1510 143 1356

1.770 1305.5 .099 .331 300 123 1425
1.539 1208.5 .074 .293 1120 CB 1

1.271 998.7 .051 . SC 930 99 1010
1.0125 735.6 . 52 .1305 755 71 873

0748 58708 .017 .057 599 53 343

.639 502.1 .015 .043 515 45.3 500.3
0505 596.8 0008 00:8 483 3605 453.5
'7

.0795 907.4 .004; .0175 333 20.3 392.3

0
m
.9
Q
...:
(O
( fl
0
.0
O
O
O
J
O
O
'7."
L}
(0
.1
(fl
2“ 7
I J
O
C.)
(A
H
“\7
O
{D

r- , ... , n . . .r .-, n -\ »- \
.Cl‘i'D 188. 5 003314 oU'J-Qg 88:: 2:3. :5.- £34..“L o E
-1705 135.8 .0003 .0074 270 $0.5 233.5

1" a _
14...: c d or. rm Us: ",1":- 1.’ ,. h. l R
. --\.-sJ .3..“o4 .OO-’\,) .M’U'V’l,‘u £11.}... C). In) .333 .1.)

8.7
8.C
8.3
8.1
7.8

7.5

7.2
7.1
7.0

DAT-“Calculated RUN NO- 205

FITTING - SIZE OF STRAIGHT BRANCH:

SIZE OF 90 DEGREE BRANCH:

ORIFICE SIZE - STRAIGHT BRANCH: 15;},- X

TYPE OF RUN:

90 DEGREE BRANCH: 19:; y

A

Test

SHEET NO.

1

CDCD

X
X

Ca: 0)

9
7L
“.

(‘73 U‘.

'1
.4

l1 ‘3 L‘-
‘..H J.

DATE

£9, E.
)7. C t o

L.

Str.
Str.

Br.

Br.“ 10

 

! a?

 

1595.4
1459.0
1272.7
1108.2

911.8

707.8

“Values

.052 .148 .008
.035 .095 .0055
.018 .054 .000
.015 .040 .00:
.008 .020 .003

.0015
o 001

.0005

.017
.0095
.0005
.007

.008

which follow are beynnd the

.0330

7“ 1’1!"
. {J-‘uE?

.0133

6.00
7.14
0.67
8.93
9.0

5.73

L088 hfifiefl
C V135 TPS TF4- T135 P5 7&1. L. 5 Fig. L. 5
.158 .450 .02: .349 6.30 '4.*5
.153 .331 .C 55 .33 5.81 ‘4.54
.101 .386 .015 .216 6.94 ”3.41
.073 .314 .01“ .1u5 7.37 ”5.08

— 13.9"

F'P"

1\.

O t: ...."

range of the friction chart.

DATA Calculated RUN NO. SHEET NO.

(I!
\J

205

FITTING - SIZE OF STRAIGHT BRANCHzlg x 8
SIZE OF 90 DEGREE BRANCH: 3 x 8

0‘}?

DATE

00. D. 00° Pr. 5.2"
ORIFICE SIZE- STRAIGHT BRANCH: 15;. x 53;. Act. L. 900 £31., - 6.75'

90 DEGREE BRANCH: 15,; x C”;

L

TYPE OF RUN: Test.

 

 

 

Adfied

xq. L.5

 

...-a
)P

U

o

.D 'Q
.

O O '

0P-

0‘

o

r p

'3

C, I

O

f?

"\f

U'

.

f 1

U«

.0004 .0084
'.0003 .0070
.0003 .0007

.0001

“Values which

follow are beyond the rrnue o-

the frictinu

11.25;}
11.91
15.25

\f‘
a t r.

0.11..»
14.75
14.45
17.10
19.53
21.42

13.4-2-

chart.

DATA CalculatedRUN NO- 808

FITTING - SIZE OF STRAIGHT BRANCH:
SIZE OF 90 DEGREE BRANCH:

ORIFICE SIZE - STRAIGHT BRANCH: 13
90 DEGREE BRANCH: 1.3;.

TYPE OF RUN: Test

SHEET NO.

1

6
F

8x8
5x8

,4

_.
,I r
“'

\l

55

DATE

 

 

 

 

 

2.258 1737.6 .153 .59L
3.05: 1597.5 . 29 .3 3
O7QC' 13.03. .100 03"}:

.075 .176
.050

.0025 807.5 . 33 .081
. C8 “78.8 .018 .048
.040 502.0 .013 .0345
.505 300.9 .008 .03?
.370 897.u .0045 .0145
.855 200.4 .003 .000
.2145 168.0 .0014 .0074

.0055

,I‘ 1771\70

 

 

1307.6
1001.5

53$

3.25. 6
399.8

7.7
7.6
7.8
7.7
7.6
7.5
7.2

7.3

‘0‘..-

03
CO

6.2
8.0

5.7
5.9

DATA CalculatedRUN No. 305 SHEET NO. 53-». DATE

 

 

 

 

 

 

 

FITTING - SIZE OF STRAIGHT BRANCH: 11: x 3
SIZE OF 90 DEGREE BRANCH: I 3 x 8
E9. D. Str. Pr. - 18.9”
ORIFICE SIZE- STRAIGHT BRANCH: 15 x. 5 mg. L. gtr. Bra- 19.35.
90 DEGREE BRANCH: 13;. x763:-
TYPE OF RUN: Test

Loss Added
K 3 ‘ ‘ -m ' 2: Q J. E: g ‘
1478.1 . 36 .208 .017 .205 5.70 -4.59

1205.9 .104 .287 .010 .230 7.08 ~5.27
0

1107.5 .077 .187 . ‘3 .170 5.29 “5.00
931.4 . 53 .115 .0075 .110 .47 “3.58
745.2 .035 .0775 .0055 .079 .4. *5.98

7? '5.0o

O
1“
01
I
C»:
O
H
C)

406.2 .014 . 32 .0025 .0345

O
O
C)
o
‘1
H

6
4
555.7 .010 .044: .0055 .048 7.1:
7
300.4 .008 .0205 .0035 .0028 11

7

U
8
Ca
0
O
0

.277.3 .005 .0135 .0010 .0130
188.0 .002 .008 .001

158.4 .0016 .0071 .0005

128.5 .001 .COCS -.00001

95.5 .0005 .005 -.0005

”Values which follow are beyond the range of the friction chart.

305 SHEET NO. {gage DATE

DATAC:‘;lCLllE.tetiRUN N0-
FITTING - SIZE OF STRAIGHT BRANCHzlfi x 8
SIZE OF 90 DEGREE BRANCH: 3 x 8

Eq. D. 90° Er. 5.2"

 

 

 

 

 

ORIFICE SIZE- STRAIGHT BRANCH: 1:5 x :3 Act. L. 900 321a. . {3.75.
maDEGREEBRANCH:1; xۤ.
TYPE OF’ RUN: Twat.
Lose Added
" T") '7‘»? “‘2 .. 1.3 ) ‘ T." T . 3:1 .. 1
“60 ‘16 416 114 5-3-6 1L) 1w?- Hat) AC. 1.!ng

 

 

150.3 .042 .303 .07? .$10 25.48 13.75
121.4 . 55 .940 .007 .25 86.83 20.05

109.5 .027 .191 .088 .21 £4.78 19.01
02.4 .019 .139 .03? .14‘ 25.03 19.3%
75.9 .01. .005: .027 .105 “3.71 ..03
60.3 .008 .063 .01? .0?R ?%.47 19."”
45.1 .004 .0710 .0115 .OG'E 00.67 23.92
3?.7 .005 .0265 .00“ .0290 27.59 21.84
27.4 .002 .017: .007: .0108 55.15 28.38

.20.5 .031 .013 .003: .01 25.00 12.2:
12.4 .0004 .0074 .0013
10.1 .0002 .036: .0012

7.8 .0001 .‘050 .00980
5.9 .00008 .00508 .00042

which follow are beyond the rsnxe of the friction chart.

DATA Calculated RUN NO. 307 SHEET NO. 54 DATE

R

SIZE OF 90 DEGREE BRANCH: 5

FITTING - SIZE OF' STRAIGHT BRANCHzlg

x

x
ORIFICE SIZE - STRAIGHT BRANCH: 1133-): 61..
90 DEGREE BRANCH: ' x C

*4
my»

TYPE OF’ RUN: Test

 

 

F 3" P 2 04 VI" 4 T? 4 C): (:6 (154-9..

 

2.269 1782.9 .1€1 .599 1740 24 1884
2.036 1599.8 .150 .266 155 112 1068
1.788 1405.0 .100 .208 1355 97 1458
1.589 1301.5 .073 .151 1130 85 1275
1.2785 1004.6 .051 .108 000 (19 135-3?)

1.015 797.6 . I13? .07? 810 5‘3 8017‘:

.788 603.5 .018 .0405 83 45.5 673.5
.6565 500.1 .015 .0305 547 30.5 580.5

.509 400.0 .008 .021 495 50.5 515.5

'3! '70": '2
0 L. 1.1 k» L! . (...

1
.2121 15?.7 . 014 .0031? {55.0 19.6 579.8
.1517 119.2 .000??? .00573 3‘30 153.8 3 $3.0

.12275 98.3 .0005 .0050 367‘. 17.8 577.8

6.5
6.5
6.5

5.9

5.4

(T!
(0

sh #3
O O
‘7 10

 

SHEET No. 543 DATE

DATA Calculated RUN NO- 207
FITTING - SIZE OF STRAIGHT BRANCH: 13 x 8
SIZE OF 90 DEGREE BRANCH: 5 X 8
E , D._St . Pr. - 12.9"
16; x e; not. L. Str. Br.~ 10.55'
1:55. X 6‘

ORIFICE SIZE - STRAIGHT BRANCH:
90 DEGREE BRANCH:

TYPE OF RUN: Tent

 

'11

t
C): I
C“

(D
Q:

 

 

L03 _

C50 135 T115 W4‘TP5 P5 .uq. 14.: t: . 14.5
1035.4 .175 .307 .02? .C75 5.87 ~4.48
1492. . 39 .848 .018 .3 8.00 ~4.C5
1310.‘ .109 .132 .014 .330 6.09 -4.TC
1123.4 .079 .141 .010 .170 ' .9? ~4.47
950.5 .055 .100 .00Q .1/4 6.40 “3.90
745.8 .035 .065 .005 .0 1 5.4? -4.80
5(4.3 .020 .053 .9025 .048 5.21 -5.14

.R
g)
I.
O
c)

.014

575.4 -009 .019 .00? . ":P 8.47 -1...
284.4 .005 .0125 .0055 .014 90.0 “14.05
G
1

1 .001

'3'.)

3. .002 .0075

158.0

.0018 .0008

.0005

91.8 .0005 001,55 “.0005

”Values which follow are beyond the rynge of the friction chart.

 

 

DATA CalculatedRUN NO. 337 SHEET NC. 5,433 DATE

FITTING - SIZE OF' STRAIGHT BRANCH: 19 x 8
SIZE OF 90 DEGREE BRANCH: 3 x 8

 

 

 

 

 

 

Ea. D. 90° Pr. 5.2“
ORIFICE SIZE- STRAIGHT BRANCH: 1:31: 3: 5}. Acit. L. 9:: Dr. - (3.75:
90 DEGREE BRANCH: 1.33:- x [:3

TYPE OF RUN: Test

W _ W ‘ ”“7325“:— _"”cn“
:60 VPG :Pe TPQ-TPG P8 0?. L'C Fe. L.8

119.5 . C2 .244 .084 .:.R 54.15 “7.40

107.2 . “E .197 .050 .?C 5A.EO 37.7;
94.1 .02 .151 .053 .15: 3.,55 2?.E
78.1 .014 .110 .041 .11 57.27 CO.-L
65.: .010 .077 .071 .0” 73.75 3?.00
51.8 .006 .051 .019 .053 35.85 29.13
39.2 .005 .031 .2035 .058 26.58 19.91
51.5 .00. .023 .OORS .'225 37.7“ 31.05

“25.6 .001 .015 .000 .013: 44.1/ 57.37
16.2 .008 .0096 .004

*Values

.0003
.000?

.00008

.00005

v.‘;;iC.L|.

.0073

.0083

.00558

.0312

.0007

.00015

.000

follow 5T8 t€”Cnfi

the range of

 

 

 

 

 

 

DATACalculated RUN N0. 208 SHEET NO. 55 DATE
FITTING - SIZE OF STRAIGHT BRANCH: 19 x 8
SIZE OF 90 DEGREE BRANCH: 3 x 8
ORIFICE SIZE- STRAIGHT BRANCH: 15 x 5
90 DEGREE BRANCH: 2 x 7
TYPE OF RUN: Test.
IPs-Pz (:4 Viv-4 TF4 :5 CB (-5 ‘30 :3 Div.
1.5725 1471.4 .110 1.455 1040 /54 1454 50.4
1.775 1557.1 .055 1.544 1007 430 1430 50.1
1.541 1210.0 .074 .950 550 :00 ' 1210 27.5
1.2755 1004.5 .051 .050 710 500 1010 2:.7
1.055 '805.4 .055 .443 505 255 505 25.5
.7015 555.4 .018 .25 415 170 507 70.5
.335 409.5 .015 .100 510 100 450 50.5
.510 400.7 .005 .105 074 105 559 25.:
.570 207.8 .0045 .0545 204 70 203 27.5
.247 104.1 .003 .092 140 47.: 157. 25.
.215 107.4 .0014 .0154 127 41 55 51,4
.1873 147.1 .0011 .0155 115 55.5 147.5 55.4
.1132 01.5 .000: .0045 54 2 105 20.0

DATA Calculated RUN NO- 208

SHEET NO. 55A

DATE

 

 

 

 

FITTING - SIZE OF STRAIGHT BRANCH: _ 1: <3,
SIZE OF 90 DEGREE BRANCH: 3 x 8
Eq. D. Str. RI“. " 13.99"
ORIFICE SIZE- STRAIGHT BRANCH: 1,3 5 Act. I... gt... 1.31.... 1.3.35.
90 DEGREE BRANCH: r,-
TYPE OF RUN: T8813
77 L055 M 7 ”—7715 00:1—
C'SC V1"5 TF5 TP4"TI‘5 P5 Eq. 14.5 173C}. L.5
1034.1 . {7'3 1.456 .029 .143 30.423 10.07
976.6 .0150 1.5535 .019 .133. 14.249 3.94
850.1 .045 .931 .0053 .1023 7.84 “I..51
738.8 .031. .377 .039 .0723 13.50 2.15
539.4 .0130 .43?) .009: .049 16.5: 5.9..»
425.1 .011 .233 .0045 .0281?) 15.75 5.38
553.9 .003 .1013 .039 .0331 93.? “.33
”387.5 .005 .101 .0023 .0145 15.79 5.44
214.7 .005 .054 .0005
14.5.4 .001 .0235 “'.0005
186.8 .001 .017 “.0008
113.7 .0008 .0138 ".0003
73.0 .0003 .0055 ”.0004

which follow are beyond the rrnye of the friction

I‘J‘I‘t.

DATA CglculatedRUN NO. 2308 SHEET NO. 553 DATE

FITTING . SIZE OF’ STRAIGHT BRANCH:18 x 8
SIZE OF 90 DEGREE BRANCH: a: x 8

E0. D. 90° Pr. 5.2"
ORIFICE SIZE- STRAIGHT BRANCH: 13 x 5 Act. L. 90° Er. ._ 6.75'
90 DEGREE BRANCH: 2 X 7

TYPE OF RUN: Test

 

 

 

 

 

 

L083 “6060
rCC V96 T96 TPI-vFG Tn I0. L'B To. L'S
447.3 .450 1.030 . 3C 2.07 3.54 -3.21
4~0.5 .3"0 1.230 .100 2.u: 4.05 ~2.7O
0C0.8 .qu .8”7 .070 1.97 3.5“ -3.1€
208.4 .201 .229 .004 1.35 4.74 -0.ul
200.0 .13‘ .5”) .054 .970 8.21 - .24

115.4 .023 .009 .015 .220 0.3? -,07

48.7 .005 S .017 .005 .048 10.4? 3.67
40.8 .004 .015 .0054 . 545 9.88 5.11
34.4 .005 .0095 .0071 ..OTS 12.40 5.55

18.3 .0007 .0032 .0017

‘; '«‘ - . '5 ~ . :
'Ualues WmiCh follov are beyouv the ranbe o: the iriction outrt

DATA Calculated RUN NO- 208

FITTING - SIZE OF STRAIGHT BRANCH: 18

SIZE OF 90 DEGREE BRANCH:

ORIFICE SIZE - STRAIGHT BRANCH: 14
90 DEGREE BRANCH: 3

TYPE OF' RUN: Test.

 

3
x4
x7

SHEET No. 53

x8
x8

 

 

DATE

 

 

 

m2 04 VP4 T134. (:5 21.3 3+23 31v.
2.0027 152 .2 .153 .202 1200 545 020 21.1
2.050 522.2 .100 .20. 1270 542 1512 21.2
1.724 1401.2 .000 .023 1110 22 1407 21.1
1.550 1207.0 .074 .507 000 252 2 5 20.0
1.20 900.9 .050 .2075 700 205 025 20.2
1.010 800.7 .02r .217 020 102 22 20.7
.7515 500.5 .015 .112 453 110 570 20.0
.04 502.9‘ .013 .00: 525 NS A01 20.0
.511 401.5 .002 .0515 c 2 75 500 12.2
.:240 202.4 .0005 .0200 240 55 :05 12.0
.2547 200.1 .002 .012 120 54.2 202.5 17.0
.2214 174.0 .0015 .000 155 22.5 121.5 15.7
.1217 142.2 .001 .000 122 21 154 12.0
.1504 102.5 .0005 .005 105 15.2 122.2 15.5

 

 

 

 

 

 

DATA CalculatedRUN No. 209 SHEET NO. 56;. DATE
FITTING - SIZE OF' STRAIGHT'BRANCH: 19, x 8
SIZE OF 90 DEGREE BRANCH: 7' x 8
Eq. D. Str. Br. - 13.9"
ORIFICE SIZE- STRAIGHT BRANCH: 14 X 4 Act. L. ggtr. Er... 10.359
90 DEGREE BRANCH: 2, x 7

TYPE OF RUN: Test
**77 7 7*7 5.: 7 7 777117...
05,3 VP5 TF5 TP4-Ti‘5 P liq. 11.5 mg. L.5
1278.8 .102 .887 .01") .223 7.237 ~3.08
1280.6 .099 .8705 .0275 .215 10.47 .12
1106.0 .077 .619 .014 .187 8.58 -1.97
9534.7 .057 .495 .012 .1213. {3.5.8 «8'5
784.8 .038 .5?) .OOFE. .087 9.77 ~.58
135.0 .035 .2. £35 .3045 .0130 7.3.0 ~2.85
47.9.4 .014 .11-'1 .004» .0335 11.4.75- 1.08
402.5 .010 .019 .00: .021-’33 11.41:”: 1.10
{555.6 .007 .0505 .001 .0186 5.48 -4.89
{246.2 .004 .098 .0006 .0109 5.50 ~4.85
111-313.]. .002 .012 .000

146. 7 .001 .0085 .0005

125.4 .001 .008 .000

89.9 .0005 .003 .000
“Values which follow are beyonfi the rcnge of the friction chrrt.

DATA CalculatedRUN NO. 209 SHEET NO. 553 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 18 x 8
SIZE OF 90 DEGREE BRANCH: 5 x 8
EC. D. 900 Br. - 5'2“
ORIFICE SIZE- STRAIGHT BRANCH: 14 4 Act. L. 900 Er. .. 5.75.
7

X
90 DEGREE BRANCH: 3 X

TYPE OF RUN: Test

 

 

Loss Added
000 VPS 115 724-706 P5 55. L.6 Eq. L.6
542.0 .205 .515 .090 1.72 5.20 -1.55
559.2 .250 .5005 .9115 1.72 5.32 -1.43
"95.8 .197 .512 .071 1.32 5.55 -1.57
252.5 .145 .442 .059 .97 6.05 _ -..07
205.1 .095 .225 .0225 .07 6.54 -.41 _
155.7 .002 .191 .020 .450 5.72 -.97
118.1 .051 .092 .020 . 35 8.51 1.70
100.6 .025 .0005 .0115 .172 6.40 -.29
75.9 .015 .041 .0105 .105 10.00 5.25
56.2 . .007" .025 .0050 .00 9.55 8.58
54.0. .005 .0095 .0025 .025 10.00 ‘5.25
127.5 .002 .0025 .0025 . .0155 15.00 8.51

15.6 .0004 .0019 .0011

‘Values which follow are beyond the range of the friction chart.

.TA CalculatedRUN No. 310 SHEET NO. 57 DATE

...:

'TING - SIZE OF STRAIGHT BRANCH: 8 X 8
SIZE OF' 90 DEGREE BRANCH: 5 X 8

‘IFICE SIZE - STRAIGHT BRANCH: 15 X 5
90 DEGREE BRANCH: :3 x 7

PE OF RUN: Test

 

 

 

 

'- l
C)
H
(1'
Q
C
C
H
(1!:
O
O
I?
1;)
O
H
?J
C)
O
Y\}
I.
CI!
1""
C}
.5-
Ct}

778 1395. .091 .334 1210 210 142“

31»5 1191.2 .072 .267 1015 175 1190

."1 “8.7 .013 .345 4 4 65.5 492.5
1’“ .00.0 .008 .03Q 342 51 3”3
‘MS J"$.5 .008 .O 8 2 " 37.3 305.3
3549 803.5 .002 .007 202 21 225
3145 108.5 .0014 .0039 180 18.3 178.8

L613 28.? .0008 .0035 158 15.3 149.2

.805 99.4 .0005 .0015 123 ~--- 122

DATA CalculatedRUN NO. 2,10 SHEET NO. 57A DATE

 

 

 

 

 

 

FITTING - SIZE OF STRAIGHT BRANCH: 18 X 8
SIZE OF 90 DEGREE BRANCH: 5 x 8
Pg. ‘0. “301“. 31‘. T. 1309"
ORIFICE SIZE- STRAIGHT BRANCH: 15 x 5 ,9.” L. ‘E-ltr. 3.1.... 19.55::
90 DEGREE BRANCH: g x 7
TYPE OF‘ RUN: Test.
Loss A019d
QSC VIPs T135 T1) “TIPS P1: 11(3' ['05 FR! 1405
1457.8 .158 .542 .010 .6 7 5.52 '4.05
1505.0 .110 .4735 .0105 .551 6.57 '5.78
1013.1 .065 .355 .011 .143 7.69 -2.10
834.5 004(3 .1795 .0085 .100 6.137 -130‘)’;
687.7 .03 .115 .004 .080 5.80 -4.55
42-805 .011 .04?) 0003 DOC?(‘3 1'3014.‘ -021
546.4 .008 .037 .001 .020: .05 ~C.48
“204.0 .004 .0145 .0015 .0110 12.0L 1.65
175.7 .003 .007 .000

152.7 .001 '.0055 .0004
115.0 .0009 .0023 .000

80.7 .0005 .0015 .000

“Values which follow 3T8 beyond the

TPQgG of fhe friction chart.

DATA CalculatedRUN No.210 SHEET NO. 578 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 1 X 9
SIZE OF 90 DEGREE BRANCH: X 8

C») :1)

E0. D. 90° Hr. * 5.3"
ORIFICE SlZE- STRAIGHT BRANCH: 15 X “fact. I... {.300 3.3.1.. .. 6.75.

90 DEGREE BRANCH: 2 X

\201

TYPE OF RUNrrest

 

 

 

 

 

Loss 0" Added
(‘60 Vile TF8 [If-134“ T138 P6 RC] 0 I... 6 Ex. o Lo 6
255.2 .147 .47: .000 .000 0.79 2.05
235.0 . 2: .400 .004 .073 0.0: 0.01
200.5' .005 .300 .00: .070 0.40 2.05
175.1 .075 .?1“ .040 .490 9.50 5.05

1

115.7 '.050 .005 .024 .25 10.43 5.00
'5.8 .010 V .05 .0145 .128 11.53 4.50

00.7 .011 .0535 .0115 .000 3.75 0.05

55.6 ’.000 .020 .000 .057 14.01 7.20

59.5 .005 .0105 .0055 .0535 1 .52 9.77

.001 .0035 .0055 .0145 24.14 17.50

C

15.8 .0000 .002 .0018

7 .0003 .0013 .001
7

.0008 .0007 .0008

“Values which follow rre beydnd the r0050 of the friction chart.

DATA Calculated RUN No. 211 SHEET No. 58 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 18 X 8
SIZE OF 90 DEGREE BRANCH: 5 1' 8

ORIFICE SIZE - STRAIGHT BRANCH: 15‘ x 5-}.
90 DEGREE BRANCH: :3 x 7

TYPE OF RUN: Test.

 

 

 

 

 

2.32 1745.2 .154 .434 1545 223 1730 13.6

O
(.3
(7'1
.0.
H
"s
7‘0
C)
L J
O
\ I

2.053 1597.5 .120 1832 12.5

175 1410 13.4

LU
N}
1.‘ 0
H
i
(,1

1.785 1401.0 .009 .
1.525 1198.3 .073 .198 1035 140 1180 123
1.275 1000.3 .051 .13? 985 SS 937 12.4
1.015 797.8 .033 .088 700 95 35 11.7
.755 598.5 .018 .0495 533 67 833 11.8
.635 497.4 .013 .033 403 53 498 10.7

.508 507.6 .008 3.4 308.4 10.9

0

§’
<5
(T?
f'

(I
U":
.13
IN

.5 56 205.1 .004 .011 200 30 510.0 9.7
.249 105.7 .002 .0045 105 10.7 315.7 8.8
.2123 188.7 .0014 .008. 188 15.2 105.2 0.8

D

(10
DJ

45 189.1 .0008 .0018 147 13.2 1.0.2

C7)

(.

l
.1 25 98.3 .0005 .0015 --~ --- --~-- -—-

DATA CalculatedRUN NO. 311 SHEET NO. 59A DATE

FITTING - SIZE OF STRAIGHT BRANCHzlg} X 8
SIZE OF 90 DEGREE BRANCH: 'z X 8

Kg. D. ctr. Er. - 1?an
ORIFICE SIZE- STRAIGHT BRANCH: 15:15 1: 5.9:. Act. L. my. E’r.- 10.35:

I:

90 DEGREE BRANCH: 2 x 7

TYPE OF RUN: Test

 

 

LOSS $6560

050 VPS TF5 TT4-TPE P5 Fq. L.5 Fq, L.5
152T.3 .145 4 .4005 .0175 .310 5.55 -4.70
1397.8 .123 .340 .014 .205 5.3; -5.07
33 .3 .00 .200 .013 .305 5.05 ~4.50
1050.9 .060 .100 .000 . 53 5.92 ~4.43
878.3 .048 .1305 .0035 .108 8.13 ~4.23
704.3 .00 .0035 .0035 .07? 4.0? ~5.40
528.9 .017 .048 .0025 .043 5.01 ~4.54

444.? .012 .351 .002 .0815 ‘.?5 -é.00
351.3 .008 .0195 .001 .021 4.76 '5.59
E 8.5 .004 .0105 .0005 .0180 5.07 *6.30
178.5 .00? .0045 .000

155. .003 .004 “.0008

13 .3 .0000 .0010 -.0022

”"“ ’.0004

“Vzlnes which follow are beyond the rangc of the friction cnrrt.

DATACalculated RUN NO. 311 SHEET NO. 5.43.13 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 1
SIZE OF 90 DEGREE BRANCH: 5

J.)

x 8
x8

(2

0 ~_—, .
3.30:. D. 90 0:71". - 5.2;”
.1013 o L. 90 gr. - E). "7 C '

u; -

ORIFICE SIZE - STRAIGHT BRANCHzlsg. x 5
90 DEGREE BRANCH: g x 7

TYPE OF RUN: ”feet.

 

”...—....“ _

V138 ’1‘? TL - T? 6 IJ 8 EC; 0 L Q 6
219.9 .109 .344 .080 .75 10.67 5.92
199.7 .090 .235 .‘C? .65 10.63 5.37

175.7 .068 .217 .055 .43 11.98 5.21

147.4 .049 .151 .044 .365 '12.0 5.30
124.0 . 35 .1090 .0305 .205 14.53 7.78
95.5 .02 .004 . 22 .105 14.10 7.44
00.4 .010 .035: .015 .r77 10. 0 11.54

43.3 .004 .014 .0055 .037 14.88 8.11
28.6 .003 .007 .004 .013 21.05 14.3
17.2 .0007 . 027 .0018
11.3 .0005 .0013 .0021

8.8 .0008 .0312 .0000

" '0 r ,. . '1.
Values vhich follow are b03000 tne range of the fricti0n Cgfirt.

DATA Calcu1&tedRUN NO. 213 SHEET NO. :29

FITTING - SIZE OF STRAIGHT BRANCH: 19. X 8
SIZE OF 90 DEGREE BRANCH: 3 X 8

ORIFICE SIZE - STRAIGHT BRANCH: 15 x G
90 DEGREE BRANCH: x 7

(‘0

TYPE OF RUN: Test.

 

 

1.535

1.001

1.0105
.758
.030
.500

I"

7.. '2
OU'.) p

(_ N
‘1

EU

4 35
O ‘1 {,2

.2145

.1643

177C). 1

100" w

0‘)

400.8
400.0
000.4
195.5

A '3
'\._)'_"‘. .

U1

129.0

1‘ PT

| ~ P'\

. I ‘ J
'z o":
0 1.2L;

 

A h
01.1135
. 'fi

I{)1\J
' ... v.
Q 01.11;):

g I.) :) i (1,-

.0008

 

 

11.1
11.0

DATA calculgtedRUN NO. 7313 SHEET No.50». DATE

FITTING - SIZE OF STRAIGHT BRANCH:1;2 x 8
SIZE OF 90 DEGREE BRANCH: :5 x 8
:q. 0. Str. Er. ~ 12.0"
ORIFICE SIZE- STRAIGHT BRANCH: 3.5 x 8 Act. L. 55:03., pm... 10,35?
90 DEGREE BRANCH: c- x 7

‘J

TYPE OF RUN: Tegt

 

 

 

 

 

 

L039 Added
C- VP T? T? ~1T’ P- 33 . L ‘5 . L._
:0 5 5 4 ‘5 b 9 ‘5 “q- n
1570366 .154 03:3 cC’lC? 0734.5 5.14:5 "Eo 10
1510 O G O 1,1;1: . 03‘355 O O].’1'5 . £71135 0 7:3 -5. 8-3

4
1427.3 .137 .271 .013 .375 4.53 ~S.09
4

1344.7 .007 .205 .010 .210

1065.1 .071 .1485 .0095 .155 5.08 -4.87
8Eu.9 .049 .103 .0055 .11 5.CO *5..b
71005 03:3 Q \‘C 0"355 0073 4.70 ”SOLIS

H o
\l \1
2) " 3
O O
O 11“
6 O
O Q)
(.3 O
CO ()1
O O
C) ('3
C)
3.3
I. 71
O
C)
H
O
O
H
a)!
I'"
H
D
I;
A?
H
O
....
(I)

...-l
(n
O
O
O
0
O
O
(O
6
O
O 0
CR
I
O
C)
O
C)

”Values which follow are beyond the r9030 of the friction ChFPt.

DATA 0310111,; ted RUN NO.

213

FITTING - SIZE OF STRAIGHT BRANCH:
SIZE OF 90 DEGREE BRANCH:

ORIFICE SIZE - STRAIGHT BRANCH: 16-
90 DEGREE BRANCH:

t.
’7
w

TYPE OF' RUN: TQM

SHEET NO.

18

K
L!

x 6
x 7

x8
x8

58.

EC.
ilCTJQ L.

DATE

D.

900

90°

1"\.
is)".

0
Mr
L0 .

 

 

186.7 .078 . .fdQ 0715
174.6 .OCQ .219 .005
Si. .054 .1655 .téfi5
151.6 .:59 .119 .032

85.1 .016 .051 .dlqr
6308 .00: ”7:53 .0le
50-5 .008 .01? .QQQ

38. .003 .010 .aocs

“Vslues which follow are begoné

Di; t‘.‘

‘I' r1 .1
1141‘};

"I

1-1 ‘

12.74
19.5

15.27
13.32
13.10

12.93

of t3»:-

0 IJO 6

9 3 ‘ '\
1‘.<.:.('€C1
~I'"Co

«f‘ 71’;
Oct...)

8.19

L.

6

friction Cnnrt.

DATAC3_10u1&tEd RUN No. 213 SHEET NO. (-30 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 18 x 8
SIZE OF' 90 DEGREE BRANCH: .. x 8

ORIFICE SIZE - STRAIGHT BRANCH:15§5 x 6,32:
90 DEGREE BRANCH: g x 7

TYPE OF RUN: "nest.

O

 

 

 

 

 

Ir? '1; p w r: ‘ r— C .. : J:
5" 2 C W4 T1 4 03...“. ,6) ¢:_5+ .6 71?.

775.9 .10.. .2130 1000 173 177?. 0.

1.770 1(1):.5 .0770 .19.“ 19.30 E? 1.70:3 ‘4 .,
1.5345 1 05 8 .073: . 35"“; 1070 114 1171111 9.6
1.23.035 9.4.0 .050 .001 9’0 C.” (”‘5 0.0
1.0075 701.7 .037 .0595 700 7 .7 77.3. 9.4
. ’35 8-1.1 .017-3 .033 55;": f." C0 0.0
.038 {301.3 .013 .0”? EEC 43 4”" 0.?
..20'? 430.": .0’1Q .L14 3330 I 5' £0? 8.4
.1” 50 2305.1 .0 *4- .O’Df E 2755 "1 -31: 7.1
.2340 105.7 .00? .00."? -00 {6.8 273.? 6.."
.c143 168. if .0C14 .0023”.- 10" 13.8 2.0 .2 0.3

o
H
("‘I
Q
If)
H
(«I
H
o

01
o

O
C)
(D
‘10
C?
(J
H
<0
H
(’3
(P
(I
o

t

1 I
O
1.0
o

i“)
D
I

C:

.122: 00.4 .0005 .0010 --- ---- --~-- ---

DATA Calculated RUN NO- 213

SHEET NO. [30A DATE

 

 

 

FITTING - SIZE OF STRAIGHT BRANCH: 3 X 8
SIZE OF' 90 DEGREE BRANCH: 3 X 8
liq. D. Str. Dr. - 1
ORIFICE SIZE- STRAIGHT BRANCH: 16-3;- 3: 61 Act. 1,. Str. Er.-— 1
90 DEGREE BRANCH: 3~X 7 "
TYPE OF RUN: Test.
fl I LOGS Aééed
€350 VPS .75 TF4~TF P5 Fig. 12.5 liq. L.5
1031.9 .100 .377“ .0185 .345 5.30 ~4.98
1554.2 .147 .2545 .017 .31 5.48 ~4.87
1448.0 .131 .297 .0041 .280 1.46 ~8.89
261.0 .099 .171 .012 .230 5.45 ~4.00
1090.0 .075 .1275 .0075 .164 4.5 ~5.78
803.6 .051 .087 .005 .115 ..35 -G.00
717.3 .033 .054 .0045 .074 6.09 -4.27
547.0 .010 .0315 .0015 .040 3.?8 ~7.09
455.2 .013 0205 .0025 .033 7.53 ~8.77
566.4 .008 .015 .001 . 223 4.50 -5.65
”274.1 .005 .0075 .001 .0133 ~--“ --~--
183.4 .002 .005 .000
157.9 .0015 .0035 -.001
125.2 .00 .002 -.001

 

 

whlcE follom are beyond the range of the friction Chfrt.

DATA CalculatedRUN NO. 213 SHEET NO. .303 DATE

FITTING - SIZE OF STRAIGHT BRANCHzlg
SIZE OF 90 DEGREE BRANCH:

ORIFICE SIZE - STRAIGHT BRANCH: 16-?-
90 DEGREE BRANCH: 2.

TYPE OF' RUN: TEST.

x 8
3 x 8
Sc. 9. 90° Pr. - 5.2"
x 6% Act. L. 90° Fr. - 6.75'
x7

 

 

960 VPGM TF6

 

 

174-0 .008 o?15
16408 .031 .173
153.8 .055 .1705

1:400 .040 o

"w.¢ .020 .0”:T
74.4 .013 .04
54.1 .007 .32"
40.1 . 05 .013
”55.0 .003 .009

8.5 .0001 .0011

”Vcluos which follow 3?:

.094 .4"0 10.94 10.10
.M7Er .4e3 17.18 17.41
Ca...“ .373 5.5: 8. H)
00....) ...) 19.13:: 13.:

.LVfiDE ./(0 17.Cfl. 1J.E€>
.027" .157 17.5? 17.77

‘ .1 ’ .r-> -‘ fl .5 . “ ‘ ' l‘ v"
began: thw r n39 o. the fr1c01on Cu rt.

91

Th. data sheets which follow give the observed and
calculated data for the second fitting tested (5' x 8‘
straight branch, 18' x 8' 90° branch).

Orifice Calibration.- Sheet flo. 61 ~ 73
- Run No. 314 ¢ 223
Toot Run. ObserVOd data . Sheet No. 73'. 96
. Run No. 324 ~ 347
Tout Run, Calculated data - Sheet No. 97 ~ 1203
- Run No. 324 h 847

RUN NO. 214 SHEET NO. (-51 DATEQ/IO/SB

DATAObserved

FITTING - SIZE OF' STRAIGHT BRANCH: 3 X 8
SIZE OF 90 DEGREE BRANCH: 19 x 8

ORIFICE SIZE- STRAIGHT BRANCH: 1 x E}
90 DEGREE BRANCH: Ilzlocked

TYPE OF RUN: Orifice Calibration

 

 

 

 

 

Trmp
H _ - T) Du ‘ Fr-
Llffie P3 P8 P4 .J ‘b *B P5 5.1".
15:05 .130 3.67 5.45 5.67 72 8g 20.49

3:10

H
(A
...;
01

H
01
h?
0

.100
.065
.051
.030
.020
.012

.008

.870
.820

'LTQO

OVK

.‘ AD

I,
. L's.) 6-

...)

f

86 2&048

Remarks: Rechecked all manometars. Pcnlsced doubtful tubing.

Patchefi lexks on 90° Pr'nch, rnd brrcefl bulginf sec-
connections.

tions. Checkefi tubing

DATA Observed RUN NO. 315 SHEET NO. {-33 DATE 9/10/53

FITTING - SIZE OF STRAIGHT BRANCH:3 x 8
SIZE OF 90 DEGREE BRANCH: 18 x 8

ORIFICE SIZE - STRAIGHT BRANCH: 1.3. x (5,3:
90 DEGREE BRANCH: Blockaé

TYPE 0'" RUN: Orifice Calibration

 

 

 

 

Temv
Time Ps-pg P4 P5 P6 ”3 DE Bar.
14:20 .253 5.00 3.18 3.01 72 85 20.43
14:25 .000 5.15 2.7? 3.14
14:29 .105 2 50 .20 2.59
14:3 .115 1.85 1.:1 1.03
14:: .000 1.20 1.12 1.28
14:53 .020 1.01 .800 1.01
14:40 .045 .720 .02: .790
11:43 . 55 .500 .400 .5?0
14:42 .025 .400 .3.: .400
14:49 .015 .250 .110 .23 '
14:5 .010 .100 .13; .100 72 9: 20.48

DATA Observed RUN NO. 313 SHEET NO. .35 DATE

FITTING - SIZE OF' STRAIGHT BRANCH: U I 8
SIZE OF 90 DEGREE BRANCH:18 X 8

ORIFICE SIZE - STRAIGHT BRANCH: 1:. x 63.,—
90 DEGREE BRANCH: biockeéi

TYPE OF RUN= Orifice Calibration

 

 

 

 

 

 

 

Time 23-22 P4 25 P6 5:8“ 0? Bar.
15:10 .5r0 5.53 2.54 5.55 71 84 23.48
15:14 .515 5.11 2.50 5.11

15:15 .233 2.05 2.00 2.50

1535...: .231 1.91I 1.57 1.1:

10:25 .145 1.45 1.15 1.4:

1::23 .100 1 01 .500 1.01

15:51 .004 .555 .510 .555

15:54 .040 .520 .508 .500

15:57 .025 .270 .205 .270

15:40 .012 .124 .007 .124 72 00 20.47

DATA Observed RUN NO. 217 SHEET NO. 64

FITTING - SIZE OF STRAIGHT BRANCH: 5 X 8
SIZE OF 90 DEGREE BRANCH: 1:; X 8

ORIFICE SIZE - STRAIGHT BRANCH: 2 X 7
90 DEGREE BRANCH: Blocked

TYPE OF RUN= Orifice Calibration

DATE 9/10/52

 

 

 

 

 

 

 

Temp

Time P5~P2 P4 P5 P6 WB DB _Eii:mfl
15:45 .BPG 3.01 1.91 5.31 78 88 29.47
15:48 .590 ‘.00 1.67 2.00

15:51 .500 2.45 1.41 2.45

15:04 .405 1.9C 1.11 .97

15:57 .850 1.21 .685 1.21

18:00 .150 .000 .580 .605

16:05 .000 .200 .154 .200

10:06 .042 .21? .113 .213

10:09 .030 .148 .07? .149

18:13 .013 .09? . 33 .039 7

E 83 29.47

DATA Observed RUN NO- 218

FITTING - SIZE OF STRAIGHT BRANCH: 5. x 8
SIZE OF 90 DEGREE BRANCH: 18 x 8

ORIFICE SIZE - STRAIGHT BRANCH: Blocked
90 DEGREE BRANCH: 15 x 5

TYPE OF RUNI Orifice Cpl 1bration

SHEET NO. 65

DATE 0/10 52

 

 

 

 

 

 

Tine Ps-Pg P4 P5 P6 WéempDB tar.
16:20 2.40 2.10 2.12 1.01 72 80 29.47
16:23 1.97 1.72 1.745 1.57

16:2? 1.60 1.41 1.42 1.28

16:25 1.03 1.160 1.20 1.07

16:52 .900 ,675 .000 .600

16:55 .810 .715 .725 .650

13 CF .580 .510 .520 .465 72 80 20.47
16:41 .400 .355 .55? .290

16:44 .255 .211 .212 .188

16:47 .120 .121 .125 .110

16:50 .035 . 52 .052 .047

16:55 .045 .OZE .087 .055

16:56 .020 .026 .026 .OiS

17:00 .011 .010 .010 .009 7? 80 23.46

 

 

 

 

 

 

DATA Observed RUN NO. 319 SHEET No.55 DATE 9/11/53
FITTING - SIZE OF STRAIGHT BRANCH: 5 x 8

SIZE OF 90 DEGREE BRANCH: 18 x 8
ORIFICE SIZE - STRAIGHT BRANCH: Blocked

9O DEGREE BRANCH: 14 x 4

TYPE OF RUN= Orifice 0.2.1155: tion
______ ’ “’61”.}{p"”””""”’"
Time 15~P2 P4 P5 P6 WE DB 50 .
10:10 5.55 .35 .390 1.07 71.5 85 20 54
10:14 5.15 1.22 1.200 .090
10:17 7.81 1.05 1.12 .550
10:21 3.55 .010 .930 .72
10:24 1.57 .505 .050 .400
10:27 1.30 .457 .510 .500
10:50 1.01 .55 .304 .209
10:54 .70; .20: .302 .251
10:53 .550 .507 .215 .10 70.5 55 25 55
10:45 414 .155 .150 . 25
10:47 .53 .120 .155 .007
10:51 .505 .009 .102 .075
10:55 .154 .075 .075 .057
10:50 .154 .050 .052 .040
11:05 .050 . :5 .0i5 .017
11:05 .045 .015 .0175 .0140
11:09 .055 .015 .012 .010
11:15 .015 .005 .005 .004 70.5 84 25 55

 

DATA Observed RUN No. 22- SHEET NO. (-37 DATE 9/11/52.

8

FITTING - SIZE OF STRAIGHT BRANCH: :5 x
8 x 8

SIZE OF 90 DEGREE BRANCHzl

ORIFICE SIZE - STRAIGHT BRANCH: Blocked
90 DEGREE BRANCH: 15 x 5

TYPE OF RUN: Orifice C31 ibration

 

 

Time P5~P2 P4 P5 p8 fin MB SPF.

 

11:20 4.15 .530 J .550 .505 70.5 54 20.53
11:23 3.615 .725 .770 .440
11:25 3.140 .530 .570 .3 5

1 2.74 .550 .505 .530
11:3 2.3 .455 .452 .270
11:30 1.01 .577 .4
11:30 1.05 .320 .340 .100
11:43 1.370 .200 .223 .155
11:45 1.025 .107 .210 .117

GI

11:40 .520 -..35 .150 .000 71 0
11:53 .55: .111 .002

11:57 ‘ .404 .077 .002 .045

.053 .0375

fi
L)
O
t‘
L)
.n.

F’
10
C
0
pa
0
CA
I 1
C)
O
O
‘9
i1":

fifJ

.059 .0435 .0?4

.4
R) m
.0 O.
CO
1001
0 0
IO 9
Qt1
u ‘0
o
O
.5
IQ
o
O
(I
I
W
o
O
C~

12:15 .147 .059 .0551 .017
2:16 .0975 .019 .020 .018

.002 .01? .013 .0075
.047 .009 .010 .C05

.030 .006 .00? 0004

H H
:0 to
7“ H
[U (0

Po
IO
.0

I0
0)

12:30 00125 .003 .003 003: 71 8a E?052

DATA Observed RUN NO. 331 SHEET NO. cg DATE 9/11/53

FITTING - SIZE OF STRAIGHT BRANCH: 5 x 8
SIZE OF 90 DEGREE BRANCH: 1:2: 1: 8

ORIFICE SIZE - STRAIGHT BRANCH: Blocked
90 DEGREE BRANCH: 1535. x a:-

v1:

TYPE OF’ RUN: Orifice C21 ibra—tlon

5
5:10 4.370 .650 .705 .310 71 97 20.52
7

H
01 C)?
H H
C P
I!)
.
...:
H
.
C3
...:
(fl
0
m

5.60 .540 .500 .200

3:82 5.16 .475 .515 .220
3328 2.755 .403 .441 .197
3823 8.300 .347 .875 .15R
3233 .07 .297 .31? .1?
.:0 .TCI .109
5:59 ..1 ' .17’ .204 .85

Cr}
1:3
CA
H
C
O
45
' O
o
H
:5-
q
o
H H
I“

“1 r0
0 .004

:4 +4 *4 r4 #4 #4 hi P‘ h‘ F‘ F'Id
. m (a w- - 4
45 C:
C") O)
klld r4

O O
«1 O3
:3 n:
O I
H N
H i3
H

0

5:50 .585 .O”‘ .000 .037 72 BR {9.5;
5:“4 '490 ~057 .0“- .028
3:57 .819 .048 .050 .021

14:00 .250 .0575 .041 .0175

14:04 .2'0 .030 .0520 .0130
14:00 .140 .022 .023 .010
14:12 .101 .015 .010 .007
14: 0 .002 .000 .010 .004
14:1: .047 .007 .007 .005
14:22 .030 .005 .005 .003
4:20 .012 .002 .002 .001 72 00 20.50

DATA Observed RUN NO. 333 SHEET NO. (59 DATE 9/11/53

FITTING - SIZE OF STRAIGHT BRANCH: 5 x 3
SIZE OF 90 DEGREE BRANCH: 18 x 8

ORIFICE SIZE — STRAIGHT BRANCH: Blocked
90 DEGREE BRANCH: 1;: x (-3

TYPE OF RUN= Orifice Cr libration

-— .- -... ..__.. 4‘ ____.4_.._ . —. --.—_...—._.4._-.___..____.__—...._ _.--4_—r—.-—.-.-4—..

Time FS‘PB P4

 

F
14:55 4.51”' .007m‘fl'.010 ' .200 ”'_5 00 "fi 00..‘"
14:50 4.19 .510 .070

15:01 5.00 .445 .403 .15
15:04 5.10 .300 .419 . 25
15:00 2.70 .500 .570 .113
15: 2 2.35 .270 .310 .007
15:15 1.93 .205 .358 .017
15:19 1.05' .101 .213 .045

 

 

5:81 1.2. .150 .100 . 52
15:24 1.04 .121 .135 .043
15:29 .81 .096 .103 .033 7?.5 90 29.49
15:31 .550 .06? .0T0 .021
15:54 ..433 .047 .033 .017
15:57 .295 .055 .0?” .012
15:40 .865 ~ . 33 .035 .011
15: 5 .206 .024 .027 .008

6 .139 .017 .019 .006

15:49 .037 .011 .013 .004

15:52 .002 .007 .000 .0025

15:55 .045 .005 - .008 .003

15:58 .050 .004 .005 .0015

18:01 .012 .002 .002 .001 71.5 90

75:"?
{D
4:-

 

DATA Observed RUN NO.

FITTING - SIZE

1:

x

ORIFICE SIZE - STRAIGHT BRANCH: Blocked
90 DEGREE BRANCH: 1,313. C

TYPE OF RUN: Orifice CBIIK‘II‘FStion

10:41
16:44

5:47
16:50

f! r
7'0 'T
\JOSU

h‘ h-qa rd
cn

K} \7
O O

C)

17:10
17:15
17:16
17:19
17:25
17:26

SHEET NO. 70

OF' STRAIGHT BRANCH:

.023
.010
.01?
.0075
.003
.004
.003

'2
U
SIZE OF 90 DEGREE BRANCH: 1::

\o

8
8

X

 

DATE 9/11/33

£9.47

DATA CalculatedRUN No. 314-217SHEET NO. 71 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 3 x 8
SIZE OF 90 DEGREE BRANCH: 18 x 8

ORIFICE SIZE- STRAIGHT BRANCH: 1 x 6, 1;; x £21, 1.}. x 3.3., 73 x 7

90 DEGREE BRANCH: 2531001280

TYPE OF RUN:

1 x 6 1% x 61- .13:- x 6%,; 2 x '7

285.67 3 8.5 471.47 650.65
244.09 551.84 441.81 803.48
200.5 319.42 599.38 555.55
176.80 886.82 352.42 500.15
136.10 222.22 ?90.58 392.89
111.19 135.88 £49.09 £93.10

86.04 166.68 108.80 193.52

70025 147.10 157018 181.08
134.23 126.8 58.10
98.26 88.12 86.04

78.5

DATA Calculpted RUN NO. 219-") zSHEET NO. 73 DATE

LQU

FITTING - SIZE OF STRAIGHT BRANCH:5 X 8
SIZE OF 90 DEGREE BRANCHzlg X 8

90 DEGREE BRANCH. 15 x13, 14 x 4 17. x 5
16 x 6,
TYPE OF RUN:

 

“‘3_' C FILL—1 '1 — __- '_ W M A“

13 x 3 14 x 4 15 x 5 153 x 5% S x 8 18%

12';13. 0 1477. 27 1300.13 13.3.07 130-3.00 12.331. 57
110:3.43 1401.03 1434.03 777.73 02.3: 1330.33

1500.94
1401.05

393.11
1192.03

904.01 1516.1 183? .40 1
908.00 1199.101330.47 1597.12
777.92 984.5. 1 93.05 1504.39
707.80 889.5 1W 11uu.dv

:v‘:).G-2‘ 15012.02
18i7.13

1204.80

(JCS:—
598.3 789.71 1003.44 1103.24 132;.?? 1103.45
407.01 r€3.50 9 9.15 1009.73 .003.44 903.97
595 .25 588.16 795.C0 899. 9° .85 935.79

304.10
107.33

505.65
445.14

78“ ..CS
707.20

188.89 403.11 423. a 601.1: x37.03 323.37
133.10 '.14 443.34 437.~1 433.07 502.31

32.43 297.99 394. 0 44..37 4 3.02 430.34
02.52 333.21 703.0: 433.11 402.3

123.47 301.43 334.07 223.71 333 .25

1.2.23 243.32 302 37 233.10 223.24

89-53 195.F6 £43. 88 244. 77 250.03

1(15063 0.0? £31.37

hard
3"“
‘ (D
O
(W
H

U!

F .
Q C)

0
(‘13 ..J

C)

G)

:fi ” f‘

1 7K.) Q 1:1,:
1,1,0. x.) 0

pm 10

..I \J a '-J

33.74
138.10
83.04

0

)L.

140.”

’4

(71

LI.

0" f‘fi
.JU. LA")

RUN NO. 0'34 SHEET NO. 73

9!-

DATA Observed DATE 9/11/58

FITTING - SIZE OF STRAIGHT BRANCH: '5 X 8

\

SIZE OF 90 DEGREE BRANCH: 19?. X 8

ORIFICE SIZE - STRAIGHT BRANCH:
90 DEGREE BRANCH:

1246
15x3

 

 

 

 

 

 

7300
Time 73—22 P4 :E P3 73 ‘ 0Q Ear.
10:05 2.70 1.21 1.77 .30 72 80 29.43
10:00 7.33 1.34 1.31 1.44
10:11 2.00 1.30 1.27 1.21
10:14 1.00 1.03 1.03 .20
10:17 1.0m .70 .215 .230
19:2~ .570 .330 ..3- .334
19:24 .435 .LAO .208. .241
10:23 .254 .1 2 .132 .130 7: 95 2 .45
10:32 .140 .017 .001 .025
10:33 .002 .001 .050 .050
10::0 .001 .020 .0373 .03?
19:43 .04; .020 .027 .025
10:4? .031 .010 .019 .017
10:4q .013 .0073 .037: .007 73.5 >3 20.45

DATAObSE‘PVC‘d RUN NO- 2135

FITTING - SIZE OF STRAIGHT BRANCH: (5
SIZE OF 90 DEGREE BRANCH:18

ORIFICE SIZE - STRAIGHT BRANCH: 1 x

x8
x8

6

SHEET No. 74

DATE 9/11/52

 

 

 

90 DEGREE BRANCH: 14 x 4.

TYPE OF RUN: Test,
- -# Tamp - ._

Time P3“Pg Y4 r Pa {R D5 39?.
19355 3.71 1.15 1.15 .95 73.5 85 29.45
1935{‘1 5.14 .97 .99 91
20301 2.69 .85 .15 .83
20304 3.3 .78 .75 .60
20:07 1.99 .59 .50 .495
20310 1.63 .50 .51 .415
30:15 .35 .433 .41. .558
20:15 1.040 .311 .315 .25
20:19 .79 .133 .238 .19?
20:21 .555 .150 .130 .133 75.5 85 ?q.45
? '2 .407 .1q9 .121 .093
202:9 ,cOf. .075"? .0933 .074
F 33 .ZtR .077 .0775 .064
£0:u4 .197 .0775 .0575 .047
?O:3C .143 .Oéfii .0495 .054
20:37 . 31 .0319 . T“ .034
20:42 . 32 .019 .019 .014
20345 .043 .013 .01? . id
20347 .030 .09? .OCM .007
20:50 .011 .003 .00: .0015 5.J 84 29.45

DATA Observed

RUN NO.

SHEET NO. 75

FITTING - SIZE OF STRAIGHT BRANCHz3 x 8

SIZE OF 90 DEGREE BRANCH: 18 x 8

ORIFICE SIZE - STRAIGHT BRANCH: 1 X 6
90 DEGREE BRANCH: 15 X 5

TYPE OF RUN:

Test

 

 

DATE 9/11/52?

 

 

 

. Team
Tim“ Ps’Pz 94 P5 9' ”a ”a
20:5" 4.50 .71 .75 .48 73.5 84
20:57 5.60 .590 .033 303

a.)
0
LC

:5

(‘.

O
c.

N
H

21:05
31:07
21:09
31:11
31:14
81:17
81:20
21:23

21825

5:21
2.75
2.84
1.96
1.88
1.28
1.020

.570

.144
.083
.040
.029

.011

'7. O
o (1' U
02 f"
n u f
ong

.133
.104
.057
.041

.030

.08
.005
.004

(‘qu

.001

\1
()1

75

94

Q '2
'_..-(.

A)
L)
O

.p.

U]

DATAQbserved RUN NO. 2;; SHEET NO. 7:3 DATE ..é/l'r/s

m

FITTING - SIZE OF STRAIGHT BRANCH: 5,

x 8
SIZE OF 90 DEGREE BRANCH:1 x 8

ORIFICE SIZE- STRAIGHT BRANCH: 1 x 5
90 DEGREE BRANCH: 153;. x a}.

TYPE OF RUN: Tegt

 

 

 

i
In

c
D.)
I

T111316

 

 

O
ph
.13
"I
up 4: *1
H '7:
¢> n
O O
0‘ CI ..
H ::‘ .
(J U
0 O
(“I ’33
{J L)
O I
I“) "{7 _
-q .-.)!
C.) O
«I
O
(‘0
O

3‘28

09:: 5.83 044:]. 0A.“? 02.17
09:54 3014 03%}: 04')”: olfiq

O
.3
Ca:
\1
O

\‘I
....I
O

" J
I"
0

" I
C)
C)
6

1....
\1
Q

0
I.)
.13
U
A) N
a
5:4
5"
o

I 1
\1
.q
o
A I
f )
o
H
II‘
I.)

C)
J
- .h
-q p

O
20
,5.

O 'L- '2 '7 "‘ '3 "I '3
I n r' ‘ .’ ,-
ou c ¢¢.L. .r...“ o .....J

1.59
1.51

.050

"’3
0 (mi;

.013

.037
.067
.047
.029

.017

O

C)
L")
\I
r I

O
C
O:

' r
O'VVt}

. 00 23.

.063 71 92 29.43

0
O
U
H
and
H
CO
0

C)
:1
.33-
C”.

DATACbserved RUN NO- 828

SHEET NO. 77

FITTING - SIZE OF STRAIGHT BRANCH:5 x 8
SIZE OF 90 DEGREE BRANCH: 19 x 8

ORIFICE SIZE - STRAIGHT BRANCH:
90 DEGREE BRANCH:

TYPE OF RUN: Tat

1x65
16:16

DATE 93/12/52

 

 

 

 

11:04 .3? .135 .140
1130 1.06 .090 .112

 

 

.075
.050

.041

.037 71 84

Bar.

__ ._ ..-—.4-.——.——.

r) 1 1f:
...{f o (170

29.4%}

DATA Observed RUN NO. 035) SHEET NO. 753 DATE 9/1“/Uj

{...

FITTING - SIZE OF STRAIGHT BRANCH:5 x 8
SIZE OF 90 DEGREE BRANCH: 113 x 8

ORIFICE SIZE - STRAIGHT BRANCH: 1 X 6

TYPE OF' RUN: Test.

(n

.Gmp

 

T _. ‘3 ‘2) fl "3 ‘5" I, 7,, ’7-
LiIIIC «I. 3"?2 1‘. 4 pf} 1C Hi) r33 ...-‘..4. a
1 l :40 4- . €313 . 3T9?) . ffi‘l . 119 '7 E? E? If) I??? . 4‘53
11:43 4.12. .8.- .‘7 .408 .105

11:42:“; Sets 03"}? 03".; .038

.030

H
H
I?-
..J
Cl!
C
I‘f’
{.9
0
IT)
J
\1
“I. ‘I
"7’

11:53 8975 0:3!” 9;:64' 007.0
ll:'_£.' 2.2.4 o (-3: 92:28 .C}Gf

1"”:10 .8??? .083 .0753 .JEj’l '71 .0 273.45

12:2" .005 .005 .003 .002
12:28 .055 .004 .005 .0015
1 :51 .052 .002 .0035 .001

12:34 .015 .001 .002 .000 71 8'? 80.4.4

DATA Observed RUN NO. 33.0 SHEET No. 79 DATE 9/12/52
FITTING - SIZE OF STRAIGHT BRANCH: 3 x 8

SIZE OF 90 DEGREE BRANCH: 13 X 8

ORIFICE SIZE - STRAIGHT BRANCH: 13 X 63

 

90 DEGREE BRANCH: 15 x 5
TYPE OF‘ RUN:.ITe$t
:L'WTMLZZ‘T—T I” ”TEL"; ’ "”— 3755?“ ” "H "T
Time Ps-PB P4 P5 P6 (B DB Bar.
15:50 2.95 1.70 1.51 1.52 71.5 89 22.44
15:54 2.75 1.52 1.55 1.51
15:57 2.52 1.50 1.22 1.2
1::40 1.25 1.15 1.02 1.07
15:45 1.55 .950 .570 .270
15:45 1.52 .755 .705 .705
15:50 1.02 .500 .552 .552
15:55 .23 .475 .44: .442
15:55 .570 .5 . ' .279 .5 0 72 20 27.45
15:50 .400 .252 .21: .215
14:05 .255 .147 .155 .157
14:05 .145 .052 .075 .075
14:10 .054 .055 .052 .052
14:14 .051 .025 .020 .025
14:17 .055 .0175 .015 .015
14:2 .015 .007 .005 .000 72 01 20. 2

RUN NO. 251 SHEET No.80

DATA Observed

FITTING - SIZE OF STRAIGHT BRANCH: :5 x
SIZE OF 90 DEGREE BRANCH: 153 x

DATE 2/12/52

ORIFICE SIZE - STRAIGHT BRANCH: 1.3.: x 5
90 DEGREE BRANCH: 14 x 4

TYPE OF' RUN: Test.

 

 

 

 

 

 

 

745::

Time Pg-Pg P4 P5 P5 :3 DB Ear.
14:2}:EWWEFS "1.30" '"iEés—WE .900 777-761” 'E ’23.};
14:46 5.05 1.03 1.01 .880

14:49 5.18 .882 .830 .740

14:52 8.70 .750 .735 .630

14:55 3.35 .653 .635 .550

14:58 1.97 .550 .536 .460

15:01 1.68 .452 .435 .575

15:05 .33 .333 .353 .302

15:09 1.02 .277 .208 .839

15:13 .83 .818 .211 .181

15:18 .590 .157 . 50 .130 73 02 27.42
15:80 .39. .106 .105 .090

15:24 .208 .070 .007 .058

15:88 .150 .059 .0375 .053

15:31 .OGEC .016 .015 .012

15:.4 .048 .011 .011 .009

15:37 .033 .0075' .007 .000

15:40 .010 .00. .005 .0025 C 93 $9.41

DATA Observed RUN NO. 333 SHEET NO. 81 DATE 9/13/53
FITTING - SIZE OF STRAIGHT BRANCH: 3 x 3
SIZE OF 90 DEGREE BRANCH: 19 x 8
GRIFICE SIZE - STRAIGHT BRANCH: 1.3: x 61‘
90 DEGREE BRANCH: 15 x 5

TYPE OF RUN: T881.

 

Time 25-22 24 25 P6 W8 ‘ DB Bar.
10:10 .55 .042 .000 .452 72 92 20.41
10:14 4.12 .‘22 .045 .422

10:17 5.04 .550 .570 .575

10:20 5.20 .425 .503 .550

10:2: 2.72 .400 .424 . .270

10:20 2.54 .550 .202 .251

10:29 1.05 .775 .220 .100

10:52 1.01 .257 .245 .1573

10:55 1.5 .1025 .190 .127

10:55 1.05 .15: .1575 .102

10:41 .80 .125 .127 .002 7: 25 29.40
10:44 .550 .070 .000 .052

10:47 .407 .050 .000 .050

10:50 .257 .0570 .0575 .025

10:55 .140 .0: .‘22 .014

10:50 .005 .000 .000 .000

10: 9 .050 .007 .007 .005

17:02 . 54 .005 .005 .005

17:05 .013 .0025 .0025 .0053 72 9."??- 2.9.30

DATA Observed. RUN NO. 235 SHEET No.82 DATE 9/12/53

FITTING - SIZE OF' STRAIGHT BRANCH: 3 X 8
SIZE OF 90 DEGREE BRANCH: 18 x 8

ORIFICE SIZE - STRAIGHT BRANCH: 13 x .3.
90 DEGREE BRANCH: 15,3. x 53.

TYPE OF RUN: Test

Temfi
Ti 3 P3~P2 T4 P5 PC "3 B }~r.
11375 ' “ZS! “ .8155 ’ ’ 4”“ 15:5” ”We: ”V £6226
10'18 4.15 .er/ .531 .247
10:21 1 P4 .4075 .437 .c 0
17:-4 5.15 .543 .C77 177
10:27 8.75 .505 .099 .104
1L:30 .C5 .253 .275 .13
18:: 1.07 .315 .230 .11?
17:33 1.65 .170 .10? .0’”2
13:59 1.3 .141 .151 .077
10:42 1.00 . 07 .114 .057
10:45 .79 .0 L .00? .045 73 R? 29.30
10:40 .5E0 .000 .0035 .03?
17:21 .3“? .043 .045 .023
IR'L ..285 .028 .030 .015
18:57 .147 .015 .016 .008
19:00 .005 .007 .007 .005

19:05 .051 .005 .005 .0025

H
'23

0 .050 .004 .004 .002

0
19:0: .017 .002 .002 .031 75 89 23.53

DATA Observed

FITTING - SIZE OF STRAIGHT BRANCH:
SIZE OF 90 DEGREE BRANCH: 13 x 8

ORIFICE SIZE - STRAIGHT BRANCH: 1}.

TYPE OF' RUN: Test

 

19:17
19:20
19:25
19:86
19:89
19:31-3-
19:5

19:38
19:40
10:45
19:46
19:48
19:51
19:55
19:55
19:57
19:59

20:05

RUN NO.

SHEET NO.

5x8

x g;

90 DEGREE BRANCH: 13 x 6

 

.005
.002
.0015
.001
.0005

"
‘\.
. £1

75

72

DATE 9/12/52

DATA 0:: E B 1'" VB (1

RUN NO.

r? " C"
I.) 1:. J

SHEET NO. 84.

FITTING - SIZE OF STRAIGHT BRANCH: 5 X 8

ORIFICE SIZE - STRAIGHT BRANCH: 1.3. x 5-

I

TYPE OF RUN:

(\1

:2
PH

90:

L.)

C)
C23

SIZE OF 90 DEGREE BRANCH:

18x8

’0

90 DEGREE BRANCH: 1337.. x 53..

Te.-

27:40

.214
.191
.147
.122

.050
.019
.011
.035
.004
.005

.001

DATE 9/12/52;

20

SHEET NO. 8.5 DATE

DATA CIbE-CI‘V9C3 RUN NO. 35:3 9/17/58

FITTING - SIZE OF' STRAIGHT BRANCH: '2 X 8

t)

SIZE OF 90 DEGREE BRANCH: 18 3.; 8

ORIFICE SIZE - STRAIGHT BRANCH: 1.}, x 5
90 DEGREE BRANCH: 1,3: x 5

TYPE OF' RUN: T6 945

 

 

Time IFS-P3 . A I 5 I38 5 3T}: ' “3.“.
6:54}— W 3714 '11 W i”. 4:?“ ”112:: ””41”“ 5??" am
3:?8 2.78 1.42 1.25 1.51

0:2‘ 2.5I 1.2L 1.05 1.12

0:80 1.07 1.01 .EEO .“40

0:53 1.67 .839 . CT .705

0:.8 1.35 .64” .509 .640

9:38 1.030 ..2 .458 .430

“'él .QSG .422 .i’9 .- é

9:~4 .530 .F79 .230 .Bfl 20 85 23.4?

'3
C)
C

97-1
0

H
H7
9

9:5? .147 ‘07,; coal oC’E’?
9:38 .082 .039 .034 .027
9:5? .050 .‘23 .019 . 33

h‘ +4
C) (3
OO
01

.-
{U

.013

.004

73 83 29.42

DATACbservcd RUN NO. 357 SHEET NO. 95 DATE 9/13: 3;;
FITTING - SIZE OF STRAIGHT BRANCH: 3 8
SIZE OF 90 DEGREE BRANCH:19 . 8

XX

ORIFICE SIZE- STRAIGHT BRANCH: 19;. x 5
90 DEGREE BRANCH: 14 x 4

TYPE OF RUN: Test

 

n M: .... J 5 Is“ ‘0‘! UK 12:. ‘-(.
41 . P3 12 4 1': s L B 1": v on.
- C'f'l' 7 on no .;
10:18 3.99 ”“b .905 .:ME 7 D c..4:
- \ '7 I C"”“\ Q roPO
111.51 t... 0.1.-9 o~ "‘ o (’
[F‘ (~th *7 H'( r‘" " "I:
l\: ‘fi' {:0 L o, s) o (l I .I is)
rr n ~ :0 *
10:27 ' 9 I1, .711 okéi) OI.- U
A .~ . hm AI” ”\w
le : '30 1.4 o \{zr'i o LIL! 9 5‘1 w o EUC’

10:57 .147 .036 . 32? .0331
11:00 .06.": .015 .0 5 .012
11:03. .052 .0153 .011 .010
11:05 .037 .008 .007 .007
11:08 .015 .003 .00.? .002; 723.5 «37 20.42

0". P“"
‘0 "(I

FITTING - SIZE OF STRAIGHT BRANCH:
SIZE OF 90 DEGREE BRANCH: 1

5
.‘\
m

X
)2

o

ORIFICE SIZE - STRAIGHT BRANCH:
90 DEGREE BRANCH: 1»:

k."

X
X

L,’

TYPE OF RUN: TL- ? 1,

 

 

SHEET NO. 97

COG)

DATE D. M '7

‘4’ *1

(m?
31:2” ‘-‘ 1‘ a: ' E39 11»- 1‘ :2 3.3;: *1 3:" ';
, _ ... __ - --- ___V"ff-_ D 1:11,- -- _ -, :1 ___-__ .1: _

11:15 4.40 .312 .074 .415 72.5 V7
11:18 4.10 .590 .590 .500

11:01. $.03' .31? 400 .340

11:21": 3.13; .4113 .4." 3 .1304

11:07 2.74 .509 .07; .25

11:50 2.39 .334 .312 .2 S

11:53 1.€: .FLE .214 .177

11:38 1.81 .23? .313 .1”.Q

11:43 1.3 .19? .190 . 25

11:45 1.08 .140 .140 .090

11:40 .84 .113 .1075 .073 75 80
11:43 .805 .079 .07E .054

11:51 .41? . 55 .0”? .03

1 :54 .204 . $3 .035 .023

11:5 .143 .01? .017 012

12:00 .070 .009 .00? .003

12:03 ,.051 .0035 .000 .004

12:00 .052 .004 .105 .001

12:10 .014 .003 .00? .001 73 89

I’j t)
L1 :4

on

,-
'TM)
LJ\I.

I

e

‘.41

.“\

J

DATA Cbserxt'ed RUN No. 25¢ SHEET NO. 88 DATE 9/13/53

La

FITTING . SIZE OF STRAIGHT BRANCH: 2: 2: 3
SIZE OF 90 DEGREE BRANCH: 15.3 7. q

\o

ORIFICE SIZE - STRAIGHT BRANCH: 1.}. 2: .3
90 DEGREE BRANCH: 1 . :2

‘L 02

TYPE OF RUN: T031;

'Z‘Erm

T17“ Pz-p: TA P:- .L C if}? T)? :‘"Z‘.
.7???— WZTE‘ _ M}. I? _ .7. '2 if” TIE—“55““ 7:392 _
1025? 4.1’ .475 .duc. .?75

13:00 5.04 .700 .795 ."CC
11. :{JC‘ :70 kz '07-‘3 0:731 0174’

3:06 2.77 .BQG .QQL . FE

3:12 1.99 .202 .204 .110

13:15 1.84 .188 .167 .090
.071
l O? .1085 .1005 .055
.83 . 0? .083 .044 75.5 91 89.39

:4 +4 :4
CA CA N
u) H

H ’)
H

O O

{‘0

C ".3

0

?fi

:5

O

m

C)

so
.'-‘.\ (V)
-q p

...-1
CA
.0

3

.590 .057 .058 .031

C4

#4 I4 f4
0.
Pa
C!
a
{\fi
’3)
C

.041 .040 .023
. 38 . ES .015
.015 .013 .007
.006 .000 .0025
.004 .004 .003

.0005 .0025 .002

'4
0
LP
0
x)

C1
0

H
45
.J

H
"a (q
El
:3
O
C)
(7)
(3'?

{I}
C.

H H H
-- 6‘4
IR vb
: .5- H
O O
O O
{.4 m
I 3 O

.001 .071 .000 73.5 90 29.3q

r4
0.
gs
C >
O

O
}J
...:

DATA Cbservm‘i RUN NO. ".10 SHEET NO. 57:9 DATE 9,:"13/55?

I
to; ‘

FITTING - SIZE OF STRAIGHT BRANCH: 5 T 8
SIZE OF 90 DEGREE BRANCH: 1‘3; «...;

ORIFICE SIZE- STRAIGHT BRANCH: ; x (3;.
90 DEGREE BRANCH: 1;}; x

TYPE OF RUN: T

I...

d

I
."1 . .. ~ . t ‘I‘: - “‘ - ‘.‘_ . “’ ’7 -
.1 ' ) H '..'. . 2 E ’I A" I. .5 :4 H . J. 3 .L-- .- o
‘4' z \.5 cl .1
' ”'1' 0" ". " l' 1,- rv7. n on "7

1'T.r 4'0'XJ 06777} 0‘15 . ’2 (0.2.5 at) (:3 «3’

To? ‘ 1': ’ ' 'I 1""
ll 0u{3 4. IL- 0L4- .( x. 0.1.40

14:23 .815 .005 .067 .027 74 01 20.3

14:?” .249 .01’1 .020 .‘J7

14:55 .14 .011 .011 .004

14:?0 .007 .005 .005 .002

14:40 . 58. .003 .00? .001

14:43 . 32 .003 .003 .0005

14:40 .012 .001 .001 .000 74.5 ”2 ?0.50

DATA Observed RUN NO. 341 SHEET No.90 DATE 9/13/52

FITTING - SIZE OF STRAIGHT BRANCH: 5 x 8
SIZE OF 90 DEGREE BRANCHle3 x 8

ORIFICE SIZE- STRAIGHT BRANCH: 1.1.. x 55;.
90 DEGREE BRANCH: 16%:- x (ii

TYPE OF RUN: Test.

 

 

 

Time p3-22 74 p5 P6 ”5 up Bar.
15300 4.70 "'mq:240 .5_5 _:105 74.5 92H‘W4507570
15:05 4.05 .237 .520 .00

15:05 5.52 .251 .270 .055

15:00 5.15 .2? .247 .075

15:12 2.75 .152 .215 .055

15:15 2.51 .157 .173 .055

15:13 1.04 .120 .145 .045

15:21 1.51 .114 .122 .057

15:24 .55 .057 .102 .052

15:27 1.07 .075 .050 .024

15:50 .755 .054 .057 .017 74.5 9: 70.25
15:53 .550 .053 .042 .012

15:55 .405 .025 .020 .008

15:35 .252 .017 .0175 .005

15:42 .145 .010 .010 .005

15:45 .057 .004 .00» .0015

15:40 .052 .000 .003 .001

15:51 . 22 .012 .002 .0005

15:54 ..011 .001 .001 .000 74 C? 20.50

 

 

DATA Observed RUN NO- 843

FITTING - SIZE OF STRAIGHT BRANCH:

SIZE OF 90 DEGREE BRANCH: 18 X 8

SHEET NO. 91

5x8

ORIFICE SIZE - STRAIGHT BRANCH: 3 x 7
90 DEGREE BRANCH: 15 x 5

TYPE OF RUN:

Time

Test

 

P5“P2

15:50
18:05
16:00
16:09
16:18
16:15
16:18
16:21
16:24
16:27
18:30

16233

5. 1:12

5.12

.032
.011

P4
1.57
1.51
1.14

(7C4
. \_’L
:r
. Ux)

74.5

DATE 5/15/52

(‘0

(U

Cs]

1’. :2

0'1

U"?

DATA Observed RUN NO. 245 SHEET NO. 92 DATE 93/15/53

FITTING - SIZE OF STRAIGHT BRANCH: :5 x 8
SIZE OF 90 DEGREE BRANCH: 18 x 8

ORIFICE SIZE - STRAIGHT BRANCH: 3 x 7
90 DEGREE BRANCH: 14 x 4.

TYPE OF RUN: Test.

-~—----—-~v— -H—... .. fia...~_____..—..._-._.A ...- 1__.____.____ .___._ .-

M -’ “ ...v I ° v, 4
11515 Pa’Pg 1‘4 1’5 P6 We PE 581".
16:57 5.95 .853 .590 .730 75 92 89.35

17:00 5.655 .786 .540 .673
17:03 3.18 .683 .470 .584
17:06 2.77 .509 .410 .511

17:09 2.58 .502 .340 .432
17:12 1.955 .420 .282 .359
17:15 1.64 .352 .235 .500
17:18 1.86 .289 .193 .246

17:21 1.055 .23 .148 .190

17:2- .880 .178 .114 .148

17:27 .500 . 25 .081 .104 74.5 93 39.34
17:30 .307 .084 .055 .078

17:55 .2353 .084 .0875 .045

17:58 .152 .033 .023 .0875

17:55 .008 .015 .010 .0125

17:48 .045 .010 .0065 .008

17:45 .030 .007 .005 .000

17:48 .015 .004 .00?5 .0025 74.5 91 80.34

DATA Observed RUN NO. 344 SHEET NO. 95 DATE 9/13/52

FITTING - SIZE OF STRAIGHT BRANCH: 3 x 8
SIZE OF 90 DEGREE BRANCH: 18 x 8
ORIFICE SIZE - STRAIGHT BRANCH: 2 x 7
90 DEGREE BRANCH: 15. x 5

TYPE OF RUN: Test.
”‘“ '1" m mm” __ :3; “T: ”"2“ ”— 7:033; "2’“ ”"1
Time PS-Pg P4 P5 P6 . VB DB Bar.
£53366” "1225” _3_ fem 4:30”“.357;'7112‘2‘37—né3—1~ ":3“
18: 3 4.11 .505 .375 .345

18:00 5.64 .445 .C 5 .301

18:09 5. 3 .581 .277 .256

18:12 .72 .535 .257 .22"

18:15 .52 .275 .200 .188

18:18 1.98 .550 .171 .161

18:21 1.66 .157: .1423 .154

18:24 .31 .152 .110 .105

18:27 1.08 .123 .000 .083'

18:30 .705 .003 .000 .003 74.5 03 20.04
18:35 .55: .064 .045 .045

18:58 .400 .047 .034 .055

18:39 .254 .050 .021 .020

18:42 .1475 .017 .012 .012

18:45 .00“ .058 .005 .005

18:48 .005 .006 .004 .004

18:51 .050 .0035 .0025 .0005

18:54 .015 .002 .0015 .0015 74.5 89 29.55

DATA Observed RUN NO.

FITTING - SIZE OF STRAIGHT BRANCH:
SIZE OF 90 DEGREE BRANCH: 18 x 8

SHEET NO. 94

ORIFICE SIZE - STRAIGHT BRANCH:
90 DEGREE BRANCH:

TYPE OF' RUN:

 

...:
(0
(n
LO

19:55.

Test

0
O
{\3
1‘0
m

.006
.005
.003
.008

3x8

74.5

m

(‘0

DATE 9/13/32

(31') r7 r:
f’ \ -‘ ¢'
N§ . ‘4‘)

29.3

 

 

 

DATA Observed RUN NO. 24.33 SHEET NO. 95 DATE 0/15/52,
FITTING - SIZE OF’ STRAIGHT BRANCH: 3 x 8

SIZE OF 90 DEGREE BRANCH: 18 x 8
ORIFICE SIZE - STRAIGHT BRANCH: g x 7

90 DEGREE BRANCH: 1;, x 6

TYPE OF RUN: Test.
w_ “1.. -_ ____ - - - -:.__~-:_:.._._.A_:.___::-,- __.q_;.::;:___:::_. 11-1.71;
Time P5~T3 F4 P5 P6 WB 33 Bar.
263bbw'1‘ié «e "“IZ;‘;Ji“"“TinT"’GEE-""93" m”?
20:04 4.11 .2“? .240 .1938
..0:08 0.60 .284 .‘217 .115
3:11 3. 3 .2325 .1523: .008
20:14 2.75 .195 .150 .085
20:17 454 .107 .135 .073
..0:20 1.91 .135 .110 .059
20:25 1.60 .113 .004 .050
2022.0 1.5555 .007 .0775 .045
20:271 1.0.25 .073. .0575. .051?
20:53 .91 .057 .045 .0175 5 88 23.35
80550 .000 .0452 . ”>223 .018
20:30 .40? .099 .0? ‘ .013
20:43 .454- .018 .014 .008
20:45 .141 .010 .0075 .005
00:48 .082 .005 .004 .0 :35-
80:51 .051 .004 .003. .003
20:54 .002: .003 .0023 .0015
P0:57 .012 .002 .001 .001 75 87 29.33

DATA Observed RUN No. 347 SHEET NO. 93 DATE 9/13/52

FITTING - SIZE OF STRAIGHT BRANCH: ,3 x 8
SIZE OF 90 DEGREE BRANCH: 18 x 8

ORIFICE SIZE - STRAIGHT BRANCH: 2 x 7
90 DEGREE BRANCH: 18233- x (3;

TYPE OF RUN: Tea,

Time P3“P2 P4 P5 P6 WE DB fdr.
E" :6? 1..-..-;_7:é_,.-.-.- — féétia "’ ' 1 :1: :57 ” "$17710 0 7 SW“ 87 "in—.3.,
S :04 4. 55 .138 .222 .000

21:07 5.02 .220 .105 .077

21:10 5.15 .195 .1626 .087

21:12 2.77 .172 .140 .057

21:15 2.20 .14' .120 .049

21:18 1.90 .122 .107 .045

21:: 1.605 000 .0025 .034

21:24 1.845 .085 .009 .02R

21:27 1.050 .064 .067 .0225

2 :50 .81 .050 .040 .01? 75 87 20.35
21:35 .905 .037 .030 .015 I

21:58 .405 . 230 .021 .009

21:58 .250 .010 .013 .002

2 :41 .144 .000 .007 .004

21:44 .06“ .005 .004 .002

21:48 .050 .004 .005 .002

21:49 . 52 .005 .002 .0015

21:52 .01? .002 .001 .001 75 80 29.54

DATA CE].CL11?I§€dRUN NO. 214 SHEET NO. (3.7 DATE
FITTING - SIZE OF STRAIGHT BRANCH: 5 X 8
SIZE OF 90 DEGREE BRANCH: 133 X 8
ORIFICE SIZE - STRAIGHT BRANCH: 1 X 6
90 DEGREE BRANCH: 15 X 5
TYPE OF RUN: T831}
m2 34 ..‘f‘f: _ _ 7% 95 _ - F136 5”
.07 1313.2 .087 1.887 200 1100 1350
.555 1208.80 .074 1.514 85 1070 "125:
1.415 1111.88 .005 .535 108 080 1148
1.284 895.25 .050 1.100 153 880 1052
.029 808.;. .055 . 55 25 712 855
.755 585.26 .018 .577 87 510 587
.0505 500.15 .015 .575 74 455 508
.504 500.05 .008 .170 57 542 588
.c75 505.5 .005 .102 43 258 280
.515 245.95 .005 .004 34.6 205 2:1
.549 185.08 0010 .041 87.5 183 180
.2 22 180.74 .0014 .028' 25. 158 181
.1751 158.: .00085 .010 18.8 115 32
.114 88.58 .0004 .008 12.0 72 84

DATA CalculatedRUN N0. 254 . SHEET NO. 973 DATE

FITTING - SIZE OF STRAIGHT BRANCH:

3 x 8
SIZE OF 90 DEGREE BRANCH: 1;; x 8

ORIFICE SIZE - STRAIGHT BRANCH: 1 X 8

90 DEGREE BRANCH: 13

TYPE OF RUN: Test

x 3

M
H
Lo .' 0

Act.

Die. I 5.2"

L. a 6.78'

 

 

 

 

 

 

182.80 .084 1.86 .055
170.22 .070 1
108.55 .080 .55 . 55
140.00 .050 1.08 .020
118.80 .058 .717 .016

88.62 .017 .508 .052

a

“FollowinP values are heyond rrng

.019

r'- r- 44'.
~13~
. Li L] '\ .I

.010

.4“? 01

7.3?

Q '77
‘.. . g‘tfl'

'7'?"
opp,

1‘3 I 00

friction

'5’ '7:
0. .’~ '

Ohrrt.

DATA CalculatefiRUN N0. 3274 SHEET NO. {37:3 DATE
FITTING - SIZE OF STRAIGHT BRANCH: 5

SIZE OF 90 DEGREE BRANCH: 13

vs
2: N
33:30

 

 

 

 

 

 

167.68
43.90
118.45
76077

“9011001

N '00
L».
m)

.002
.001
.0009

.0004

.0179

.0074

Values 3T0

.0011

.0000

befond

of frictmn ch7rt.

35. D18. 2 12.0"
ORIFICE SIZE- STRAIGHT BRANCH: 1 x {3 .100. 7“ 2 123.“:
90 DEGREE BRANCH: 15:. x :5
TYPE OF RUN: Test.
Z ’- L088 R“ 80000.—
£8 736 728 774-786 P5 55. L.a 8;. L.6
1118.55 .078 1.708 .1.;2 .17. 75.00 02.54
1050.74 .007 1.507 .107 .150 71.55 58.5
548.55 .05: 1.40: .027 .1-: 77.71 r4.74
747.25 .04: 1.0.5 .07: .100 75.00 57.54
888.71 .055 .220 .055 .070 75.71 85.05
508.04 .018 .550 .027 .041 55.85 55.18
427.60 .011 .252 .021 .028 75.00 02.54
558.40 .-0 .15' .015 .0188 :3.55 55.07
“259.65 '.004 .028 .015 .012 108.55 85.87
210:27 .005 .058 .005

 

 

 

DATA C810u15’t8d RUN NO. 225 SHEET NO. 98 DATE
FITTING - SIZE OF STRAIGHT BRANCH: 3 x 8
SIZE OF 90 DEGREE BRANCH: 19 x 8
ORIFICE SIZE - STRAIGHT BRANCH: 1 x 6
90 DEGREE BRANCH: 1.; x 4
TYPE OF RUN: Test.

’1 Ps‘Pz ’34 W4 TP4 45 5 05.06 3 333v.
1.927 1514.20 .110 1.240 100 1450 1590 2.9
1.772 1592.40 .092 1.077 149 1520 1409 29.9
1.540 1222.52 .024 .914 157 1510 1447 90.5
1.551 1202.24 .075 .795 127 125 1557 90.5
1.574 1070.00 055 .559 114 1020 1154 20.9
1.2725 909.91 .05 .551 105 945 1050 90.0
1.102 915.02 .0~2 .449 05 550 945 90.0
1.12 501.50 .032 .545 85 740 925 55.9

.259 592.55 . 22 .252 71 020 591 59.7
.7415 552.00 .017 .175 55 525 52: 90.1
.552 501.55 .015 .155 50 455 5.5 90.1
.555 454.54 .0090 ' .000 45. 505 472 90.2
.515 404.2- .0025 .025 40 505 405 90.1
.4.55 545.57 .01: .054 54.5 515 547 90.2
.5770 290.24 .0045 .047 29.5 225 224 90.1
.5178 240.7: .005 .052 24 :25 247 90.5
.249 105.00 .0019 .020 18.2 109 122 90.9
.2075 152.29 .0014 .015 15.2 142 157 90.4
.1752 155.10 .09090 .005 12.5 112 150 90.2
.1049 22.45 .00055 .005 7.5 70 78 20.7

DATA Calculated RUN NO- 225

FITTING - SIZE OF STRAIGHT BRANCH: 5 X 8
SIZE OF 90 DEGREE BRANCH: 18 X 8

SHEET NO.

ORIFICE SIZE- STRAIGHT BRANCH: 1 x 6
90 DEGREE BRANCH: 14 x 4

TYPE OF RUN: Test.

99A DATE

Iilq.
Act.

2 508"
L. q: 6076‘

 

 

C50

“‘5

A

 

152.95
140.85
12
115.01

no
Val .

3

'.48

i)

5
90.99
01.51
83.95
71.95
57.68
49.65

”Follow:

n I?
”(3.:

5:")
O 51..)

.045
.054
.039
.027
.035
.019
.015
.012
.008
.008
.004
.004
.005
.003
.001
.0009
.0005
.0004

.0002

1.802
1.035

.884

.750

.015
o 008

.003

Values fire

.01?

.010

.013
.010
.007
.006
.005
.0055
.0085
.0025
.002
.0011
.0005

beyqfid r?m;

 

EC. L05

Added
ECO. L95

 

11.28
9.85
11.54
15.45
11.59
10.29
11.05
11.11
13.53
10.77
13.00
13.33
10.45
14.0-
13.10
14.71
11.00

9 of frictixn

4.53
5.09
4.78
8.60

(31‘er Q

DATA CalculatedRUN NO. 23?; SHEET NO. {337 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 3 x
SIZE OF 90 DEGREE BRANCH: 1;: x

0003

LG. Dia. 3 12.9"
ORIFICE SIZE- STRAIGHT BRANCH: 1 x (5 Mt. L. . 13.5.3:
90 DEGREE BRANCH: 14 x 4

 

 

 

L080 10000
(1:41; C \1 1:7 6 I; {It a ‘1: 1" 4" (1‘13 6 1:. 6 E Q o L o r; 1: Ci 0 L o 3
1581.27 .116 1.038 .100 .Bit 73.00 57.34

1251.77 .008 .900 .100 .315 74.42 61.70
1160.20 .085 .775 .159 .105 75.14 63.48
1090.25 .074 .674‘ .119 .103 75.00 00.34
970.61 .000 .545' .094 .153 70.88 58.02

890.02 .051 .456 .085 .115 73.91 81.25
831.77 .042 .53 .088 ,.005 71.58 58.03
720.55 .053 .833 .054 .075 72.00 ' 50.34

(7‘.
O

1 .025 .217 .041 .059 70.80 55.05

“'1
431”).

(P

{‘0

III-‘-
['1
P‘ 0
o 0
K] '3
U u.)
o o
C) O
H H
C 2'} “Q
C O
H H
H rib
H N}
o o
O O
{\‘J {0
o o
C O
3.3' R5
3 'w
.p
‘1 1" )
i=- U1
. O
7.) H
()1 I
('1 L
10 U
o o
H W}.
\1 C?

391.97 .010 .084 .01: 002 60000 47034
564.02 .008 .072 .013 . g, 50.09 48.45

314.41 .008 .055 .011 .017 04.71 50.05

260.91 .005 .030 .009 .0 05 04.00 51.34
‘D
823.53 00"qu 0:7 .005

[-4
‘.l
3

c)
I
<3
<3
10
O
o.
*3

o {J '0 004‘

7
14

«2

{‘3
(TI
0

O
C}
H

.011 .002
?3.50 .001 .00? .000

“Followin'

’1'
L‘.

vslue: fire b03008 rrnfie of friction ch"rt.

DATA Cffll c

FITTING - SIZE OF STRAIGHT BRANCH:

ulatedRUN NO- 225‘:

SHEET NO. 99

3x8

DATE

 

 

 

SIZE OF 90 DEGREE BRANCH: 1;; x

ORIFICE SIZE - STRAIGHT BRANCH: x 6

90 DEGREE BRANCH: 15 x 5

TYPE OF RUN: Tee}:

1' 3.172 C4 V3.“ ,1: T174 C15 (:6 [751-76 { :0“
2.074 1C7 ..71 135 .945 39 1600 1729 93.5
1.837 1400.613 113 .70“ 117 147 15 93.6
1 733 1403.13 101 .37 113 1390 1507 93.5
1. 858 1302.r.2 000 .537 133 1360 1332 91.5
1.53 1301 .073 .45“ 95 1150 135: 92.6
1.40 1100.09 .083 .579 85 105' 1135 92.5
1.396 1018.57 .05: .331 79 990 1059 017.5
1.153 883.50 040 .241 CC 750 919 92.6
1.009 793.95 C? .199 GO 750 813 93.6
.755 5.5.-F 019 .105 44.5 550 535 72.4
.63? 499.78 .013 .075 38.5 4C3 537 91.6
.541 475'.11 007 .~5% 51 370 437 93.7
.507 375.55 .00: .047 29 SC? 331 92.6
.443 as .43 .00? .b37 25.8 334 35' 92.6
.3795 298.30 .0047 .027 31.3 200 281 C2.S
.247‘ 195. 36 .0019 .011 3.2 157 17? 93.4
.200 157.1C .001 .007 10.3 143 154 92.9

o 0009

.COiI'

('7;

k.)

8.7

6.1

DATA CalculatedRUN NO. 226 SHEET NO. 99.61 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 5 X 8
SIZE OF 90 DEGREE BRANCH: 18 x 8
Fig. Dig-30 z .2“
ORIFICE SIZE- STRAIGHT BRANCH: 1 x (3 Act. L. , 6.78'
90 DEGREE BRANCH: 15 x 5

TYPE OF RUN: Test

 

______ ..__.___ -....- .. __.
_ ._ .._..__ -..—....

 

 

 

 

 

 

 

Loss Aaded
C50. W5 “:35 Tré‘TI‘S P5 EC. L05 EC. 1105
1L8.83 .035 .783 .062 .510 20.00 15.24

110.51 -.007 .057 .045 .310 21.45 14.07
105.01 .025 .505 .050 .105 15.40 11.70
07.71 .023 .505 .054 .170 20.00 5.5
88.91 .018 .410 .054 .142 2..04 17.15
-35.11 .010_ .355 .020 .120 50.05 15.97
75.55 .015 ’ .200 .025 .100 51.70 14.04
05.8; .010 .220 .010 .092 21.05 15.10
55.07 .000 .170 .011 .007 15.47 0.00
45.00 .005 .101 .004 .041 5.70 5.00
05 .005 .050 .000 .020 20.00 15.95
51.05 .002 .050 .0015 .051 21.45 14.07
20.25 .005 .044 .005 .019 15.70 9.05

25.05 .0015 .0"!
20.50 .001 .00 .005 .0117 25.04 10.05

*-
14.87 .0005 .010 .0015

11.18 .0005 .006 .0007
10.91 .0005 .004 .0007
6.5 .0001 .002

“Following VsluQS rre beyfind rrnge of friction chrrt.

DATA CEilCUlatedRUN NO. 23-3 SHEET NO. 953.1} DATE
FlTTlNG - SIZE OF STRAIGHT BRANCH: 5 x 8
SIZE OF 90 DEGREE BRANCH: 18 x 8
EC:- D130 3 1209”
ORIFICE SIZE - STRAIGHT BRANCH: 1 x G -.
.o —- 4'
90 DEGREE BRANCH: 15 X 5 Aet‘” A... . 12.6C

TYPE OF‘ RUN: Test

 

 

 

L083 :.r7C.6CL
' 9 x j ‘ f". I”. nr-l‘ - ' ‘ 2 I2: 2: (1
tube. I6___ 1R0 1.1“; 118 1'6 1 Q0 L06 ..__0 LOB
1507.48 . 43 .603 .245 .310 78.50 65.73
1580.31 .119 .500 .103 .355 75.03 83.05
1C0:.5 .108 .45 .175 .FCO 73.09 63.4

0
1205.11 .001 .501 .150 .200 78.00 05.5
1112.55 .077 .525 .127 .170 74.71 22.05
1017.58 .055 .270 .102 .142 0.72 64.10
041.02 .055 .25 ..021 .125 72.20 00.14
225.0: .042 .175' '. 03 .004 75.40 50.74
754.12 .054 .152 .051 .077 5 .25 55.57
54 3.17 .010 .070 .022 .040 55.04 70.59

(,a

452.72 . 12 .054 .021 .054 21.70 10
32 4.05 .010 .040 .014 .0735 54.00 42.24
505.00 .000 .054 .015 . 22 50.00 40.45
524. 20 .007 .027 .011 .012 7.45

54.01

«J

O

’1')
P) +4
O
03 54
H

275.84 .005 .018 .009 .0135 32
4

180.79 .002 .007 .004

146.00 . 01 .005 .008

120.55 .0000 .0029 .0021

f

75 U0 92 00004 0001‘;- 0000’:

”Following values are beyond range of friction ch rt.

 

[BAX

FITTH‘

OPIFE:

....
‘C
1)
{'1

" h
- o
o f _ ,—
b ~.
,- ‘_ ,.
~.-~:
'-: I\—_
g.» ‘_
q (A _
-.. .-
3 rh-
.. 'V
‘3 . ' \
~3‘g‘
‘ f‘
L‘»._
§Q‘.J
‘ ‘
,- \
s... .
q

‘I
.L'
7‘5
‘\\" D
'u
1
I S

 

DATA 07.10:)1fitedRUN NO. 0337 SHEET NO. 100 DATE

t...

FITTING - SIZE OF STRAIGHT BRANCH: '2 X 8
SIZE OF 90 DEGREE BRANCH: 1C3 X 8

ORIFICE SIZE - STRAIGHT BRANCH: 1
90 DEGREE BRANCH: -,

TYPE OF RUN: T5381}

 

2.055 1507 06 .13? .)Q0 110 1800 1710 a3.

6
1.900 1407.70 .114 .553 105 1470 157? 93.5

1.40 1100.09 .OCS .204 74 1000 1134 05.5
1.201 990.87 .0E0 .733 C4 900 1024 05.8
1
1

.145 8C 0.78 .041 .103 CO 870 950 05.5
6

.0060 711.53 .036 . :6 43.5 C0 787 93.0
.7015 500.37 .018 .785 80 578 017 05.7
.0505 500.15 .013 .000 CZ.5 400 EEC 03.7
.305 305.25 .008 .03 25.3 570 305 95.7
.383 301.55 .005 .032 10.3 294 505 93.7
.262? 208.35 . 02 .010 12.3 187 103 94.0
.2356 175.70 .0018 .C08 13.0 1C3 174 03.7

{D
0

§
I. 3
C

H
.5
L‘.)
C’)
CAI
o

.53

.1788 14$.50 .001 .004

no
(1‘
51-:
0

L0

.109 85.65 .oaoza .002 6.1 95 9-

DATA CalculatedRUN No. 227 SHEET NO. 100A DATE
FITTING - SIZE OF STRAIGHT BRANCH: 5 x 8

SIZE OF 90 DEGREE BRANCH: 18 x 8
EQ. D181. 8 508”

ORIFICE SIZE- STRAIGHT BRANCH: 1 x 6 Act. L. a 5.7.3.

 

 

 

 

90 DEGREE BRANCH: 15;;— x 5:»!
TYPE OF RUN: TeSt
’--"___*_IL§E-"M"7"""::3:7:;C::1
Qsc VP5 TPE TP4~TP5 P5 Fa. L.5 ”a. L.5
107.07 .028 .C40 .OC? .305 273.?1 21:53 _
102.34 .024 .594 .058 .190 31.11 84.35
97.C5 . 31 .50Q .047 .184 29.66 81.90
90. 51 .018 .440 040 .147 27.40 20.64
82.78 .015 .575 .030 .120 “0.00 22.04
77.64 .013 .313 038 .110 32.73 25.97
71.51 .011 .ECC .02; .005 30.?“ 23.77
81.45 .009 .315 .035 .070 33.9v 28.10
58.48 .008 .177 .010 .005 29.35 93.47
51.50 .006 .130 .014 .050 28.99 20.16
45.54 .005 .110 .015 .04? 50.95 24.19
57.70 .003 .077 .008 .030 20.07 19.91
51.51 .002 .08; .0053 .0215 10.67 19.91
24.90 .001 .035 .004 .0140 77.; 20185
18.99 .0009 .020- .0023
2.38 .0004 .000 .0010
11.07 .0003: .006 .0017
8.85 .0002 .004
Following Values are be onC rcn:e of friction cEarrt.

DATA Gale‘s-.2 g_-;edRUN No. {537 SHEET No. 1.303 DATE

In
.—

FITTING - SIZE OF STRAIGHT BRANCH:
SIZE OF 90 DEGREE BRANCH: 1:.

aa

.a‘\

: ()1

P ‘
k.-

"I
J].

b;

ORIFICE SIZE- STRAIGHT BRANCH: 1 x
90 DEGREE BRANCH: 15,3. x 5 ‘.

?."J-|

TYPE OF RUN: Tea-9;,

 

 

 

 

 

 

 

Loss. Aclr . r‘
‘00 V90 798 794-708 76 Eq. L.8 Eq.
1574.68 .155 .053 5.349 .:50 74.33 61.:
1496.72 .1.0 .410 .23 .Lro 73.07 64
1400.35 .-33 .zko .205 .235 77.30 04.70
1301.03 .100 .304 .170 .230 73.52 63.86

1210.61 .002 .802 .140 .202 73.70 01
1115.75 .078 .232 .127 .172 73.84 01
1028.58 .000 .188 .107 .144 74.81 81

023.44 .054 . 53 . 03 .130 71.07 5? 01
B‘l‘lol’g4 004.4 0185 OO'PI 0100 71000 5'9...)

50.20 .055 .033 .055 .001 0 .90 55
605.08 .028 .070 .044 .003
500.87 .030 .058 .020 .048 00.42 47
408.64 .014 .040 .030 .035 57.14 44
570.35 .000 .024

00.07 54 01

282.30 .005 .014 .008 .014 57.14 44.48
b
193.97 .002 .000 .004

104.05
151.65
80.43

.002
.001

.0004

“Following

.005
0005

.0014

.005

.001

.0000

Blues are heyoné rvuge of friction chrrt.

DATA C51 0111' LedRUN NO.

FITTING - SIZE OF‘ STRAIGHT BRANCH:
SIZE OF 90 DEGREE BRANCH: 1.3.3 7; E:

f,
.-

(S

{-37.8

ORIFICE SIZE - STRAIGHT BRANCH: 1 x 6
90 DEGREE BRANCH: 13 x 5

TYPE OF RUN: TC 57?;

SHEET NO.

101 DATE

 

 

 

 

73-58 04 774 TF4 05 06 ”5+Qe 01v.
2.15; 075.71 .145 .q00 105 1570 1770 04.0
2.10 1502.75 .1: .534 100 1500 1500 04.0
1.010 1505.55 .115 .474 04 1500 ,1554 04.1
1.705 1405.40 .100 .410 57 1570 145 94.0

1.052

200. 11

1109.10
1085.95

902.80
800.335
711.52

50533. 65

o 0'31?
.001

.000323

DATA CalculatedRUN No. 228 SHEET No.10“x DATE

FITTING - SIZE OF STRAIGHT BRANCH: 5 x 8
SIZE OF 90 DEGREE BRANCH: 1;; x 8
En. Dia. : 5.2"
ORIFICE SIZE- STRAIGHT BRANCH: 1 x (.3 A00. 1.. 3 6.7«3'
90 DEGREE BRANCH: 15 x 5

TYPE OF RUN: TEST.

 

 

 

64.c0 .010 .z t .044 .1;0 54.0: 27.1%
75.3 .015 .714 .0.. .100 ;§.:7 .3.:;
70.75 .011 .23; .033 .00. 05.40 0r.72
04.07 .000 .21: . 02 .0775 30.70 20.00
50.:3 .000 .104 .022 .00: 33.05 27.09

52.37 .008 .146 .018 .055 38.90 27.20
0

€0.13 .005 .117 .015 . ed 85.71 3°.“R
40.56 .004 .000 .012 .0545 34.79 28.03
33.21 .003 .000 .009 .024 33.35 38.57
38.71 .003 .044 .005 .019 23.33 19.58
”22.18 .001 .028 .004 .0117 34.19 37.43

10.27 .0008 .0156 .0024
11.91 .0005 .0073 .0037
11.14 .0003 .0005 .0007

8.57 .0008 .0052 .0008

‘ Following value? are beyonfi rrn e of friction chart.

DATA C pl CU.

FITTING - SIZE OF STRAIGHT BRANCH:

1 ,0
.55.;9

ed RUN NO. 2:23

SHEET NO. 1013. DATE

'1
0.)

SIZE OF 90 DEGREE BRANCH: 18

x8
x8

 

 

 

 

 

 

Tiff. Din. u 1.73.9”
ORIFICE SIZE - STRAIGHT BRANCH: 1 x 8 fiat. L, a 1 3.1"
90 DEGREE BRANCH: 13 x 8
TYPE OF RUN: Terr-t
“. "fl_— Lore - .1: fift03
1%;0 vpe 00C 001-00“ T0 ac. L'0 :: 1 0
11105.17 .100 .33: -.504 .340 77.0: 04.00
11107.21 140 200 ..55” .«03 77.00 an .00
10010.72 .12? .207 .007 .070 70.07 04.01
14: 0.; .100 .201 .170 .22: 70.17 0: 5
12.2".8 2 .0134 .2200 .150 .2023 71.20 01.00
1128.03 .000 .109 .127 .172 75.94 01.12
1021.00 .005 .1: .102 .415 70.34 07.0..
9480: .050 .118 .000 .125 0.40 07.74
80'.40 .045 .00: .000 .100 07.05 54.09
'700.22 . 30 .077 .055 .003 00.07 53.01
870.00 .020 000 .040 . 00 00.04 50.00
540.40 .010 .000 .020 .04: 00.07 40.01
400.0: .014 .000 .000 .0500 57.07 43.01
175.05 .000 .010 .013 . 037 50.15 0.5
‘20:.00 .005 .011 .007 .010: 40.¢0 "0.04
100.00 .00: .004: .0035

.0025
.001

in} . VE‘

.002

Ines are

1:: 03102-10

17.011328 of

friction chvrt.

DATA CalculatedRUN NO. 800 SHEET No.103 DATE

(J

FITTING - SIZE OF STRAIGHT BRANCH: :5 x 8
SIZE OF 90 DEGREE BRANCH: 18 x 8

ORIFICE SIZE - STRAIGHT BRANCH: 1 x 6
90 DEGREE BRANCH: 16-21: x 3;.

TYPE OF RUN: Test.

 

 

 

 

\l P 3P2 Q4 V24 T234 {,5 (:10 01.51.06

 

21.105 1701.21 .147 .240 100 1700 1200
:3.020 1504.55 .120 .4 1

.900 1407.70 .114 .125 02 1550 1012
7

1

1.787 1404.18 .100 .553
1'658 113'“ o0???- .312 75 1500 1.2775
1

05.195 191’") ?4. 007 of»? (It. 1"’) 1.. O
1.. 500 1070.00 .000 .012 02 11‘“ 11“
1.225 057.75 .040 .177 53 :70 104:

H
I
H
p.
()1
CO
‘3
‘3
O
\1
1 U
o
0
I35
H
I
g...-
,5
in
|~'
’9
' .3
'CJ
'0
’1‘...
H

H
o
O
L )
"D
C.)
...-I
o
”1
O
o
(.13
.- f‘4
I )
3":
()1
‘1
'9
O
\1 (‘0
r u
(n

.“05 71101:: .026 .C’B 8:3.5 ”.733 (“‘3
.755 E98042: 0018 00:4 3.3.5 57’) (.3:

.40: 502.10 .002 .020 21.5 400 421

14 .004 .010 15.0 500 210
.255 200.57 .002 ‘ .007 10.0 212 :25
.250 150.75 .0017 . 00 9.8 155 1
.1700 140.50 .001 .005 6.8 140 155
1

r '5': -‘v :3 , ' I- I“.
(...-5:, 90.20 .0305 .03.: 6.1

DATA Calculated RUN N0. 32; SHEET NO.IOF,A DATE
FITTING - SIZE OF STRAIGHT BRANCH: 5X 8
EHZEIOF'QOIDEGREEIBFMHWCH:13x 8
RC. D13. - 5.8"
CDRHWCESHZE-vSTRAMSHT ENUUWCH: 1 x 6 Act, L..: 6.78’
90 DEGREE BRANCH: 1.3:: x 6::-

TYPE OF RUN: Test

 

 

 

Loss 4."
TP4‘rE)5 Pr Ego L05 7

 

 

.401 .065 .100

$35. 27 0 40.03 04.87
537.60 .017 .485 .059 .138 4?. 03 55.27
5K3.88 .015 .370 .055 .117 45.30 53.54
'77.25 .014 .?L .045 .108 39.81 53.05
71.EK3 01 .373 .0110 .095 43.11 55.3

14.78
9. F3

Dan
\-

VI“: 0

G ”7
0 L‘s)

“Follovinfi

.002

.0014

.0003
.0005
.0002
.0002
.0001

W: 111 F? 7»:

f9"

. at)":
.0238
.0 55
.0053
.0052
.0

.00'5
.0009
.0008
.0004

rre teyonfi rrngw

.090

.047
.05 5

.f‘. f"
. Vt;

.034
.0130
.010

of

45.00
44.80
41.82

4W

0 o“
N! O liL'

43.67
45.33
41.97
48 . 5::
52.00

friction

Ch" rt .

DATA Cg‘lculgitedRUN NO. 23;; c DATE

LL'

SHEET NO. 1038

FITTING - SIZE OF' STRAIGHT BRANCH: 3- ); {3
SIZE OF 90 DEGREE BRANCH:18 x 8

ORIFICE SIZE- STRAIGHT BRANCH: 1 x (r,
90 DEGREE BRANCH: 15‘; s: 6};

 

 

 

 

LCC' iiied
{Lac VI}; '1; 53. ...}; :8 "G Eff. 1...,3 3?. L‘G
11:05.94 .lC-l .290 ..‘(3 7 . :0 73.00 533.34.
150 .3. 66 .140 ...-4'7 .364.- .CO? "(5.57 33.53
1416.82 .12.; .2231 .220... .273. 73.228 01.60
1 "31' 6.9 .110 .190 .177 .2553 75.5.: 333.66
13351.10 .03? .130 131 .210 71.30 50.24

113‘.33

16>: 3.36 007 .113 .100 .133 04.. 5:.
<‘34.53 .055 .030 .03: . 2: :20..0 33.
(931.14 .033 .073 70 .10 09.03 55.
753.22 .030 .039 ..53 . 93 07.37 54.
072.75 .023 .043 .049 .007 34.13 51.

.0230
.031

.048.

.0: i)

82 . ..O

P. n '1
:8 I (th

873.30 .003 .013 .019 . 230 53 .73 43.
‘230.39 .0c5 .003 .007 .014 50.00 37.
13. 55 .0 2 .003 .003

'«9 :1
”Ollowina values are beyo

0039
. \ ‘ .0; 'd"

.002

.0025

001

C
-, _:-. ‘l‘ .0
A) kl. I (H 1;,-

-. . 1"
(r: O;

friction ch:

3rt.

 

 

 

 

 

DATA CalculatedRUN No. 25-0 SHEET NO. ”105 DATE
FITTING - SIZE OF STRAIGHT BRANCH: 5 x 8
SIZE OF 90 DEGREE BRANCH: 18 x 8
ORIFICE SIZE - STRAIGHT BRANCH: 1.3;. x 33;
90 DEGREE BRANCH: 15 x 3
TYPE OF RUN: Test
\lras-pz 04 704 734 05 Q0 C5+50 é 01v.
1..711 1544.47 .002 1.702 2.0 1150 1500 50.8
:1.053 1502.02 .000 1.700 2 0 1100 :23 00.9
:1.525 1105.74 .072 1.452 253 1000 252 50.5
21.30 1100.00 .007 1.212 210 050 1133 00.0
21.257 057.75 .047 .070 155 520 10:5 51.0
21.133 002.30 .031 .735 17, 750 090 31.0
1.c11 735.04 .052 .522 104 005 023 50.2
.905 711.15 . 25 .501 150 500 790 51.0
.755 505.20 .013 .540 112 40" 507 51.2
.5525 407.01 .015 .25? 04 410 504 91.5
.500 507.00 .000 .155 75 :25 400 51.5
.5? 203.53 .0045 .057 -5 23 297 51.5
.255 139.90 .002 . 50 55.. 155 100 51.0
.202 177.50 .0010 .050 5 140 172 01.4
.1517 132.70 .001 .010 25 100 154 81.5
.114 80.50 .0004 .007 15 65 21 21.5

SHEET No.103A DATE

FITTING - SIZE OF STRAIGHT BRANCH: :5 x 8
SIZE OF 90 DEGREE BRANCI"'|:l.f-:J x 8

)

£0. Dia..: 5.8“

ORIFICE SIZE- STRAIGHT BRANCH: 1.}. x .31 Act. L. . 5.73:

90 DEGREE BRANCH: 1;; x 5

TYPE OF RUN: Test.

 

 

 

Adfied
3C0 L05

4:)

PC W5 '1"?

 

 

5
258.14 .150 1.70 ~3.€2

248.84 . 59 1.800 .03 .950 3.85 ~2.91
220.77 .119 1.597 .033 .810 4.08 ~2.74
210.12 .099 .179 .035 .630 4.7"J ~1.0%
137.07 .08 .95 .030 .530 5.19 ~1.58
171.54 .000 .771 .023 .400 0.2 -1.55
157.14 .056 .608 .014 .410 3.42 -3.34
135.11 .041 .48. .018 .300 6.00 -.70
111.53 .038 .328 .014 .530 8.36 -.40
92.94 .019 .233 .018 .155 11.61 4.85
74.55 .013 .149 .000 .100 8.00 -. 8
55.38 .037 .083 .004 .058 6.90 .14
58.50 .003 .035 .003 .020 10.34 0.58
35.05 .0025 .0285 .0015 .034 6.2' -.5
1123?.70 .0018 .0178 .0014 .0190 8.45 1.67
16.57 .0008 .0068 .0004

:g values rre beymnd rvn;0 of friction chrrt.

 

 

 

244.00

“Following

 

 

.031 .037

.0008 oOlUL

OC’C'OS 9‘0!)sz
values

are b

e~
’0

.0107

0)
L33
0

,5;
Cu

DATA CglculatefiRUN NO. 2;: SHEET NC. 10:33 DATE
FITTING - SIZE OF STRAIGHT BRANCH: 3 x 8
SIZE OF 90 DEGREE BRANCHzlf’, 3 8
PC. 1...]in ' 1:00"
ORIFICE SIZE- STRAIGHT BRANCH: 1%. (3.1 Act. L. 3 13.5.3
90 DEGREE BRANCH: 1,3 x 3
_ LOT“ Afifpr
9'11 PM. "7*. .. T‘.‘ T“ T '-‘
Q CC “8 .2.6 .44 .6 .6 “C. “6 rd. “of
1083.33 .0743» 1 . CC/E. . 12-18 ICU {‘0 . CO ‘5'? . 34-
IOLJ.93 .033 1.578 .157 .15. 83.Cl 70.35
(“LN-3007 00:.) 1051):; 0125 1‘52) 940163 blot-'6
889.97 .049 1.11” . 93 .11? 85.04 70.58
830.05 .040 910 .039 .072 75.00 03.5
731.3: .03. . 53 ‘..59 .077 75.33 62.88
3-3.50 .035 .577 .OQS .073 73.00 €2.34
S7C.C. .021 .47? .CS .0: 74.5. {1.75
éfll.75 .014 .314 .O?‘ .037 7».27 57.C
4W4.c7 .310 .233 .025 .0265 94.39 81.5%
323....5 .007 .144: 001.1 .0178 "" €9.50 3094'

p a
’ 0"; _I‘\

xx" 5.! O U

‘ction chart.

 

 

.‘u‘j

DATA CalculatedRUN No. 2:51 SHEET NO. 104 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 5 x
SIZE OF 90 DEGREE BRANCH: 19,-.

ORIFICE SIZE- STRAIGHT BRANCH: 131 x (‘3.
90 DEGREE BRANCH: 14 x 4

TYPE OF RUN: Test,

 

.—_——_—_—.—__— —_——_.-.—-.——— .—._-_

 

 

 

1.947 1529.91 .118 1.17% 213 :93 as; 15.7

 

1.91 1500.54 .114 1.144 210 1360 1570 86.6
1.783 1401.05 .009 .931 195 1260 1553 86.6
1.645 1331.04 .094 .554 193 1160 1340 86.6
1.53 1204.60 .575 .7?6 66 1003 125C 86.8
1.403 1102.45 .063 .612 153 900 1143 86.6
1.273 1000.30 .05 .503 188 900 1038 66.7
1.149 902.66 .041 .404 135 805 928 66.7
1.01 705.64 .082 .509 106 700 806 66.8
.905 711.13 .02% .244 84 630 714 86.8
.768 605.48 .018 .175 79 525 604 66.9
.631 405.63 .013 .119 64 4C5 400 67.2
.513 405.11 .008 .078 58 548 400 67.0

.3875 504.49 .005 .0é4 38.5 300 209 87.0

N
09-
H
U‘
U}
...:
«I
(.0
00
G:
0

CD

.250 196.45 .003 .018

{\7
O
O
U?
[.4
C .1
I L3
f I
(
CO
0'3
0
(a

.219 173.09 .0015 .015

H
La)
0

4’ i
H
O
”J
H
C.)
C,‘
0'.)
q
0

EU

.1817 143.78 .001 .000

.1265‘ 90.40 .0005 .004 10.4 70 80 87.5

DATA calculgtedRUN No. 2;; SHEET NO. 1045 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 5 X 8
SIZE OF 90 DEGREE BRANCH: 18 X 8

Ec. Dia. 3 5.2"
ORIFICE SIZE- STRAIGHT BRANCH: 13-: x 5.}- Act. L. 2 5.7g:
90 DEGREE BRANCH: 14' x 4‘

TYPE OF RUN: Test

 

 

550

 

 

205.45 .005 1.155 .055 .550 .55 1.57
201.11 .0
157.74 .050 .540 .011 .500 .52 .55
175.00 .0

155.01 .057 .795 .054 .420 5.10 1.54
147.75 .045 .555 .037 .555 7.40 .54
155.04 .040 .475 ..54 .505 5.14
150.05 . 55 .555 .015 .355 7.75
104.70 .025 .505 .015 .155 5.50

95.87 .020 .25 .013 .157 8.28

(TI
1.)

a: rd #4 hi I4
O
(n
c:

79.08 .014 .164 .011 .11? 0.75
€5.47 .009 .11? .007 .075 9.35 0.

o
(I)
'Q N}

3
(TI

52.40 .005 .075 .005 .055 5.45 2.57
50.55 .004 .0415 .002; .0555 7.40 .70
55.52 .002 .017 .001 .0155 6.55 -.45
25.25 .001 .012 .001 .0150 7.94 1.15
15.25 .0007 .00'7 .0015
5.4: .0004 .0054 .0000

”Following vslues are beyond r3050 of frictlfin ch5rt.

DATAcglculated RUN NO. 231 SHEET No. 104:3 DATE
FITTING - SIZE OF STRAIGHT BRANCH: 3 x 3

SIZE OF 90 DEGREE BRANCH: 1,0, x 8
En. Big. 2 1?. 0"

ORIFICE SIZE- STRAIGHT BRANCH: 11 x g; .5012. L. : l(

90 DEGREE BRANCH: 14 x 4

TYPE OF RUN: Test.

 

 

 

L055 10055

“a a 3 mw -fl‘ ' F V
“*JC v1 6 I’fl} 8 a A. L. 6 P8 «HQ. L06 «:0. L06)
1526. F .110 1.000 .17? .230 5.74 10.08

”00.70 .108 .903 .173 .250 77.39 64.70
1213.11 .003 .853 .143 .203 73.40 £3.74
1118.04 .073 .708 .12? .17? 7..EC £3. 0
1045.57 .057 .5 5 .105 _ . 55 71.05 57.5-

*.
170.15
148.88
124.50

.0.08

”Following

.057
.047

.058

.050
.074
.017
.012
.005
.004
.003

.0'31
.001

.0005

.010
.007
.003

veluec are

beyond rrnge of

7'.{4
7?. L

frict10n chart.

DATA CalculatedRUN NO. 253 SHEET No.105 DATE

FITTING - SIZE OF STRAIGHT BRANCH: '2 X 8

LI

SIZE OF 90 DEGREE BRANCH: 18 X 8

ORIFICE SIZE - STRAIGHT BRANCH: 1,3: 1: p3.
90 DEGREE BRANCH: 15 x 5‘

TYPE OF RUN: Test

 

 

T5575; Q4 “‘4 5:4 45 146 “>556

H

 

 

 

2.081 1635.2 .135 .777 172 1503 1733
2.05 1595.15 .129 .751 168 1580 1008
1.91 1500.84 .114 .664 56 145- 1636
1.789 1405.76 .100 .585 145 155~ 1495
1.648 1294.97 .085 .494 134 1210 1554
1.529 201.46 .075 .435 135 1125 250
1.599 1051.45 .051

1.269 907.15 .050 .887 101 515 ‘1038

1.145 899.72 .041 .334 91 833 921
1002-5 805043 003'? o 33 8‘1 7‘13 9?].

1
.938 729.20 .027 .152 73 605 737
.7415 582.66 .017 .0

.658 501.55 .015 .071 40.0 455 505
.507 3:8.50 .008 .045 38.5 350 593
.5825 500.40 .005 .036 29.5 270 200

0

DJ
U!
......I
H
O
(‘4‘
H
‘23
o

O
...:
H
H
H
(i)
:5.

37.83 . 8.5 175
2

02256 175070 0:791!) .609 So 180 17”

144.98 . 15.6 123 13'

O
H H
(D
.35
UT
0
C)
...-l
O
O
O
('7

14 89.58 .0004 .003 9.6 100 110

DATA calculatedRUN NO. 353 SHEET NO. 105.1 DATE

 

 

 

 

FITTING - SIZE OF STRAIGHT BRANCH: 3.. x (3
SIZE OF 90 DEGREE BRANCH: 18 x 8
EQ. Dia. - 5.2”
ORIFICE SIZE- STRAIGHT BRANCH: 1.3; x (3.3; Act. L. a 6.70'
90 DEGREE BRANCH: E, x 5
TYPE OF RUNzTest
~— -1 Loss H Added
L53 VP5 TP5 TT4*T?5 P5 Eq. L.5 “q. L.R
161.90 .059 .735 .053 .430 12.08 5.55
150.51 .057 .700 .051 ..C 12.14 5.38
145.58 .048 .618 .046 .303 12.78 6.03
39.17 .044 .548 .030 .3-: 3.00 5.24
128.20 .05 .481 .06“ .270 11.96 5.20
120.15 . 5’ .394 .029 .245 11.84 0.08
100.14 .027 .300 .030 .303 18.68 5.93
97.73 .082 .205 . 28 .171 12.87 8.15
89.07 .018 .014 .030 .140 14.20 7.55
479.74 .014 .1715 .0145 .110 15.18 6.42
71.40 .011 .130 .014 .0985 15.14 8.58
53.94 .007 .007 .009 .000 1..33 0.57
49.65 .000 .003 .005 .050 10.00 5.84
59.04 .004 .0415 .00"b . 52 10.04 4.18
22.14 .002 .074 .00? .010 10.53 3.77
19.3? .0008 .000Q .0012
15.00 .0000 .0076 .0014
14.70 .0005 .0055 .0005
8.15 .0001 .0020 .0004
”Following values pre beyond rsnge of friction chart.

DATA CalculatedRUN No. 333 SHEET NO. 1053 DATE
FITTING - SIZE OF STRAIGHT BRANCH: 3 X 8
SIZE OF 90 DEGREE BRANCH: 18 x 8

FCC. 1:318. 3 1209"

GA 1‘1.th Lo 3 12068.

ORIFICE SIZE - STRAIGHT BRANCH: x
x 5

11.-
90 DEGREE BRANCH: 1;

TYPE OF RUN: Test

 

 

 

 

 

CLGC V'Pe TF6 TF4-TP6 P8 EQ. L06 LC. L06
1273:32 .1551 .674 "1.205 .255 "09.81 50.15
1435.62 .129 .551 .200 .220 68.97 50.31
1255.26 .115 .490 .174 .240 70.75 53.07
122:.50 .101 .43 .154 .710 71.3 50.64
1100.77 . 05 .555 .123 .185 75.14 62.48
1081.51 .07: .504 .11: .100 74.31 €1.72
202.5 .001 .201 .005 .135 70.3' 27.71
830.43 .051 .2015 .0725 .114 62.80 52.:
010.05 .041 .161 .003 .03. 70.97 52.5
725.08 .055 .155 .051 .077 20.23 00.57
057.74 .027 .100 .043 .-0. 61.25 55.59
522.72 .017 .000 .02? .044 59.09 40.43
451.70 .015 .052 .019 . 52 57.59 44.0:
359.35 .002 .033 .012 .0215 53.91 45.15
“271.22 .005 .019 .007 .013 55.85 41.10
177.90 .002 .002 .003
59.71 .002 .007 .002
130.19 .001 .004 .002
81.43 .0004 .0024 .0006

 

“Following values are beyand rrnae of friction chart.

DATA 081 culptedRUN NO. 333 SHEET NO. 106 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 5 x 8
SIZE OF 90 DEGREE BRANCH: 1:3 1: 3

ORIFICE SIZE- STRAIGHT BRANCH. 1.3:. X 63
90 DEGREE BRANCH. 1:03 X 5;.

TYPE OF RUN: Teet

 

 

 

\l F's-Pg c4 - 5-4 T34 5,54“ C26 36""36

1.15 1673.71 .143 .647 LC 16CO 1795

 

 

 

 

3. 54 597.49 .129 .53 149 CC' 1679
1.908 1499.37 .114 .522 1C6 144” 1570
1.775 334.78 .OES .443 12C 1:53 14;:
1.658 1532.112 .GCC .399 113 253 1373

1.527 1153. 89 .075 .321 107 1140 1747

1.405 1102.45 .053 .277 55 05 1146
1.26 5 1009.75 .052 .250 3 {:0 1040

8
1.145 839.72 .041 .192 75 050 923
1.0 785.78 .031 . 33 C

.883 693.84 .034 .107 CO 647 37

.7415 5.18306" ‘01,? .IP77 5!) 5" ) 5\:E
.350 4 3. 4 .013 .055 42.5 46) 50.

'.U

0
.515 40 .6

.p.

0
501.35 .005 .030 25 288 293
O

'29 " r:
o udpu
.2549 200.30 . 3. .039 16.2 1?“ 1'?0

7C!
{‘1 1
U]
{I}

177.43 .0319 .007 15.6 149 82
.1887 148.28 .001 .005 3.0 C3 144

.13 C 102.5 .0005 .0025 8.5 95 102

 

 

 

 

DATA calculatedRUN No. 255 SHEET No. 108A DATE
FITTING - SIZE OF STRAIGHT BRANCH: 3 x 9,
SIZE OF 90 DEGREE BRANCH: 18 x 3
Eq. D13. : P5.23"
ORIFICE SIZE - STRAIGHT BRANCH: . x63 got. I... . 37¢:
90 DEGREE BRANCH: 153:3: x5}:
TYPE OF‘ RUN: Test.
Lou. fidcgam

050 7P5 TP5 T?4-TP5 P5 Eq. L.5 E0. L.5
143.94 .047 .589 .058 .350 10.57 9.81
142.18 .045 .549 .048 .340 12.35 9.59
128.94 .037 .474 .048 .33 14.00 7.79
121.54 .055 .410 .03.Q .25 15.:0 8.44
112.04 .0?38 .557 . SE .8? 14.55 7.79
105.19 .034 .290 .029 .18* 15.C8 8.? 2
95.71 .020 .250 037 156 17.51 10.05
85.83 .017 .203 .031 .130 16.15 0.39
76.48 .031 .184 .018 .105 17.14 13.3%
60.79 .010 .124 014 .091 14.9* 8.15 ‘
58.98 .008 .006 .011 .085 1?.50 5.74
48.94 .005 .0075 .009f .048 20.05 18..
43.08 .004 .049 .00: .035 16.87 9.91
54.80 .005 33 .001 .023 11.54 4.78
“25.61 .001 .017 .005 .0158 18.99 18.23
17.85 .0007 .0077 .0013

15.20 .0005 .0055 .0015

13.31.0003 .0043 .0007

9.01 .0003 .0032 .0005

“Following values rre beyond range of frict1:n chart.

DATA Calculateé RUN No. SHEET NO. 100:3 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 3 X 8
SIZE OF' 90 DEGREE BRANCH: 18 X 8

235

E0. Dia. : 12.9“
ORIFICE SIZE STRAIGHT BRANCH. 1.1 x 6 Act. L. 3 13.55:

1
90 DEGREE BRANCH 151 3151

TYPE OF RUN: Test.

 

 

 

 

 

 

 

Loss A6606.
5460 W6 T96 TP4-Tf‘6 P6 Eq. [“6 Eq. L.6
iEE .77 .140 .424 .229 .919 70.79 0.19
1455.91 . 92 .979 .212 .200 74.99 01.79
1970.99 .110 .994 .109 .250 70.2 0 .04
1279.42 .101 .299 .100 .220 72.79 93.07
1120.70 .099 .209 .190 .19r 71.59 90..-
1090.70 '.075 .21) .110 .105 70.9 57.04
1000.74 .00. .120 097 .142 09.91 05.05
929.90 .059 .101 .079 .110 00.10 05.44
029.24 .042 .119 .00< 094 07.02 01.93
710.99 .092 .007 .099 .070 05.99 52.07
094.00 .025 .070 .097 .000 01.07 47.01
599. 2 .019 .090 .027 .049 01.90 49.70
402.90 .019 090 .019 .099 57.59 04.92
999.00 .000 .029 .019 .0220 57.02 A4.90
.275.74 .005 .019 .007 .0191 51.99 97.19
102.47 .002 .005 .004
102.17 .002 .0049 .002:
195.97 .001 .009 .002
99.98 .0005 .0015 .001

“Following

values Ere beyond rsng

0 of friction chart.

DATAquc-ulated RUN NO. 354. SHEET NO. m7 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 3 x 8
SIZE OF 90 DEGREE BRANCH: 1.3 x g

ORIFICE SIZE — STRAIGHT BRANCH: 1;.

1
. x -1
90 DEGREE BRANCH: 15 x ”I”

CDC)

TYPE OF RUN: TEE-t

 

 

r. ‘r x: "if. (‘5 f"
15342 94 «14 n4 .5 ~2

 

 

 

2.027

1.918 1505.55 .115 .449

2.155 695.36 .145 .557 14% IKTO
l

1540

1450

1.784 1401.85 .099 .534 113 353 148C

1.042 1295.25 .004 .522 03 1:50 1255
1.529 1201.40 .075 .220 99 1100 1"3;

1.

m .3.
.3350

'1

10’8.35 .uil . 93 81 983 1031

7

,.-
”'3

R)

898.65

l-' H H
O
H
F1
(‘1

.035 819.23 .133 .139 .1 770 P34
.9 58 711.78 . :5 .09? 5: Ci; 7:1

597.83

.‘38 4?9.78 .013 .OéR 35 456 495
.501 395.€9 .008 .030 31 34' C74
.585 3 3.53 .005 .01? 2? d7? 23‘
.249 95.86 .005 .007 13.6 170 184
.2238 175.7L .0018 .0056 3.0 145 157

147.10

99.40

 

 

 

 

 

DATA Calc._llgtedRUN NO. 334 SHEET NO. 107A DATE
FITTING - SIZE OF STRAIGHT BRANCH: 5 x 8
SIZE OF 90 DEGREE BRANCH:18 x 8
E0. D18. 3 5.3"
ORIFICE SIZE- STRAIGHT BRANCH: 1.3,: x 6} Act. I" _._. 6.7g}:
90 DEGREE BRANCH: 15 x 5

TYPE OF RUN: Test

—— Loss 11:25:21 “
£2533 , VETS 7P5 T154-‘I‘E-‘5 P5 Esq. L.5 It. L.5
137.16 .0423 .5 0 .051 .515 16.10 9.45
1.35.. :5 .038 .443 .040 .270 18.15 11.3
118.94 .053 .400 .045 . 2.4 17.93 11. 18
110.74 .0239 .545 . £39 .2110 18.57 11.81
99.35 .ONB .280 .0134 .175 19.05 12.??3
94.08 .020 .250 .03 .1630 18.75 11.90
“4.95 .016 .8023 .0235 .150 19.23 12.47
70.231 .014 .1713 .0231 .113 18.58 11.93
00.63 .011 .134 .018 .000 20.00 18.24
6.3.62 .003 .1115 .01"5 .075 235.55 6.57
55.52 .007 .084 .012 .060 20.00 13.04
47.:.4 .005 .050 .0053 .044 18.1.3 11.4.2
20.48 .004 .042 .008 .0553 18.73 11.90
52.C8 .002: .0536 .004 .024 16.87 9.9-1
(”3°60 .001 .015 .005 .0135 223.22 15.4“
14.87 .0005 .0055 .0015

13.35 .0004 .0044 .0012

11.553 .0003 .0035 .0007

”Values which follow are beyond the T¢DQG of the friction chart.

DATA CalculatedRUN No.854

SHEET No.1073 DATE

 

 

 

 

 

 

FITTING - SIZE OF STRAIGHT BRANCH: 3 x 8
SIZE OF 90 DEGREE BRANCH: 18 x 8
321.319. :- 12.9"
ORIFICE SIZE- STRAIGHT BRANCH: 13; x 03: got. L. g 12.68'
90 DEGREE BRANCH: 18 x (-3
TYPE OF‘ RUN: Test
‘ Lbss * ________ 13:37:63."_"

£60 V135 TPB TP4-TPS P6 Pg. 14-6 33a. Ins
1556.50 .151 .5 9 .239 .5175 73.9?» 60.5
1468.95 .135 .287 .211 .730 723.763 €0.10
1386.61 .120 .254 .189 .255 74.12 €1.46
1201.00 .104 .221 .163 .225 72.44 50.72
1190.90 .089 .193.Q .134 .105 00.78 08.01:
1108.54 .077 .193 .117 .170 88.82 56.10
1004.14 .065 .155 .004 .140 67.14 54.48
023.45 .055 .112? ;081 .118 (39.64 55.98
835.02 .043 .088 .004 .005 67.37 54.71
750.60 .035 .074 .055 .081 07.90 55.24
656.24 .027 .058 .040 .005 65.4. 00.85
550. 74 .019 .039 .0538 .048 5C . "" 4.5. 67
460.88 .013 . 87 .031 .0565 58.60 50.03
{SC-1.00 .008 .010 .014 . 218 64.81 52.15
“278.95 .005 .010 .0082, .0185 50.233 40.60
180.79 .002 .004 .003

18.53.55 .008 .003 .0021

155.77 .001 .0023. .002

“Following values are beyond rrnge of friction chrrt.

DATA CalculatedRUN NO- 83 5

FITTING - SIZE OF STRAIGHT BRANCH: 5 x 8
SIZE OF' 90 DEGREE BRANCH: 18 x 8

ORIFICE SIZE - STRAIGHT BRANCH: 11. x :17.

4’. o

90 DEGREE BRANCH: 1:33. x :.__

TYPE OF RUN: Test.

SHEET NO. 1"."

3 n

Id

DATE

 

gm..-

 

 

‘l ) - r; 1 ‘5 r". 3 — ,. . _-" ...:
Is“?2 1:4 J; 4 114: . {J ..JC ”0+1 £7 ,4 121V.
2.170 1705.14 .147 .311 1;: 1? 3 179: S..6
2.055 1”“..6 .1;; .43? 11a JEVD 109' 33.5

1.905 1405.34

1.7C9 1300.04 .034 .353 107

1.004 1307.52 .080 .COL 101
.556 1206.90 .074 .853 03

1001.45

1

1

1.305 9.‘ ..01 1

1 017.01 .04? .145 70
1.015 797.5 .053 .1

7?4.93% .137 .031 54

577.65

.6315 453.23 .013 .013 30.8
.506 59 .8 .079 .017 29.6
.3841 30 .83 .000 .010 "1.4

f‘. f: - 1‘
(J t-) Q 1,)

DJ
ob-
\D

000.19 a 37 150E;

175.78 .0311} . 3:“:

O

[‘1
In
C»:
0)

O

...:
CO
(0
9")

14‘3014 0001:; 0 3‘2:

0

H
CI
:0
C“.

14 :70
1750
1370
1 1533';-
1050

goo
2

19.2
144:”)

'3
Ix.‘
o

as}

9
w-
(‘4
O
\1 C)

3.
§
r\

- \ I.
.

~
LG

0
. N}

DATA CalculatedRUN NO- 255

FITTING - SIZE OF STRAIGHT BRANCH:

SHEET NO.

109A DATE

 

 

 

 

5 x 8
SIZE OF 90 DEGREE BRANCH: 1;: x 8
”IS. 1.11.91. .1,“ 5.2”
ORIFICE SIZE - STRAIGHT BRANCH: 13:}: :32. 3:33.343. 3“ a :3. 3::
90 DEGREE BRANCH: 1:3 :31;
TYPE OF RUN: Test.
Loss 10030
C150 1 5 AA :.- 9:134- rf.é‘:,: P5 Efiio :1. 5 I-Cfl. L. 5
130.18 .056 . :0 .055 .870 80.37 3.61
119.0? .CW .402 .050 .?40 20.53 15.57
110.68 .038 .347 .040 .211 21..0 15.14
101.47 25 .80? .041 .170 23.30 16.5
96.76 021 .265 .007 .103 82. 0 15.94

89.3” .018 .885 .050 .140
79.68 .014 .181 .027 .116

.011 .148 .005

.010 .198

.080

0007 009:) .01.“)

53.04 .007 .079 .012 .05?
48.10 .004 .049 .003 .050

18.15
10.90
9.40

.005
.002
.0008
.OOO;I
.0003

.0002

.037
.095
.013:
.00..
.0043
.0053

.000
.004
.0038
.0017
.0017
.0009

.0975
.019
.010

91. 3
{..sJ IT0(J9\)

91.83
91.05
.59.00

*Following vrlues are beyond rsnge of friction chart.

DATA CalculatedRUN No. 33,5 SHEET N01023:; DATE

 

 

 

 

 

 

FITTING - SIZE OF STRAIGHT BRANCH: 3 x 8
SIZE OF 90 DEGREE BRANCH: 15>, x 8
Eq. Dta. : 13.9"
ORIFICE SIZE- STRAIGHT BRANCH: 1:} x (:3- Act. L. 3 13,530
90 DEGREE BRANCH: 15" x 63}
TYPE OF RUN: Test
W Loss tnmm_m§i€édww
Q60 VPe TTG TC4-TP5 P5 EC. L.3 F0. L.3
1578.93 .153"‘ .209 .242 .séo 71:i8 5?.52
1470.15 .157 .838 .214 ..75 72.54 50.?8
1384.68 .120 .208 .185 .255 71.05 53.87
1208.57 .104 .190 .158 .906 70.05 5:.19
1210.78 .093 .150 .141 .300 70.L0 57.84
1117.64 .078 .135 .120 .170 70.50 57.93
1011.77 .064 .111 .007 .140 60.80 5b.C3
922.44 .053 .09- .080 .116 00.97 £8.{1
849.15 .045 .078 .057 .111 60.50 47.70
740.14 .034 .059 .051 .079 64.58 51.90
071.84 .039 .048 .045 .067 04.18 51.52
535.59 .018 .051 .027 .044 61.36 40.70
400.49 .015 .023 .020 .054 58.83 45.15
568.58 .008 .014 .013 . 220 57.58 44.88
*232.20 .005 .009 .007 .014 50.00 57.34'
185.55 .003 .004 .003
164.88 .003 .0035 .0025
139.74 .001 .003 .002
*Followlnh values are beycné ran 0 of friction chrrt.

 

DATA 02101118 tedRUN NO- 858

SHEET NO. 109 DATE

 

 

 

FITTING - SIZE OF STRAIGHT BRANCH: 3 1:
SIZE OF 90 DEGREE BRANCH: 18 X
ORIFICE SIZE - STRAIGHT BRANCH: 1.112. x 63:
90 DEGREE BRANCH: 15 x 3
TYPE OF RUN: Test.

{53:52 04 W4 724 0,5 0.3 :.;+ 0.3 Div.
1.775 595.19 .057 1.599 350 1090 1410 75.5
1.521 505.17 .020 1.500 510 1020 1540 72.1

.52 1199.89 .07: 1.275 295 940 12:5 75.7
1.404 1105.24 .053 1.072 252 805 1125 77.0
1.295 1015.01 .05- .891 255 720 1015 70.9
1.102 915.05 .042 .724 212 710 922 77.0
1.015 707.57 .052 .553 188 880 806 76.9

.911 715.95 .025 .449 150 500 720 77.1

.7455 599.10 .017 .200 154 455 524 77.2

.042 504.47 .015 .2 5 115 395 4:: 77.5

.50, 594.45 .009 . 5. 22 700 599 77.5

.595~ 501.45 .005 .077 55 220 79: 77.4

.249 195.20 .002 .051 41 14, 12 77.0

.2250 175.70 .0010 .025 05 129 155 75.2

.1972 147.10 .001 .017 50 100 150 77.9

.114 99.55 .0004 .0004 15 00 0 72.9

DATA CalculatedRUN No. 35 SHEET NO. 1094. DATE

FITTING - SIZE OF STRAIGHT BRANCH: :5 x 8

 

 

SIZE OF 90 DEGREE BRANCH: 18 x 8
EQ. D15. 3 5.2"
ORIFICE SIZE- STRAIGHT BRANCH: 12:4: x 8% Act, L. - 6.76.
90 DEGREE BRANCH: 15 x 3
TYPE OF RUN: Test,
L055 Aaded

 

388.01 .959 1.659 .049 1.80 5.08 -5.70
311.94 .219 1.443 .057 1.48 3.9 ~8.86
878.57 .178 1.238 .047 1.90 5.J2 “2.94

255.75 .145 1.005 .0E7 .980 6.84 .08

235.71 .125 .850 .033 .880 5.94 ’2.98
308.01 .095 .807 .057 .675 5.40 -1.88
184.24 .070 .533 .024 .540 4.44 -2.32
163.93 .081 .435 .025 .440 5.68 -1.08

154.10 .040 .270 .017 .500 5.27 ~1.00

114.5 .050 .2 5 .015 - .250 5.05 -1.11
80.54 .015 .124 .005 .145 5.52 -1.24
52.12 .010 .071 .000 . 25 0.95 :.22
45.85 .004 .025 .005 .040 7.5 .74
55.5 .005 . 22 .005 .050 10.00 5.24
52.5 .002 .015 .002 .024 5.55 1.57.
12.90 .001 .005 .0014

”Following values are beyand r0ng0 of frictinn Chtrt.

DATA CalculatedRUN No.256 SHEET No. lOS-‘B DATE

FITTING - SIZE OF STRAIGHT BRANCH: :5 x 8
SIZE OF 90 DEGREE BRANCH: 18 x 8
1‘35. Dia. 2.: 123.9"
ORIFICE SIZE- STRAIGHT BRANCH: 11 x 5.} Act. L. a 123.05.
90 DEGREE BRANCH: 1,3 x :5

TYPE OF' RUN: Test,

 

 

 

Loss Added
050 VPB 7176 754-7776 136 Kg. L. 5 5q. L.6
1057.18 .071 1.551 .127 .155 51.41 55.75
955.55 - .05. 1.572 . 54 .157 57.81. 85.15
550.5: .055 1.175 .100 .115 54.75 72.09
549.40 .045 .555 .057 .151 55.14 75.45
50.50 .055 ..55 .035 .0575 77.71 55.05
707.07 .051 .571 .055 .075 75.5 50.54
515.55 .025 .515 . 55 . 55 55.54 55.53
551.52 .019 .415 .055 .045 77.05 55.4;
454.05 .015 .274 .035 .053 55.57 54.01
559.95 .005 .501 .015 .055 00.00 47.5
504.52 .007 .12? .010 .0155 51.55 “45.50
255.51 .005 .070 .057 .010 70.00 57.54

151.85 .001 .0539. .005
1.27-7.40 .001 .023:- .008
114. 59 . 0038 . 0158 . 0012

70.68 .0005 .0053 .0011

DATA CvlculstedRUN NO. 257 SHEET NO. 110 DATE

FITTING - SIZE OF' STRAIGHT BRANCH: 3 X 8
SIZE OF 90 DEGREE BRANCH: 143 X 8

ORIFICE SIZE- STRAIGHT BRANCH: 1.3. x 54,
90 DEGREE BRANCH: 14 x 4‘

TYPE OF‘ RUN: Test

 

‘VP5~P2 54 VP4 154 55 95 55+Qe '5 Div.

u _. ~__.. -..

.97 1547.99 .18 1.108 203 1543 1003 85.6

 

 

 

 

1.901 1455. .115 1.052 255 1500 555 52.5
1.77 1550.55 .052 .557 252 1: .00 1472 55.5
1 754 1507.54 .055 .757 2:5 1150 555 55.5
1.522 1155.55 .072 .572- 252 1045 1245 55.7
1.555 1055.05 .0:0 .557 155 553 11.5 55.7
1.20" 554.01 .050 .420 152 . 520 1022 55.7
1 154 505.79 .047 .551 55 7:5 054 55.7
1.02 501.50 .022 .255 55‘ 500 225 55.8

.9115 7L2.24 . 23 .25? 118 838 720 85.7

H
I J
{9
‘3
('1
L)
(3'1
r“.
C)
-0
N)
C l
o

‘3

.708 003.43 .018 .

.658 '499.70 .013 .

H
K? H
I \3
m
C.)
{I5
3: .3
(II
C,
L)
’33
.5
o
O

.507 :5.59 .005 .3 1 2 5:3 523 94.0
.5535 551.45 .00; .041 47 25. 30’ 94.5
.551 15 7.25 .11; .017 20 15‘ 15* 05.0

o
(‘3 Q
o
H
J:
2 3‘
x}
H
5:.
H
I)
ks
o
O

.1310

.2281 170.24

.1524 151.15 .001 115 140 54.;

o
.0
L)
N
H
r".

74 05.1

”'4
DI
H
H.
0
CA
{'1‘
"I

L.)

.3.-3.. r: 'z 7' r 7 :7 ...
0 but; 9001.24 0303.30 01- I

DATA €510.01:ng RUN NO. 257

FITTING - SIZE OF STRAIGHT BRANCH: .3 X 8
SIZE OF 90 DEGREE BRANCH:18 x 8

ORIFICE SIZE- STRAIGHT BRANCH: 133 x e;-

90 DEGREE BRANCH: 14 x 4

TYPE OF RUN: Test

SHEET NO. 1105 DATE

EC. 1318.. - 502"

A01; 0

L. I.” 6076'

 

 

 

Loss Adfled
Q56 W5 T1 5 TP4“ T135 PS khq. L. 5 Lq. L. 5
25o.87 .145 1.050 .QCL .CEO 5.71 “1.05
244.50 .155 .-55 .055 .500 5.55 -.75
235.10 .117 .87; .037 .800 5.59 “3.58

7
194.94 .085 .680
177.53

185.08 .047 .450 .0.0
147.81 .040 .355 . 20
123.84 . 38 .875 .020
118.75 .031 .818 .015
97.16 .021 .150 .013
3.08 .014 .103 .000
65.74 .009 .065 .008

.008 .015 .018
.002
.001

000?:

.0005 .0035 .0005

“Following value is beyond rnnge

.750
.000
.510
.430

7 ’7'.
a 05"»?

5,.Qf:
O L.“ It.)

.33

.155
.118
.077

.044

.0220

.010

.0130

-058

O

O t

o
I""l E0
13>

O
{‘0
CO

C
..p.
C)

of friction chart.

DATA CalculzitedRUN No. 257 SHEET NO. 1108 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 5 x 8
SIZE OF 90 DEGREE BRANCH: 18 x 5
Eq. Dia. 3 12.9"
ORIFICE SIZE- STRAIGHT BRANCH: 13: x 623- Act. L. :._. 13_(_;{.3o
90 DEGREE BRANCH: 14 x 4

TYPE OF RUN. Test

 

Loss Added
Gee VPG TPB TP4-TP8 P6 Eq. L‘B Eq. L'S

 

 

1204.12 .105 .020 .120 .225 00.00 67.04
1240.70 .007 .805 .173 .215 83.47 67.81
1102.73 .085 .750 .147 .135 00.33 07.07
1001.80 .075 . 50 . 30 .104 8‘.73 72.10
1001.02 .003 .509 .114 .140 81.45 00.77
911.57 . 53 .404 . 03 .110 80.17 67.51

758.93 .038 .313 .035 .03: 73.27 60.01

671.00 .028 .348 .040 .007 75.15 60.47

500.40 . 03 .105 . 50 .004 70.37 57.71
5 0.52 .010 . 30 .020 .040 05.00 52.54

419.80 .011 .093 .019 .0285 63.87 54.01

534.05 .007 .059 .013 .0104 67.01 54.35
”254.11 .004 . 55 .003 .0110 51.72 30. 8

105.48 .003 .014 .005 7

150.56 .001 .011 .003

127.44 .001 .0077 .0013

I

x)

81.19 .0004 .0023 .001:

“Following vrluee rre beyonfl r'nye of friction chrrt.

DATA CalculatedRUN NO. SHEET No.111 DATE

258

FITTING - SIZE OF STRAIGHT BRANCH: 3 X 8
SIZE OF 90 DEGREE BRANCH: 18 X 8

 

 

 

 

ORIFICE SIZE - STRAIGHT BRANCH: 1". X e}
90 DEGREE BRANCH: 15' x 5'
TYPE OF RUN: Test.
P 0 r :3 Div.

 

 

1647.78

2.025 1501.20 .128 .70%
1.908 1497.70 .114 .618
1.768 1599.28 .008 .541
1.653 1501.35 .038 .475
1.533 1108.74 .072 .008
V1.58” 1089.09 .060 .C a
1.208 998.3 .050 .272
1.1? 919.36 .040 .250

010.45

510.94. .019 .00“

504.47

177.59

.001
.0004

140.50
05.04

Pr-

158

(- 7°.
1.3:.)

11.4

183
114
81

87.8
87.7
87.8
87.5
87.7
87.6
87.7
87.7

87.

"D
\1
.
‘20 \1 x!

DATA CalculatedRUN No. .288 SHEET No. 111,1, DATE

FITTING . SIZE OF STRAIGHT BRANCH: 3 x 8
SIZE OF' 90 DEGREE BRANCH: 18 x 8
ED. DIE. ~ 5.8"
ORIFICE SIZE- STRAIGHT BRANCH: 1.}; x (33 Act. L. a 5.733
90 DEGREE BRANCH: 15 x 5

TYPE OF RUN: Test

 

 

 

204.53 .004 .899 .081 .370 9.10 2.34

185.71 .079 .577 .040 .550 8.91 2.15
170.cc .000 .490 .045 .400 9.19 2.47
100.05 .003 .451 .044 .420 10.48 5.72
148.40 .05 .302 .034 .530 9.44 2.03
133.90 .040 .204 .051 .30 10.05 5.57
122.55 .054 .247 .005 .300 9.62 2.56
110.0: .020 .209 .001 .22- 9.55 2.70
100.42 .075 .105 .017 .175 9.71 2.05

74.53 .015 .083 .000 .108 .83 2.08
61.55 .009 .081 .007 .075 9.59 2.85
40.27 .005 . $8 .005 .048 10.43 .08

24.11 .001 .000 .003 .0156 11.71

”21.84 .001 .007 .001 .0117 8.55

17.28 .0007 .0037 .0015

5
55.07 .005 .020 .005 .0875 10.01 4.15

7

1

12.05 .0004 .0024 .000

”Following values are beyond r0039 of friction chart.

DATA Calculated RUN NO. 238 SHEET No.1113 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 3 X 8
SIZE OF 90 DEGREE BRANCH:18 X 8
EC. D151. = 1809“

 

 

 

 

ORIFICE $!ZE- STRAIGHT BRANCH: 1.3-; x (:3: Act. 1.. 8 Iii-(ECO
9O DEGREE BRANCH: 15 X 5
TYPE OF RUN: Te st.
_ Loss m" Added
Q60 VPB TPB TP4-Tys P6 Ea. L‘G Eq. L'G
1445.46 .130 .558 .817 .8?) 77.00 64.84
1005.48 .188 .500 .808 .880 8n.00 87.34
1811.09 .108 .445 .183 .250 78.57 08.01
1215.80 . 98 .577 .104 .801 r1.50 68.93
1141.20 .081 .384 .141 .180 73.33 65.07
1048.5 .00- .878 .118 .154 70.08 68.06
955. 5 .057 .85 .005 . 8? 5.40 68.74
875.88 .048 .103 .079 .107 73.85 01.17
806.88 .041 .100 .070 .000 78.00 63.;3
716.01 .038 .127 .055 .074 71.68 58.u0
633.87 .080 .007 .041 .058 60.40 58.‘5
538.41 .018 .000 .029 .04a 65.91 53.85
448.98 .018 .040 .080 . 82 08.50 48.84

54.62

201.59
§

185.75

('4

55.75»

Pr
,l

(-
LJL}. (’2

80.50

.008
.004

.003
0001 “

.0004

.050
.010

.005
.0089

.0014

”Followifig v$1ues are beyond rrnf

.015
.007
.005
.003
.0032
.0010

01.00

:29 '1!
0x3 0 (JV

-, r‘. h
‘1'.) o (.34

45.0?

e of friction chart.

DATA CalculatedRUN NO. 239. SHEET NO. 112 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 3 x 8
SIZE OF 90 DEGREE BRANCH: 18 x 8

ORIFICE SIZE - STRAIGHT BRANCH: 1.3.. x 6%.
90 DEGREE BRANCH: 15,-;- x 5-;

TYPE OF RUN: Test.

 

‘U
(A
I
"J
[U
a;
<4
.3
4“
.. 9-3
*0
(‘1 IF
1
J"
n
G.
)
U"
{1

183 1500 1758

N!
O

H
C a
()1
H
(‘3
'Q
s]
U)
.1;
#4
0:.
‘ R
0‘
+4

103 and lRCR
..v u'vw \i‘..u

o
0
(AI
H
U"
a J
'J‘.
o
H
f' ,1
0
pa
:0
o
(P
{-1
0

1490.337 .114 .4534» 172—?- 1400 1573

o
(D
‘33

1590.04 .090 .424 150 1300 1159

O

«J
{5
10

1507.54 .000 .373 14? ZFO 130?

9‘.
x

o o a
C 1 1b
:- 1 ('3 H
{v F‘ I4
h’ h‘
r0 <3 I»
"3 u C)
H .,) I)
. o o
(J (0 'fl
CD JD v.7:-
. a o
O O O
I}?! (TI C3
0 H LU
o o o
H 7‘0
w r4 (w
'5...) x} 45
H
J) H I 1
a) A} 7'.
H
Iv) ’{) (:)
g I :1‘
O O 0
If I4
:0 01 Id
H “N 3
J...) ’1 "

O
O H

P‘ #4 IH P' r4 I4 h‘ r4 :0
0 O
:0 (.n
h’ r4 Id
H (10
14
pa
" “7 ("3 ‘7"
£ CD 'I .
O
33
{3
O
‘3
8..
O
ffl
(J
$-
.4
'0
W
Fl
C2
.3
pa
’3
I. \

797.57 .03? .135 83 720 830

‘31

715.85 .080 .103 77 640 717

.768 =03.48 .018 .07: as 535 538
.63; 501.33, .013 .054 :3 4:0 50:

.513 405.11 .008 .034 41.7 340 505

.3830 501.45 .005 .070 30 250 220
.255 200.3 .00? .009 20 149 102
.2255 175.02 .0010 .0050 10 3: 149

.179 140.05 .001 .0035 13.8 155 146

.1049 82.43 .0004 .0014 8 --- 8

DATA 03.10.118th RUN No. 259 SHEET No. 112A DATE

FITTING - SIZE OF STRAIGHT BRANCH: 3 x 8
SIZE OF 90 DEGREE BRANCH: 18 X 8
30. D19. . 5.2”

 

 

 

 

 

 

ORIFICE SIZE STRAIGHT BRANCH: 1L; 116;.— Act. 1,, a 6.76)
90 DEGREE BRANCH: 153 x5 3
TYPE OF RUN: Te st
”7 Loss ITS A0000 “Tm
450 v05 TP5 TPé-TPS P5 Rn. 0.5 flq. L.5
184.54 .077 ——.504 .051 .550 0.27 2.51 7“
175.48 .ora .514 .003 ‘ .4’m 10.23 3.44
1055.4- .000 .145 .049 .440 11.14 .33
1:31.51 . SE .5133 .041 .380 15} "" 4.03
141.131 .045 .385 .037 “:33 11 11 4.33
1239.59 .039 .2374- OUO .2833 10.533 3.77
119.74 .0523 .E'IG .028 .240 11.:8 4. 32
100.78 .037 .104 .0. .21: 10.05 4.19
05.43 .020 .1. 0 .010 .180 11.8”? 5.12
85.54 .016 .1185 .0165 3 2. f? 5.93
76.60 .015 .095 .015 .10? 1.2.15 5.30
05.37 .000 .065 .010 .075 15.8? 6.57
59.64 .000 .048 .008 .0535 14.53 7.79
43.94 .004 . 2‘3 005 . .30 1?.88 6.06
("52.25 .0023 .015 .005 .01-3‘25 24.22 15.40
2.3.84 .001 .007 .001 .0150 7.3-3 .50
18.79 .0008 .00478 .00088
12.53 .0004 .0020 .0008
*Followi.v glues fire beyond rrnge of frictisn chart.

DATA CalculgtedRUN No. 259 SHEET NO. 112:3 DATE

FITTING - SIZE OF STRAIGHT BRANCH: ,3 x 8
SIZE OF 90 DEGREE BRANCH: 1

EC. D18. . 13.9"

 

 

 

ORIFICE SIZE- STRAIGHT BRANCH: 1?; x 61,. not. I... a 12.66'
90 DEGREE BRANCH: 1.3.. x 5:—
TYPE OF RUN: Test,
Lose Aéded

Q60 vpe TPe 104-796 P8 E0. Lee Eq. L-e

 

1493.10 0 59 .596 0219 .305 71060 3014

1413.67 . BC .56 .213 .870 75.19 «2.55
1335.85 .112 .518 .176 .2:0 73.53 80.87
1258.53 .098 .273 .153 .210 7i.33 59.72
1163.35 .085 .840 .15? . 95 71.55 58.69
1059.30 .073 .190 .114 .155 73.55 60.89

983.00 .061 .171 .095 . 38 68.38 55.73

89”.~8 .050 .140 .077 .113 99.75 55.09

700.43 .040 .110 .050 .000 05.50 52.00
712.25 .032 .007 .040 .073 05.77 55.00
033.25 .020 .070 .058 . 00 03.30 50.57
540.11 .018 .040 .020 .045 57.70 45.12
4140.09 .015 . 05 .010 .0305 57.40 45.80
2550.17 .000 .02 .015 .0215 00.47 47.81
269.18 .004 .011 .000_ .0107 70.07 50.21.
170.53 .002 .0045 .0055

100.80 .0015 .0030 .0001

188.15 .001 .005 .0005

0
FOl1owing values are beyond r0050 of frictian chart.

SHEET No.115 DATE

DATA 05.10u10.tedRUN NO- 240

FITTING - SIZE OF STRAIGHT BRANCH: 5 X 8
SIZE OF 90 DEGREE BRANCH: 18 X 8

ORIFICE SIZE STRAIGHT BRANCH. 11x“
90 DEGREE BRANCH. 13 x 6

 

 

 

TYPE OF RUN: Test.
\f53:§§ 04 VP4 TF4 25 06 @5795 5 01v.
2.155 15.“ 5 71 .145 .534 177 1500 1777 50.0
2.05 15<;5. 15 .125 .475 150 1510 1575 55.5
1.505 1451.41 .115 .414 155 1400 1555 50.0
1.754 555. .007 .r54 145 1500 1443 00.1
1.555 1505.51 .050 .514 155 1240 1275 50.2
1.525 1204.50 .075 .255 25 1150 25: 50.2
1.40 1100.05 .002 .225 112 1020 1152 50.1
1.2045 1017.04 .052 .155 10 540 1045 50.1
1.1575 50-.54 .042 .151 01 540 551 50.2
1.015 . 707.57 '.002 .115 75 2 515 50.5
.505 .700.55 .020 001 50 545 714 50.5
.7715 500.25 .015 .05» 55 555 552 50.2
.555 502.11 .015 045 47.5 425 475 55.5
.450 202.10 .005 .027 57 525 505 50.7
.3525 501.55 .005 .015 27.5 242 205 50.0
.2557 205.25 .002 .007 12 170 155 50.4
.2201 150.02 .0017 .005 14 120 154 55.5
.1755 140.5 .001 .005 11.4 --- 11
.1055 55.04 .0004 .0014 5 --- 5

DATA CalculatedRUN No.340 SHEET NO. 115A DATE

 

 

 

FITTING - SIZE OF STRAIGHT BRANCH: ; x 8
SIZE OF 90 DEGREE BRANCH: 19 x 8
ORIFICE SIZE - STRAIGHT BRANCH: 1.3.5. x 5;} Egtriazassrzg':
90 DEGREE BRANCH: 13 x 5
TYPE OF' RUN: Test.
Loss Added
053 VP5 TI5 T14-TP5 P5 Eq. L.5 gq. L.5
169.57 .0?5 .478 .050 .430 19.17 5.41
161.61 .059 .439 .047 .43' 10.9" 4.17
149.14 .050 .370 .044 .570 11.80 5.15
157.25 .042 .514 .040 .31; 13.70 5.94
127.75 . 37 .377 .057 .390 5.: 6.45
118.05 .031 .83 . 33 .240 15.33 6.57
108.91 .027 .194 .029 .205 14.15 7.39
100.69 .025 .185 .034 .17? 15.64 0.3
89.13 .018 .151 .030 .143 14.08 7.52
77.58 .013 .100 .015 .107 14.02 7.5?
63.85 .011 .073 .013 .039 14.77 8.01
59.41 .008 .056 .009” .007 13.43 6.07
50.71 .006 .059 .005 052 9.63 3.86
40.59 .004 .034 .003 .0530 9.09 3.55
50.15 .003 .015 .003 .030 15.0 8.24
‘19.51 .0008 .0053 .0018 .010 12.0 5.34
18.73 .00078 .0058 .0012

“Following value is beyond rrnfie

of frictian chflrt.

DATACg-lculgted RUN No. 240 SHEET NO. 1138 DATE

FITTING - SIZE OF STRAIGHT BRANCH: :5 x 8
SIZE OF 90 DEGREE BRANCH: 13 x 8
LC. 1319.. 2 120v"
ORIFICE SIZE- STRAIGHT BRANCH:1,3.3- x 61 Act. L. a 12.60'
90 DEGREE BRANCH: 15 x 6

TYPE OF RUN: Test

 

 

 

.__..._... -____..——__.—

 

Loss Added
{330 V136 TI’6 TP4-T1‘6 P6 Eq. L08 qu. L°6
1526.14 .148 .308 .230 .310 78.00 60.24
1454.02 .1? 9 .874 .203 .253 72.14 50.48
1342.97 .110 .L73 .17 .330 7....03 FJ.30
1:48.99 00? .704 .150 .213 70 40 57.7?
1175.88 .096 .183 .131 .1 0 70.43 £7.77
1086. 5 .074 .155 .111 .1C0 00.5% 50.72
901.19 .OLA . :3 .004 .10” 68.1 53.4?
“10.30 . 52 .100 .000 110 £8.07 £3.31
82 .41 .04? .089 .085 .005 CL.Cd 53.L3
730.21 .032 .067 .048 .07; 04 00 5 .C
640.70 .088 .005 .050 .000 03.25 50.67
540.83 .019 .008 .027 .040 53.70 40.04
451.40 .013 .005 .018 .035 54.55 41.09
351.71 .00. .015 .013 .021 57.14 44.48
”371.33 .000 .003 .007 .015 55.85 41.19

183.72 .002 .004 .003

181.5 .0018 .0038 .0034

“Following values are beyond range of frictian chart.

DATA Calculatec'iRUN NO- 241

FITTING - SIZE OF STRAIGHT BRANCH: :5
SIZE OF 90 DEGREE BRANCH: 1:23.

NX
(DOD

ORIFICE SIZE- STRAIGHT BRANCH: 1.3: x 6’
90 DEGREE BRANCH: 15.}. x 5,3.

SHEET No. 114 DATE

 

 

 

 

 

 

TYPE OF RUN: Test.
- . \ Y , r“ r” {s .P ~. ’\-‘.

3 P2 (.4 1.14 -1 4 . "6 "D+(‘6 1111!.
3.188 1705.57 .147 .497 109 1525 1794 LO.€

1.903 1495.C4 .115 ..7A 147 143“
1.775 1394.70 .000 ,5/, 150 132;
-.881 1305.10 .080 .284 90 133:
1.530 1104.50 .073 .239 115 1130

1094.59

1.26: 9C7.15 .050 .184 94 943
1. 02 913.09 .04? . 30 86 870

1.055 813.28 . 33
600.20 .035
587.76 .017

.015

.53” 39¢.4C .039 .095 04.5 570
.331 209.5: .0045 .C10 28 300
.25E9 208.50 .002 .000 18.8 188

.82- 179.16 .0016 148

M5 r5
C W ()1

DJ
. .7.)
(TI

 

 

 

DATA Cg“ lculatedRUN No. 241 SHEET No. 114.6. DATE
FITTING - SIZE OF STRAIGHT BRANCH: 3 x 8
SIZE OF 90 DEGREE BRANCH: 13 x 8
Eq. D18. 3 5.2"
ORIFICE SIZE- STRAIGHT BRANCH: 13:; x (51 Act“ L. 3 5,75I
90 DEGREE BRANCH: 1.7;}; x (;3;
TYPE OF RUN: Tee t.
Loss Aeged
2:53 W5 "P5 mag-W5 135 :c. L.5 P-Iq. L.
16 .14 .05Q .431 .008 .4?0 15.53 v.57
147.84 .049 .875 .050 .570 13.5 6.75
140.5; .045 .531 .045 .530 15.05 0.27
120.71 .059 .285 .041 .233 14.49 7.75
121.39 .035 240 .Odo .250 14.40 7.04
109.88 .027 305 054 .710 16.13 9.43
100.70 .073 .171 .030 .180 15.50 9.00
90.74 .018 .140 .024 .145 13.05 0.79
83.18 .015 .117 .020 .12 10.35 11.07
74.83 .01: .005 .015 .10; 14.71 7.95
64.05 .009 006 .015 077 18.8 8 10.10
54.60 .007 048 .000 .058 10.8 3.59
47.40 .005 .05. .007 .044 15.91 9.15
55.98 .005 .0305 .00e3 .025 18.00 11..
*27.24 .002 .012 .003 .0100 18.07 11
16.47 .0000 .0040 .0014
15.41 .0005 .0 :5 .0015

“Following

81099 are beyona

PEnge of frictifin Chrrt.

DATA CalculatedRUN NO-

;341 SHEET NO. 114?. DATE

FITTING - SIZE OF STRAIGHT BRANCH: 3 x 8

ORIFICE SIZE STRAIGHT BRANCH: 1%; x 63';-

SIZE OF' 90 DEGREE BRANCH:

18 x 8
E30. Dig-1:. 3 13,0"
Act. L. 3 12.86’

90 DEGREE BRANCH 16;:- x 6:7

 

 

 

 

 

TYPE OF RUN: Test,
“W“ *‘ ” Loss ‘“ 3'3“

CNC VPE 1136 I?4"‘T36 G T“G. L’B EC. L.6
1343.43 .143 .007 .730 .3.0 71.3: 30.:3
1441.70 30 .237 .103 .27? r°.47 S’.“1
1:34 73 .113 .133 .170 .r4: 71.04 31.13
1233.03 .100 . 73 .12. .210 7 .73 0_.17
1133. 80 .033 31 .133 .153 70.00 37.04
1034.51 .073 33 .11. .1'“ 70.03 07.07
023.30 .00; .107 .003 .103 67.05 34.93
900.41 .03: .033 .07» .115 34.22 S .70
330.90 .043 .073 .034 .037 05.73 50.;7

58.48
83.2.15
58.3.10

0.14
9

[17
I) \Z
L\

1

,fl
:5. 89

165.75

”Followi

values are be

.014
.008
.0035
.0015

-037 .053 03.71 30.03
-O?' .044 50.31 44.13

'030 60.61 47.33
.011

.007

.0023

MIC rrng.3 of friction 0 art.

DATA Cal culatedRUN N0-

2421

FITTING - SIZE OF STRAIGHT BRANCH:
SIZE OF 90 DEGREE BRANCH: 18 X 8

5x8

ORIFICE SIZE - STRAIGHT BRANCH: g X 7
90 DEGREE BRANCH: 13 X 3

TYPE OF RUN: TE,“

SHEET NO. 115 DATE

 

 

 

”3:52 Q4 VI:4 Tp4 ‘75 '70 05+ “:_-
1.322 1431.30 .104 1.474 440 1020 1400
1.757 1338.47 .007 1.407 430 300 1420
1.547 1204.13 .025 1.225 400 33 1330
1.52 1134.30 .072 1.032 303 50 121:
1.302 1033.31 .051 .351 33 770 1100
1.201 1005.53 .051 .721 303 700 1011
1.133 834.22 .040 .572 2:3 030 308
1.015 707.57 .032 .453 234 505 730

.917 720.50 .025 .357 210 503 713
.753 533.20 .013 .245 171 410 531
.54: 505.23 .013 .173 144 350 454
.503 300.13 .003 .113 115 275 301
.5735 207.42 .0045 .004 34 200 200
.2003 204.03 .002 . 32 53 14: 201
.2743 184.27 .0017 .025 50 123 173
.1739 140.53 .001 .015 30 03 137
.1049 02.43 .0004 .0074 27 03 93

 

DATA 051101.11"- ted RUN NO. 343 SHEET NO. 11511 DATE

FITTING - SIZE OF’ STRAIGHT BRANCH5 X 8
SIZE OF 90 DEGREE BRANCHzlg}, X 8
EC. Dian . 5.2"
ORIFICE SIZE- STRAIGHT BRANCH: 2 X 7 151C713. L. a 6.76.
90 DEGREE BRANCH: 13 X 5

TYPE OF RUN: Test

 

 

L033 Added
Q53 VFS TF5 TP4-MP5 P5 EU. L.5 EC. L.R
430.94 .417 1.897 .177 8.90 6.33 ”.44
423.71 .393 1.243 .164 3.35 6.19 . -.57
339.55 .341 1.371 .154 2.25 6.81 ..05
557.13 .287 .937 . 55 1.99 7.14 .53

333.14 .243 .747 .104 1.30 0.30 -.30
301.07 .305 .035 .033 1.33 3.33 -.53

f‘

468.48 .180 .433 .073 1.07 7.10 .34

’33
t 0-.
I.)
{I}
o

,3.
”J
H
0

'\1
...J

333.03 .133 .583 .C72 ..~3

213.40 .100 .311 .05? .693 8.12 1.33

174.43 .039 .310 .039 .490 7.78 1.00

147.05 .049 .151 .013 .333 7.79 1.03

117.38 .831 .09? .017 .235 7.33 .47
88.25 .017 .053 .011 .130 8.43 1.70

59.23 .707 .0255 .0115 .067 9.73 2.94
5],. 73 .COI" .519 .03" .05: 11“". 4. [:3
40007 000‘; .012 ’00:. 90:0. 903’.) 20?:

Ca
0
’9
C,
I
f” 3
C)
I...)
O
Q
Q
r 1
O
I“.
-J
O
1
. K
0
pm
-.J
I
H
Q
0
3
t “4
H
J
O
~1
\

DATA CfilculgtedRUN No. 342 SHEET No. 1153 DATE

FITTING} SIZE OF STRAIGHT BRANCH: ‘ x 8
SIZE OF 90 DEGREE BRANCH: 3 x H

5...;

. Lg. Die. - 12.0"
ORIFICE SIZE- STRAIGHT BRANCH: 5,3 x 7 :.ct. L. z. 13.61;:
90 DEGREE BRANCH: 15 x 5

TYPE OF RUN: Test. ..

 

L033 Iéded
(no V136 T136 Tia?" 117.3 I8 1:0. . L. 6 11C; . L. 6

 

100 .75 . 05 1.355 .131 .140 86.43 75.77

J

987.76 .059 1.289 .118 .133 93.19

‘
.1
Q
.3
C
(‘1
J

004.03 .051 1.10 .004 .115 01.74 69.08
857.27 .044 .044 .009 .009 09.80 70.25
705.67 .030 .701 .070 . .003 84.54 71.00
704.61 .031 ..04 .057 _ .072 70.17 00.5
637.74 .035 .537 .045 .050 77.59 04.95

505.88 .02 .4 3 .03 .048 77.08 64.43
510.16 .010 .540 .037 .041 85.85 55.19

418.84 .011 .228 .032 . 89 78.57 65.91
553.33 .093 .165 .014 .0315 65.13 52.40
381.?2 .005 .104 .009 .014 €4.89 51.35
D

$11.17 .005 .05? .005
145.71 .001 .0385 .0035

100.51 ‘.COO7 1137 .0010

1’)

58.55 .0002 .0063 .0018

“Following vrluen rre b0y0nd rrnge of friction chart.

 

 

DATA CalculatedRUN NO' 245

SHEET NO. 116

FITTING - SIZE OF STRAIGHT BRANCH: 3 X 8

SIZE OF 90 DEGREE BRANCH: 18 x 8

ORIFICE SIZE - STRAIGHT BRANCH: 2 X 7
90 DEGREE BRANCH: 14 x 4

TYPE OF RUN: Test

DATE

 

 

 

T133332 0,4 VP4 T? QS :16 051.06 D1 7.
1 . 991 15:34.49 .124 :.7: 5:30 12:30 1018 77.9
1 . 9117 1502.19 .114- .000 34:: 1200 1:34: 77.8
1 . 784 1401. 5 .000 . 7:22: 313 11:35 144? 727.0
1 . 6:34 1507.54 .086 . 094 2:0 10:30 154:: 7.3.0
1 . 527 1199.89 .075: . 575 2:30 970 23-50 78.5
1 . 30:33 1098.78 .001 .401 24:5 0:30 1123 70.4

1 . 281 1006.58 .0231 .403 02:: 000 102:5 70.2
1 . 167 917.01 .042: .331 230:: 722:: 9:37 70.2.
1.0373 807.25 . 0:: .2157 175 635 810 78.4
- 9-00 711.92 .020 .1071 15:- 500 71:: 78.5

- 768 603.48 .018 .141 :29 4-70 599 723.5

- 85 405.04 .012 .000 105 .2205: 500 73.0

:- 50:: 004.40 .000 . :32. 8.1: :10 .395 78.9

. ..00 500.45 .005 .030 :35 2:0 530:: 70. s

- 2.00% 0 4. .< .002; .017 4.3.6 1:30 230:: 7:2. .,

~ 17:52 1:32.80 .0014 .011 :55 1:7 1:52 7:..4

~ 1140 1.0.10 .001 .008 30.5 109 140 77.9
89.58 .0004 .0044 71.4 77 98 78.6

DATA CalculatedRUN No. 345 SHEET No. 11:3,: DATE

FITTING - SIZE OF STRAIGHT BRANCH: 3 x 53
SIZE OF 90 DEGREE BRANCH: 18 x 8
E0. D15. = 5.8"
ORIFICE SIZE- STRAIGHT BRANCH: 2 x 7 330’s. L. . (3.7.7.:
90 DEGREE BRANCH: 14 3.. 4

TYPE OF RUN: Test

 

 

QSC VPS TF5 T?4‘Tp5

 

 

(545.75 .8353 .059 .117 1.5350 6.50 -.2‘3

553.48 .2520 .70-0 .110 1.90 6.135 -.15

3)
d5
C
C)
)
(J
1.;
3“
O:
C
L
b
C
H
4:.

309.40 .214 .35
387.60 .108 .508 .OQQ 1.35

250.58 o 55 0'.

3
Pa
O
:3
H
I

1 (3
in

G) "D 'fl
0
.5

1357.55 .127 .."7

CA vb Q

L!

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45 .108 .

230.00 .090 .283 .048 .840 7.50 . 74
174.333 .059 .21? .0453 .400 8.18 1.40
l

53.03 .055 .1C7 .031 .533 7.95 1.19
1&3075 .033 0119 .02? okga 7.73 '98
105.00 .054 .070 .017 .153 5.05 2.10

85.33 .01C .051 .011 .125 {.80 3.04
85.90 .010 .033 .006 .082 7.32 .58
44.47 .005 .015 .002 .xfi? 5.13 ~1.63
35.18 .005 .0005 .0013 .02" 5.77 -.90
30.08 .002 .007 .001 .323 5.00 “1.78
10.17 .0038 .0008 .0011

0 .1 .. ..3 . ,3, . , .
F011051ng value is :uyflho 153:0 of fricti>n chrt.

DATA c 101 1; itgfiRUN NO. 345 SHEET NO. 1113.3 DATE

FITTING - SIZE OF' STRAIGHT BRANCH: 3 x 8

SIZE OF 90 DEGREE BRANCH:

ORIFICE SIZE - STRAIGHT BRANCH:
90 DEGREE BRANCH:

TYPE OF RUN: 7;... t.

'3

I
.4

14

1% x

7
4

r‘
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' T: '>
£400 blF-o 3 11.09“
A .0 ‘r‘ r_
:K0 [3. L. = 1;f".6\3’

 

 

. ‘ 1~-.| " ,1"! I.’ \
n “I 1‘1-"4 ~' I ‘l 1- ‘- ' .1" *
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“nioéq .043 ’1. J.) 07’
7? 7.15 .0131? .553 .0 "‘1

‘. ‘3 'r r' r‘. r -‘. I“: ‘1' :1
7170(11 DU£;:;J O {a it) .ULIK.’

Ebb.87 .023 .815 .040
558.88 .030 .108 .05‘

4'15.73 .014 .11& .035
3E1.08 .010 .00; .014
”11.25 .009 .05? .010
240.56 .004 .0515 .0065
18!

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.001 .039 .002
100.02 .0007 .0037 .0015
70.41 .0003 .003? .0016

“Folloging valups are beyc>nd ran¢e

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r’io I" (I 34"
1z.nj ul.bd

70.40 37.74

71.1971! €1.13
7&4. \J 6:4).C7

70.67 F9.3l

(I r: J; _ ‘_ 1:: '1
()(4 . 5.1-0 ".2” O ‘1‘:
(\ f, “g ’1‘: t: I,

L.) Q} «3 v1 0 L40

fr: ctiou cnrrt

DATA CalculatedRUN No.2“ SHEET No. 117 DATE

F’l-I'TING - SIZE OF' STRAIGHT BRANCH: 3 X 8
SIZE OF 90 DEGREE BRANCH: 18 X 8

ORIFICE SIZE — STRAIGHT BRANCH: 2 x 7
90 DEGREE BRANCH: 15 x 5

 

 

 

 

 

TYPE OF RUN: Test.
FIB—5:132 04 V24 '31“- 4 55 G6 {154.616 ‘1'; D1 v.

I 2; . 11 1858.00 .138 .874 1-12 14:25 1718- 88.9
2. - 027 1592;. 78 .1.-2:5 .03 2251520 150: 85.0
1 - 908 1458.87 .114 .558 05 280 1555 8.3.1
1 - 787 1588.47 .007 .478 2.42 1180 142-32 85.0
1 - 549 1:15.75 .085 .410 8:34 1110 1584. 85.2
1 - 588 1186.74 .078 .347 «05 1010 1815 88.1
1 . 4.07 1105. 52 .002 .887 88 .25 1184 8.22.2
l . 288 1018.08 .052; .248 172 850 1.1.2.1 85.2
1 . 145 808.72 .041 .102 151 750 0:31 85.2
1 . 05 808.55 .050 .150 1.25 {.80 815 8.4
- 8915 700.52 .025 .117 118 52 808 8.3.5
. 745 585.41 .017 .021 ..5 476 571 83.4
- (-3.27 500.54 .018 .000 8.22: 418 488 83.5
2 504 598.05 .008 .058 64 5;. r 387 85.5
- «3841 501.85 .005 .022 48 '50 208 8.,.8
~ 2340 1.15.66 .0022. .010 50.5 100 181 8.3.8
- 53:50 180.87 .0017 .008 87.5 14:: 100 841.0
~ 17:33 188.18 .001 .0045 81.4 112 185 84.8
- 1140 88.58 .0004 .0031 18.4. 87 10:2 84.5

FITTING - SIZE OF STRAIGHT BRANCH: 3 X 8
SIZE OF 90 DEGREE BRANCHH‘U X 8
17:0. 1318. c 5.?"
ORIFICE SIZE- STRAIGHT BRANCH: g x 7 Act. L. ,_. 6.7‘3'
90 DEGREE BRANCH: 15 x 5

 

r150 V135 7:135 TF4“ T15 F5 EC 0 L. 5 EU . L. 5

 

 

 

833.53 .181 .521 -.005 1.22 7.82 .:5
870.77 .105 .540 .02” 1.1; 8.15 1.57
255.0. .144 .42: .080 .520 0.18 2.4:
200.04 .125 .408 .280 .170 10.52 5.53
517.2? .107 .144 .05 .740 8.0 2.13
203.?C .093 .23? .05: .C 3 8.5? 1.95
105.74 .077 .228 .P42 ..51 8.7: 1.87

48.5“ .00: .017 .003 .O{’ 1:.4? 5.8?
51.70 .0’2 .007 .005 .0233 3.27 6.5
23.93 .0013 .6058 .OOLfi .013 11.53 4.32

21.53 .Ofll .005 .0113

15.93 .0004 .C :8

C)

”1.“ ...: . . . “. -. ,3 .. ,_ .0 1.2- +: 0 1....
:01102152 22156 18 0520:» r2”,8 o. 1r105104 o” rt.

DATA CalculatedRUN N08251:?»

SHEET No. 1173 DATE

 

 

 

 

 

FITTING - SIZE OF STRAIGHT BRANCH: 3 x 8
SIZE OF 90 DEGREE BRANCH:18 x '2
EC. E18. - 12 .9"
ORIFICE SIZE STRAIGHT BRANCH: g x 7 .102. 1,, .2:- 13,5352
90 DEGREE BRANCH: 15 X 5
TYPE OF RUN: Test
LOP." AC ‘35
CCC T18 TF8 "TWTTG '90 30. Ins LP. L‘G
1274.48 .112‘” .422 .185 .25: 7:.52 0-:50
1:23.01 .110 .45: .1733 .25, 75.51- { 3”“?
1245.99 .097 “3‘”: .131 .91f 7’2. '3 (“.192
11:19.45 0083 031”? 013:3 .lfio 7702': C405!)
1078.06 007‘) .L.)\':/ 0115 .11-’0 7100') Snob)?
994.49 .06.: .950 .007 .13" 71.5.: {2.80
91".35 .054 .012: .A33 .112“: 71.55) 58.53
8";3005 QO‘IE‘ 1(3 0 GT" '10») 6,3000 {Bk-3034'
7 {3.57 035 1!”) .05.; .091 €5.45 u...77
573.00 .025 .11 4 0‘; .OC 83.01» F‘ 1.00
583.53 .031 .094 . 34'. .05.“: 85.423 50.9.3

417.95 .011 .01-3:42 .0
330.69 .007 . {37

18

.011

255.24 .0042 .018 .006
183.96 .0033 .007 .005
1523.01 .001 .005 .003

1121.8.) OOUOB 000:1) .0012:

75.70 .0004 .0019 .0005

002(35 56014 ‘1'..\ 1.41
.0187 52.3? 46.16
.0115 55.10 40.40

*Folloaing values are beyond range of frictisn chart.

 

 

DATA Cal culatedRUN NO- 845

SHEET NO. 118

FITTING - SIZE OF STRAIGHT BRANCH: 3 X 8.

SIZE OF 90 DEGREE BRANCH: 1.3 X 8

ORIFICE SIZE - STRAIGHT BRANCH: g X 7

TYPE OF RUN: Test

Vfis‘Pz

9o DEGREE BRANCH: 153.3. x

V334

‘
5?:

DATE

QSTQB

 

2.146
2.017
1.905
1.780
1.67

l2<()6

.1888

.1049

1204.60
1091.53

1003.44

148.36

82.45

.144
.137
.113
.100
.087
.078
.061
.051
.041
.032
.035
.017
.015
.008

.0045

.003

.0016

.001

.0004

41.5
27.3
25.5

19.0

1755
1(43

'2 LT
UL!

1497

n ’- .-~.
A. ,. I
L3p'1...‘

h, if n
o '. «
{sa‘l‘xl

1115
1016
905

:0.1
87.5

87.7

DATA CalculatedRUN N0. 245 SHEET NO.1.‘._8A DATE

FITTING - SIZE OF STRAIGHT BRANCH: '1'.

U K 8
SIZE OF 90 DEGREE BRANCH: 1% x 8
30. D19. . 5.2”
ORIFICE SIZE- STRAIGHT BRANCH: 2 x 7 ACt. L. ‘ 6.7.3!
90 DEGREE BRANCH: 153;: x 5.3

TYPE OF RUN: Test.

 

 

 

 

 

L088 Added
Q50 VPS TF5 TP4~TP5 P5 Eq. L.5 EQ. L.5
251.28 .14: .4r8 .000 .500 5.58 2.02
257.74 .127 .417 .080 .875 0.14 2.23
772.81 .112 .2. .072 .770 9.55 2.50
205.41 .085 .5 a .080 .000 10.45 5.88
195.53 .085 .280 .05: .620 8.55 1.79
178.28 .071 .252 .045 .510 2 01 2.85
182.0 .050 .181 .040 .420 0.:0 2.54
148.5 .050 .100 .054 .275 8.07 2.5

154.00 .040 . 28 .028 .225 8.45 2.75
118.58 .051 .008 ..22 .250 8.57 2.81
101. 02 .025 .075 .018- .120 10.52 5.80
55.25 .018 .055 .012 .128 9.58 2.02

75.12 .012 .030 .010 .007 10.5 5.55

:07?
H
H
4:.
,5
.5.

57.31 .007 - .024 .007 .0
r36343 .004 .013 .005 . 575 5.53 6.5
28.01 .003 .000 .002 .010 11.11 4.35
24.60 .001 .004 .005 .0140 E{.55 13.70
“18.54 .0008 .0028 .0012
10.14 .0002 .0013 .0012

“Following v?lues rre beyond r3038 0f fr10t10n chart.

DATACE’lculfited RUN No. 24,5 SHEET NO. 1101-3 DATE

 

 

 

 

 

 

FITTING - SIZE OF STRAIGHT BRANCH: .. x 8
SIZE OF 90 DEGREE BRANCHzlg x 8
Ed. 018. c 13.0"
ORIFICE SIZE- STRAIGHT BRANCH: g x 7 3.355. L. 5 12.60'
90 DEGREE BRANCHzlfif; x 5;;-
TYPE OF RUN: Test
——"—E E- Loss A0060
Q60 VPG TF6 Tpé-TPa P6 Eq. L‘B E0. L'6
1435.03 .120 .551 .1337 .2705 66.78 54.12
547.18 .114 .319 .173 .240 72.38 59.70
1272.55 .101 .284 .173 .215 08.89 58.23
1109.01 .000 .240 . 38 .300 68.00 55.54
1116.73 .078 .310 .117 .170 68.82 58.16
1026.32 .000 .182 000 .140 67.81 55.15
9323.59 .054 .151 .0530 .1212 65.5 53.91
855.93 .045 . 25 .003 .101 68.52 05.60
705.60 .050 .100 .0330 .005 65.98 53.223
675.29 .035 .070 .041 .087 61.10 40.53
800.96 .0233 .0131“: .03" .055 533.153 45.52
502.525 .010 .0415 . 237.3 .040 $0.00 42.54
424.28 .011 .0231 .018 .0296 62.94 50.28
057.04 .007 .0105 .0115 .010? 57.97 4-23.31
353.53 .004 .011 .007 .0118 80.3 47.68
*169.12? .002 .005 .005
152.90 .001 .O .35 .0055
1:29.82 .001 .005 .001
72.29 .0005 .0015 .0011

“Following values are beyond range of friction chart.

DATA CflculatedRUN No.2“; SHEET No.119 DATE

FITTING - SIZE OF STRAIGHT BRANCH:5 x 3
SIZE OF 90 DEGREE BRANCH: 18 x 8

ORIFICE SIZE - STRAIGHT BRANCH: g 9: 7
90 DEGREE BRANCH: 16 x 6

TYPE OF' RUN: T851.

 

 

 

’t’
1
I
"0
N
1,

‘ ') "’1': . r1 3 C: C a
‘44 VI 4: a51- 4 .15 hub u? \.b

 

1706.71 .147 .483 244 1530 1754

{\‘I
...:
q
R]

.138 .425 220 1410 1859

CO
0
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L.)
i

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05.80 .114 .578 210 1350 1584

CO
H
(31

1500.04 .058 .525 195 1340 1455

a

q
(3)
{D

.086 .291 195 1150 1335
1220

o
('3
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105 151 950 1101

o f‘

. \,; ..~

0 O
O

.255 994.1C3 50 870 1005
.184 914.05 .042 . $0 120 530 543

I4 P‘ r4 I4 #4.?“ P‘ +4
C
' 01 -
U")
N
H
C’
’3')
()1
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CD
01
C

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01
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Q3
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0
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L
E‘
(J
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t’
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:q

.701 507.08 .018 .050 80 525 803
.634 498.18 .015 .043 55.5 440 506
.504 506.05 .008 .023 52 545 535

.3755 2“5. 05 .004 .014 5

o
{J
,5
{0
IA
.3

5.68 .008 .007 2

177.45 .0015 .005 83.5 170 104

O

{\I
[O
(n
09

.1788 140.50 .001 .004 19.0 147 186

.1095 88.04 .0004 .0024 3.3 3 EC

DATA CalculatedRUN NO. 245 SHEET NO. 119A DATE

FITTING - SIZE OF STRAIGHT BRANCH: 5 };
SIZE OF 90 DEGREE BRANCH: 193 x

u3m

ORIFICE SIZE- STRAIGHT BRANCH: 3 x 7 Act. L. - 5.75;.
90 DEGREE BRANCH: 1‘3 x 6

TYPE OF RUN: Test

 

 

 

 

Loss Aafiefi
r "J. '7‘ 'T'D ...???i: ‘5‘ T '
“SC . :3 -r5 .4 .... 5 P5 ...C. ....5 (3. L.

 

.870

D) (\3

7\) (- R

CO 'Q

. C

C E

{O C0.

0 o

H H

H m

M 'Q
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:u 3
o

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{7) \1

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0

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Q

L

U) 03

o

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H

CO
C)
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C
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D
7 I
O
O
L O

o\n ,nrq
.0t_:’...« .1, r

O
3
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O
11)
(I!
O
...:
\
O
...:
O
I
(.4
C)!
O
T}
L)

5
189.05 .031 .204 .050 .5'
8.40 .072 .253 .049 .3'
64.71 .051 .19? .044
148.73 .050 .100 .035 .
137.17 .043 .156 .027 .

r“.

.> :4 -q
0
(0
O

I' m
H
m
D
a
0'!

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has
C7
(.0
O

“.0
OJ
0

H
C 1

CT
I'
C
('13
(-1
N
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C
\1

('54

(‘4

l—‘ \1
(“5

CD 0
O

C".

\1

....

H

121.65 .033 .1105 .0?- 33 .253 11.51 4.55
105.81 .025 .0835 .0215 .210 10.24 5.48
04.70 .020 .084 .017 .100 10.65 3.97
79.53 .014 .0465 .0135 .115 11.74 4.99

64.78 .000 .051 .011 .003 13.75 0.90

53.833 .00? .O‘:O COO"? 0033:: 11.3,: 405‘:
38.2; . 0C .0-05 .0'35 .0. 75 1?.75 5.07

84.07 .001 .005 .003 .0130 14.41 7.95
23.00 .001 .004 .001 .Cll? 9.02 1.90
18.02 .0006 .0020 .0014
8.45 .0002 .0013 .0012

“Following valuefi FTP beyond rrnge of friction chrrt.

SHEET NO. 119B DATE

DATA CalculatedRUN NO. 246

FITTING - SIZE OF STRAIGHT BRANCH: 5 X 8
1 .

SIZE OF 90 DEGREE BRANCH:
EC}. 1318.. a 13.9“

 

 

 

ORIFICE SIZE- STRAIGHT BRANCH: g x 7 9.09. L. g 12.53;.
90 DEGREE BRANCH: 15 X 6
TYPE OF’ RUN: Test
Loss A0000
0,60 VPS 'I'Pe TPé-T’PB p8 Eq. L.6 Ln. .6
1480.48 .135 .281 .803 .890 60.00 07.00
1369.70 .117 .245 .181 .200 72.40 57.74
1897.26 .105 .220 .158 .?37 60.00 53.04
1200,09 .090 . 188 . 1.35 . 2.00 67. 50 54. . 4
1124.35 .079 .164 .117 .170 08.83 50.16
1037.55 .067 .140 .100 .148 67.57 54.91
937.17 .055 .114 .081 .122 65.39 53.70
056.84 .040 . 06 .067 .108 65.60 53. 3
795.00 .030 .08? .057 .001 62.04 40.’3
609.79 .030 .06’ .04: .070 60.00 47.34
613.44 .088 .048 .054 .057 59.¥5 4B.09
518.45 .017 .055 .025 .04”: 59.52 48.80
453.43 .013 .075 .017 .0305 55.74 4..08
545.75 .007 .015 .011 .020 55.00 f'.34
358.77 .004 .009 .005 .012 ' 41.67 20.01
“171.59 .003 .0045 .0025
155.43 .0015 .0055 .0015
124.48 .001 .0025 .0015
77.61 .0004 .0014 .0010

“Following values are beyond rvnge of friction chrrt.

DATA calculatedRUN NO. 247 SHEET NO. 130

FITTING - SIZE OF STRAIGHT BRANCH: 5

8
SIZE OF 90 DEGREE BRANCH: 133 8

NR

ORIFICE SIZE - STRAIGHT BRANCH: 2 X 7
90 DEGREE BRANCH: 1624x623;

TYPE OF RUN: Test.

DATE

 

 

VP TP a 9
1 4 7 4 ;§ °"
1717.22 .149 .447 233 , :30

301’. C.)

2.0335 1507.00 .100 .308 218 1480
1.90: 1495.14 .115 .330 202 1:83
1.77 1500.83 .OLB .293 $5 :30
1.804 1307.54. .0L0 .25:174 120.

1.515 1188.89 .072 .114 153

1.40 1100.03 . 82 .194 144 1010

1.207 993.1“ .050 .léL 130 900
1. :00 90”.18 .043 .120 1. 810
1.025 805.41 .055 .097 05 725
.90 707.20 .015 .075 01 030
.7716 800.31 .018 .755 77 050
..6505 50f.15 .015 .0.0 04 433

.506 307.60

893.60 .014 36 £00

.535" 133.45 .0013

’3
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H
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Q
(E,
C:
3‘.)
I.
k.
0
(J l
;..
Cg

d¥€58 175.70
140.58

88.12 .0024

87.3
07.6
87.4
87.7
87.7

00
-)x Q

59.3
88..

8
RiJQQ

DATA CalculatedRUN NO. 347 SHEET No. 190A DATE

FITTING - SIZE OF STRAIGHT BRANCH: 5 x 8
SIZE OF 90 DEGREE BRANCH: 18 x 3

E". “019.. :.- 5.3”
ORIFICE SIZE- STRAIGHT BRANCH: 2 x 7 AC“ I... :.- 6370'

90 DEGREE BRANCH: 15.25. x 01.

A,

TYPE OF RUN:

‘
T881.

 

 

.9

U1
C)

 

‘ 7r: 6 I:
['5 C4. --' ‘4' \.4

Eq. L.

 

.J

225.:0 .110"*".3001__-107§ .775 10.00 5.50
200.10 .005 .517 .071 .075 10.52 5.75
102.00 .004 .270 .000 .500 1..50 5.55
170.05 .071 .057 .007 .510 11.10 4.42
150.00 .000 .200 .050 .450 11.11 4.35
153.10 . 52 .172 .012 ..00 11.05 .20
137.51 .042 .144 .040 .500 13.51 5.74
125.44 .035 .117: .0315 .¢.5 11.00 5.10
115.:: .000 .000 .020 .23. 11.31 .54

90.07 .005 .070 .00. ..17: 10.30 5.:

80.11 .010 .000 .015 .140 10.71 5.75

74.58 .015 .043 .01? .102 11.70 5.00
0 .5; .000 .030 .000 .0705 12.01 5.05
47.. .005 .010 .000 .044 13.04 6.?”
31.05 .00: .000 .005 .0225 2?.2f 15.43
«$25.00 .001 .005 .002 .0110 17.;4 10.43
.17.7£ .000? .0037 .0025
210.33 .0004 .0024 .Of 0
6.00 .0001 .0011 .0013
”Followup vrlues are 1:030:10 I‘z‘ng‘e of friction elm-171;.

FITTING - SIZE OF STRAIGHT BRANCH: 5 x 8
SIZE OF 90 DEGREE BRANCH. 18 x 8 ._
tic. 51a». : 13.9"
ORIFICE SIZE— STRAIGHT BRANCH: 2 x 7 4.07,. L. :_- 12.0%
. 90 DEGREE BRANCH: 165x 0%"

2

TYPE OF' RUN. Test.

 

.a—— ..

 

 

Loss Added

 

 

05¢ VPs TF5 524-796 P8 Eq. L.6 5g. L.6
1494.42 .140 .241 .208- .500 58.57 55.01
1591.75 .121 .209 .179 .205 58.05 55.40
1502.44 .105 .185 .150 .250 57.85 55.17
1212.80 .092 .159 .154 .201 55.57 54.01
1141.48 .081 .140 .119 .175 80.29 55.55
1055.71 1.057 .118 .008 .150 55.55 52.57
952.58 .058 .101 .085 .127 55.55 52.59
870.14 .048 .092 .057 .105 55.81 51.15
792.95 . 59 .057 .058 .000 54.44 51.78
705.55 .051 .0555 .0455 .075 59.59 45.95
818.09 .024 .041 .054 .057 59.05 45.99
551.75 .018 .071 .024 .045 55.81 45.15
458.55 .012 .021 .018 .051 58.08 45.40
550.29 .008 .014'M .010 .021 47.52 54.95
258.55 .005 .009 .005 .0177 50.57 25.71

b
174.45 .003 .004 .005

157.95 .0015 .0055 .0025
127.22 .0014 .0025 .0015
79.14 .0004 .0014 - .001

“F01107103 values are beyond range of friction chart.

92

The data sheet: which follow give the observed and
calculated data for the third fitting tested. (both branohOl

3.0%" x 8').

Orifice Calibration - Sheet. No. 121 - 1:50
- Run N0. 848 . 355
Test Run, Observed data - Sheet Ho. 131 ~ 146
~ Run No. 256 o 871
Tent. Run, Calculated data. ~ $3115“. No. 147 ~ 1623
7 Run No. 2564- 271

DATA Observed

FITTING - SIZE OF STRAIGHT BRANCHzlf‘QN
SIZE OF 90 DEGREE BRANCHzlog

RUN NO. 248

SHEET NO. 131

ORIFICE SIZE - STRAIGHT BRANCH; Blocked
90 DEGREE BRANCH: 7 x 4;,

TYPE 0" RUN= Orifice C71 Eration

x8
x 8

DATE 9/24/52

 

 

 

 

 

Temp
Time PS’PZ P4 P5 P6 W3 DB Bar.
15:45 .00 .50 2.62 2.10 57 71 29.50
13:48 1.62 .17 2.20 1.76
15:51 1.52 1.78 1.00 1.44
15:54 1.05 1.42 1.455 1.15
15:57 .82 1.12 1.13 .90
14:00 .52 .68. .600 .550
14:05 .402 .535 .540 .450
14:06 .296 .556 .400 .514 58 73 20.48
14:09 .207 .356 .559 .282
14:12 .198 .264 .267 .210
14:16 .156 .2075 .210 .164
14820 .1075 .142 .145 .111
14:24 .064 .065 .086 .066
14:27 .055 .073 .074 .056
14:51 .027 .056 .056 .028
14:75 .012 .017 .017 .015 56 74 20.48

I- -IJ

 

 

 

DATAobser-ved RUN No. 249 SHEET No.122 DATE 9/24/52
FITTING - SIZE OF STRAIGHT BRANCH: 10:; x 8
SIZE OF 90 DEGREE BRANCH: 10.;— 1 8

ORIFICE SIZE - STRAIGHT BRANCH: Blocked.

90 DEGREE BRANCH: 8 x 5;;
TYPE 0" RUN= Orifice Calibration
5 * Temp .1-____
Time Ps-Fg P4 P5 P6 53 DB Iar.
14:45 2.90 1.82 1.85 1.09 55 74 29.48
14:48 2.74 1.72 1.75 1.02
14:52 2.56 1.49 1.54 .89
14855 1.98 1.20 1.29 .75
14359 1.01 1.05 1.08 .61
15802 1.51 .82 .85 .480
15305 1.050 .642 .650 .578
15:08 .77 .485 .495 .278
15211 .60 .569 .575 .209
15814 .597 .2475 .252 .140 60 74 29.43
15119 .292 .181 .185 .103
15825 .25 .156 .150 .088
15327 .202 .195 .129 .071
15850 .144 .094 .095 .050
15355 .072 .045 .046 .025
15358 .056 .035 .055 .019
15:39 .033 .030 .021 .011
15:42 .015 .009 .010 .005 59 74 25.47

SHEET NO. 12.5 DATE 0/24/52

DATA Observed RUN ”0- 250

FITTING - SIZE OF STRAIGHT BRANCH: 101. x 8
SIZE OF 90 DEGREE BRANCH: 10: x 8

ORIFICE SIZE - STRAIGHT BRANCH: Blocked
90 DEGREE BRANCH: 8%; x 3

TYPE OF RUN: Orifice Calibration

 

-_......__..-—-—

 

 

 

Témp
Time Ps-Pg P4 P5 P6 WB DB Bar.
. 16:00 5.27“ 1.55 1.60 .71 50 74 29.47
16:04 2.75 1.61 1.64 .61
16:08 2.64 1.16 1.16 .52
16:12 1.64 .010 .94 .42
16:15 1.61 .762 .782 .545
16:16 1.61 .623 .640 .266
16:21 1.040 .496 .516 .275
16:24 .82 .586 .607 .169
16:67 .560 .277 .266 .122
16:60 .410 .106 .100 .065 60 20.46
16:64 .616 .150 .167 .065
16:66 .266 .125 .120 .055
16:42 .196 006 .006 .041
16:46 .140 .072 .07- .061
16:50 .106 .050 .051 .021
16:64 .069 .054 .065 .014
16:67 .050 .025 .026 .010
17:00 .066 .017 .0175 .007
17:04 .016 .007 .0075 .0005 60 29.46

DATA Ob served

FITTING - SIZE OF STRAIGHT BRANCHzlogz. X
SIZE OF 90 DEGREE BRANCH: 10.33. X

RUN No. 351

SHEET NO.

ORIFICE SIZE - STRAIGHT BRANCH: Blocked
90 DEGREE BRANCH: 9 x 5.1).

TYPE 0" RUN: Orifice Calibration

124 DATE 9/24/52

 

 

 

 

 

Temp
Time Ps-Pg P4 P5 P8 WB Bar.
16:6 6.56 1.65 1.40 .440 60" 29.46
16:66 6.14 1.20 1.25 .690
19:66 2.76 1.06 1.09 .640
16:69 2.6. .675 .90 .265
16:46 1.96 .760 .755 .26
16:47 1.56 .622 .640 .290
16:50 1.61 .506 .52: .160
16:56 1.02 .666 .405 .120
16:56 .96 .622 .664 .096
19:00 .600 .225 .262 .069
19:06 .665 .150 .155 .045 60 29.46
19:06 .606 .115 .120 .065
19:09 .269 .099 .106 .060
19:12 .299 .090 .066 .024
19:15 .149 .066 .060 .017
19:19 .107 .042 .044 .0125
19:21 .075 .060 .061 .009
19:24 .046 .019 .020 .005
19:27 .060 .012 .0125 .006
19:60 .016 .006 .006 .002 60 29.46

Rfimarks: Noticeable fluttering of manometer meniscus at

higher velocities with this orifice size.

 

 

.(llllll

 

DATA Observed RUN No. 252 SHEET NO. 125 DATE 9/22/53

FITTING - SIZE OF STRAIGHT BRANCH: 103:,- x 8
SIZE OF 90 DEGREE BRANCH: 1053;. 3; 8

ORIFICE SIZE - STRAIGHT BRANCH: 7 x 4%.
90 DEGREE BRANCH: Blocked

TYPE 0" RUN= Orifice Calibration

 

 

 

 

 

.em;
Time Ps-Pg P4 P5 P6 WP 33 Per.
20:10 2.08 2.40 2.22 2.51 5% 67 2J.17
20:14 1.04 2.35 2.03 2.35
20:17 1.04 1.97 1.76 2.00
20:2 1.53 1.60 1.42 1.02
20:25 1.020 1.20 1.005 1.245
20:29 .81 .945 .845 .955
20:35 .535 .650 .576 .650
2 :5 .400 .47” .420 .400 50 B? 20.20
20:40 .550 .415 .555 .420
2 :45 .290 .340 .302 .350
20:40 . 55 .300 .222 .304
20:55 .107 .23? .206 .?35
20'57 .143 .103 .140 .171
21:01 .101 .118 .105 .120
21:04 .082 .074 .004 .075
21:08 .0525 .002 .054 .004
21:18 .052 .058 .053 .040
21:16 .000 .012 .010 .012 50 08 23.2

DATA Observed RUN NO.353 SHEET No.1136 DATE 9/23/33
FITTING - SIZE OF STRAIGHT BRANCH: 10.}; x 8

SIZE OF 90 DEGREE BRANCH: 10.3": x 8

ORIFICE SIZE - STRAIGHT BRANCH:
90 DEGREE BRANCH:

8 x 52
Elocked

TYPE OF RUN: Orifice Calibration

 

 

 

 

Temp
Time P3~P2 P4 P5 P0 W3 DB Bar.
15:25 5.15 1.55 1.25 .50 57 70 23.55
15:29 2.72 1.42 1.05 1.45
15:5' 2.50 1.20 .90 1.24
15:57 1.95 1.02 .75 1.04
15:41 1.60 .810 .60 .850
15845 1.55 .675 .50 .692
15:48 1.020 .520 .525 .550
15:52 .81 .410 .297 .42'2
15:55 .570 .224 .205 .201
15:59 .405 .205 .145 .2075
10:02 .504 .152 .101 .15“ 55 71 20.55
10:05 .255 .127 .095 .151
15:08 .217 .109 .077 .112
16211 .145 .075 . 52 .075
10:14 .1075 .055 .059 .056
15:17 .085 .054 .024 .055
16:20 .045 .024 .016 .025
16:25 .050 .010 .011 .017
15:27 .000 .000 .004 .000 57 70 29.35

SHEET NO. 137 DATE 9/33/52

DATA Observed RUN ”0- 254

FITTING - SIZE OF' STRAIGHT BRANCH: 10%. X 8
SIZE OF 90 DEGREE BRANCH: 101 X 8

ORIFICE SIZE - STRAIGHT BRANCH: 83’s I 6
90 DEGREE BRANCH: E10 CkGd

TYPE OF RUN: Orifice Calibration

 

 

 

 

 

Temp
Time Ps-Pg P4 P5 P6 W5 DB bar.
13:35 3.32 1.30““ .810 1.34 37 70 29.35
10:33 3.17 1.15 .730 1.19
13:41 2.70 .935 .570 .735
10:43 2.3 .325 .315 .355
13:40 1.02 .300 . 75 .70
13:40 1.37 .590 .370 .315
13:53 1.33 .471 .205 .433
10:55 1.030 .350 .317 .375
13:53 .91 .231 .170 .205
17:01 .530 .203 .122 .207
17:04 .401 . 3? .034 .145 57 70 27.35
17:07 .200 .103 .031 .103 -
17:10 . 32 .037 .052 .095
17:13 .193 .009 .041 .073
17:13 .143 .030 .030 .0035
17:19 .104 .037 .073 .040
17:33 .070 .073 .014 .023
17:25 .047 .017 .010 .018
17:28 . 34 .0125 .007 .013
17:3 .014 .000 .003 .003 53 30 20.35

DATA Observed RUN N0. 255 SHEET No. 128 DATE 0/25/52

FITTING - SIZE OF STRAIGHT BRANCH: 13.} x 8
SIZE OF 90 DEGREE BRANCH: 10:; x 8

ORIFICE SIZE - STRAIGHT BRANCH: 9 x (If;
90 DEGREE BRANCH: Elect-Iced

TYPE OF' RUN= Crifice Calibration

 

 

Time PE'PB
4.01

'11
g.

”.1"
U, .

‘1‘
G)

 

[’0
( .
o o

I-" I"

(.3 01
H
.

'9 C}
I53
0
r'
C
O
3...:
C
(“)3
LL“
01
C.
‘9
K.)
I“?
7'
9'
O

20 5.04 . 2b .edL .255
202:? 5.20 .210 .:”0 .F35
20::6 2.71 .F95 .353 .71”
20:33 2.33 .rco .F”‘ .095
20::4 1.07 .510 .220 .0“:
20:3? 1.61 ..11 .109 .4.“
23:11 1.2? .Y‘Q .110 .3477
20:45 1.040 250 .119 .2 2
20:40 .703 .1.8 .074 .210
20:55 .583 .139 .0”: .117 5“ (0 23.40
20:57 .405 . 02 .04” .100
21:00 .339 .07: . 3: .020
21:04 .947 .055 .C23 (I?
21:02 .139 .051 .0: 5 .055
21:11 .140 .040 .0 7 .042
21:15 .105 .0275 .012 .050
21:19 .162 .01: .007 .010
21:22 .04? .0125 .005 .014
”1:25 .0275 .00? .003 .00?
1 0

g)

.011 .004 .002 .005 53 C? £9.40

(‘0

Rewarks: Excessive cyclic duct vibrstion at higher velocities.
Apnlied wooden 013 he at intervrls to diminish
vibration.

DATA Calcula edRUN NO. 34112 51 SHEET No.13, DATE

FITTING - SIZE OF STRAIGHT BRANCH: 1:1,}; X 8
SIZE OF 90 DEGREE BRANCH: l”: X 8

ORIFICE SIZE - STRAIGHT BRANCH: Blocgiifl
90 DEGREE BRANCH: 7 x 45:. 8 x 59:, 833 x {3, 9 x (-3

TYPE 0" RUN= Cr: fice (30.3.113172‘2'3151'1

 

CPR (Q4)

7 x 4%

8 x 5%

8} x 8

n‘.
9 x ug

 

1100.09
1000.50
902.88
805.42
711.93
588.55:
408.18
437.48
400.25
549.67
510.38
357.66
1'; F3. .80
194.54
29.18
96.04

133d.18
1300.47
1307.74
1105.59

J87.15

gqg a:
l '1 .-" . \-." ‘J

737.57
I, 91

1303.01

1094.59
997.15
893.72
801.50
711.98
603.48

50‘? . 90

‘ h ’\
(I 1 I o
‘1’:. \10

147.10
89.58

1452.7”

7" (‘
UU‘ .4

238.11
1199.10
1 98.2
1003.44

893.73

793.84
"..&3
530.98
£07

I)?”
c. .?)U

463.75

'70() (7 i.)
L'xv :1 . L'KJ

DATA “ng if. tedRUN NO. 25; 3-355 SHEET NO. 33 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 1 :1
SIZE OF 90 DEGREE BRANCH: 1:351.

N54
513

ORIFICE SIZE- STRAIGHT BRANCH: 7 x 4:. 8 x 5.3”
90 DEGREE BRANCH: 531003.351 .-.

TYPE OF RUN: 0:151:11ij Calibg'mgj 0;"

 

. . CF” (Q4) .
?X47?* 8K5: 8,3X6

q

('1 C‘.
y: X U5

 

1334.59 1295.75 1-"5".7f:"-.C§}
10138. 58 1192.05 1'29]. .04
Q')€‘..OO 1()“’"..E‘.J 17300. 83

797.64 99~:..)1 1079.033

'2}
-§
0
CO
0
(O
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o
J ‘3
(D
H
(3 O
I...I
(L?
c
r‘ 7
('23

(3
LO
0

’1)
(“a

498.61 707.230 7:37.57
484.79 Sin)“ O:‘

u"
I“)
<1
C)
“Q
0

TI)
0

435.14 495.57 558.70
505.25 35.:.:c 497.40
545.89 57;. 5 457.4:
297.45 555.17 334.4:
24..5? 257.23 545.10
€3.06 257.cc 55?..4
150.10 220.57 355.41
140.50 133.74 20¢..5

74.57 138.10 173.51
74. 5-7 144.90

l’FdO 1'4
149:).2: 7
1‘10 bu. 78

'2'1'."
\ -.
6.1.:(1'. L\

1199.89
1103.45
937.15
82‘62. 65
891.50

\f‘l‘ O
.1 F’
v" ‘OUG

DATA Chij‘firwmd RUN NO. 3:55; SHEET NO.1;:1 DATE 9/34/55:

FITTING - SIZE OF STRAIGHT BRANCH: 10?}:— X 8
SIZE OF 90 DEGREE BRANCH: 11:9; X 8

 

 

 

ORIFICE SIZE - STRAIGHT BRANCH: r, x 2,}
90 DEGREE BRANCH: 7 X 4:. ‘
TYPE OF RUN: rm,“
f 71911;) fl

TI . O 575"} '2 3““: 1‘5 F3 :2 DD 3131‘.
3.333833 3.87 1.13. ” 1.013 1.03. CO 74.- 1:9. is.)
19:43. 5.61 1.171.} 1.03 .‘C'B

{3341.- 33.18 .8535 . 37C .81

‘3’"?! ”.74 . (74 7r .72).“)

:35. 1.3 .35. .5239 .3. f.
8020‘“: 1.030 ."4 .777 .f:‘
{30:35 . .70 .8323 .2308 .1?"
20:0” .580 .1177 .1536 .121 CO 7.73 23.48

"f‘r.’
.U'L)L)

N
)
H
g;
C
If.)
\1‘
H
0
C
Q
:2
U
C
\1

.037

I C

C)

H

‘1

.

U”!

(/1

:9

o

O x
n3

H H

r‘ {2
.No’

C 3
L)
C
D

C

C
..3
O

O
C)

f '1
o
D

,1:
’3
rod

.013
20:25 .031 .0095 .009 .007

20:30 .013 .004- .003 .0025 E}. 73 739.48

DATA Observed RUN No. 257 SHEET NO. 1; 2 DATE 9/29/ :2

FITTING - SIZE OF STRAIGHT BRANCH: 10': x 8
SIZE OF 90 DEGREE BRANCH: 10%;; x 8

ORIFICE SIZE - STRAIGHT BRANCH: 8 x 53..
90 DEGREE BRANCH: 7 x 4

“:3“?

TYPE OF RUN: Test.

 

 

 

Time Ps-Pg P4 P5 F5 Wm DB 33?.

 

19:10 4.35 .700 .810 .078 El 90 20.33

19:14 3.05 .500 .510 .575
10:17 3.13 .510 _ .445 .405
19:20 2.74 .450 .300 .40
19:20 2.0: .377 .0“; .002
10:20 1.35 .314 .273 ..0.

19:30 1.01 .255 .331 .247
19:35 .34 .311 . 935 .004

19:30 1.00 .103 .143 .100

10:43 .500 .005 .074 .092 01 90 20.03
19:45 .307 .030 .050 .007
19.41 .245 .o.° .13: . 30

19:57 . SC .0075 .000 .007
00 .055 .005 .0035 .004
:05 .014 .002 .001 .003 05 99 30.

DATA Observed RUN NO. 25.,

FITTING - SIZE OF STRAIGHT BRANCH:10%3- x 8
SIZE OF 90 DEGREE BRANCH: 10:3 2: a

ORIFICE SIZE - STRAIGHT BRANCH: 8-33- x e
90 DEGREE BRANCH: 7 x 4.3;

SHEET NO. 155 DATE 9/29/52

 

 

 

 

TYPE OF RUN: Test,
,__1 Temp .1”____
Time P3~P2 P4 P5 P5 W3 DB “Er.
20:02 4.51‘“’ .55: .420 .552 05 20 22.55
20:12 4.11 .515 .525 .512
20:15 5.51 .451 .553 .450
20:15 5.15 .505 .255 .500
20:21 2.70 .5: .242 .5:
25:24 2.55 .225 .=14 .r50
20:27 1.55 .254 .177 .257
20:50 1.00 .121 .145 .125
20:55 1.22 .152 .115 .155
20:50 1.07 .1277 .005 .129

20:39
20:42
20345
20:48
2035

20:54

80:57

 

rx '7
‘39 0 U4

 

DATA Observe-3:1

RUN NO.

SHEET NO. 154 DATE 9/50/52

FITTING - SIZE OF STRAIGHT BRANCH: 10% x a
x 8

SIZE OF 90 DEGREE BRANCH: 10-9.1

A:

 

 

 

 

ORIFICE SIZE - STRAIGHT BRANCH: 9 x 6,3}
90 DEGREE BRANCH: 7 x 4%
TYPE OF RUN:
— . Temp

Time P5-P3 P4 P5 P5 W3 33 Err.
10325*_ 4.75 .440 .205 .472 65 79 20.20
15:29 4.15 .530 .252 .410 Q
10:5 5.00 .545 .204 .309
15:54 5.12 .207 .177 .517
15:5 2.79 .250 .15 .275

0:40 2.41 .219 .151 .252
15:45 1.95 .177 .105 .12:
15:75 1.00 .145 .090 .154
10:49 1.29 .112 .0:0 .123
10:52 1.09 .097 .057 .102

5:55 .75 .0:9 .041 .074 05 20 29.24
15:52 .520 .052 .051 .055
17:01 .414 .05 .021 .059
17:04 .249 .02: .012 .025 ,
17:07 .1475 .015 .007 .015
17:10 .007 .000 .005 .0:w
17:15 .052 .105 .002 .005

17:10 .055 .00? .001 .0025

17:19 .015 .001 .000 .031 55 20 77.5:

 

 

 

 

 

DATA Observed RUN ND. 23.0 SHEET NO. 135 DATE 9/30/53
FITTING - SIZE OF STRAIGHT BRANCHzlg.) x 8

SIZE OF 90 DEGREE BRANCH: 10;. x 8
ORIFICE SIZE - STRAIGHT BRANCH: 7 x 4.3;.

90 DEGREE BRANCH: 3 x 5.5;.
TYPE OF‘ RUN: Test.
—- “u Temp

Time P5~Pg P4 P5 P5 W3 D3 Bar.
18:55 .20 .7433 .770 .541 04.5 70 22.19
18:38 3.60 .640 .C:"O .455
18:41 5.13 .50 .500 .400
18:44 2.74 .430 .500 .5532
1P:48 3.34 .413 .4218 .2375
12:51 1.00 .345 .3130 .245
19:54 1.5 .276 .285 1"”?
19'“? 1...? .831 .241 .107
10:00 1.05 .101 .107 .130
19:04 .81 .157 .142? .093 C4 7??- 29.16
19:08 .50 .095 .007 .006
19:12 .404 .002 .070 .048
19:15 .208 .044 .0116? .032.
12:18 .141 .023 .024 .010
10:22 .005 .010 .010 .007
19:25 .0550 .0075 .0075 .005
10:28 .027 .004 .004 .0 2?:
19:32 .012 .002 .002 .001 04 7'.“ 22.14

DATA Observed RUN NO. 251 SHEET NO. 150 DATE 93/50/53

FITTING - SIZE OF STRAIGHT BRANCH::I_o-3.;.~ x 8
SIZE OF 90 DEGREE BRANCH: 102. x 8

ORIFICE SIZE - STRAIGHT BRANCH: 3 x 5:}.
90 DEGREE BRANCH: 8 x 55:.

TYPE OF RUN: Test.

 

 

 

 

 

 

 

 

 

7555
Time P5~P3 P4 P5 P6 W3 ”B Ear.
10:57 4.52“"*"_".402’ .471 .552 54 72 20.14
10:40 4.11. .442 .424 .555
12: 5 5.52 .400 .575 .515
10:40 5.10 .550 .517 .205
10:42 2.72 .205 .272 .254
19:52 2.55 .245 .251 .124
19:55 1.23 .20“ .177 .125
19:52 1.74 .177 . 02 .155
20:01 1.22 .155 .124 .105
20:04 1.07 .110 .10: .0575
20:07 .55 .O>w .020 .005 54 75 27.14
20:10 .570 .0575 .055 .045
20:15 .525 .041 .057 .051
20:15 .201 .027 .024 .020
20:10 .151 .015 .014 .012
20:21 .02 .007 .002 .005
20:24 .050 .005 .004 .005
20:27 .025 .0025 .002 .002

20831" .0125 .0015 .001 .001 E4 '78 39.14

DATAobserved RUN No. 252 SHEET NO. 1:? DATE

FITTING - SIZE OF STRAIGHT BRANCH: 10:3;- 3: 8
SIZE OF 90 DEGREE BRANCH: 1053- x 8

ORIFICE SIZE- STRAIGHT BRANCH: 8?; x e
90 DEGREE BRANCH: 8 x 5:}

TYPE OF RUN: Test

 

 

 

 

 

 

1:0 5::

Time Pg‘PZ P4 P5 P6 W3 D3
15:05 4.71 .55T”~ .551 .220 55 75
15: 5 4.10 .550 .255 .254

5:11 5.52 .202 .247 .245

15:14 5.12 .252 .210 .217

5:17 2.02 .215 .125 .152
15: 0 .5 .102 .100 .100
15:25 1.54 . 55 .151 .150
15:25 1.01 .120 .107 .100

15:20 1.20 .102 .005 .055
15:52 _1.05 .035 .071 .071
15:55 .55 - .057 .055 . 55 04 77 22 5:

1 l
15:50 .001 .005 .005 .005
05... . 005 .005. . 005

OJ
0
(’3
O
C)
C}
E J
O
(3
C)
2.1
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0
(3
<3
0)
O
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U
E

r4 I4
N
U!
:9
O
(D
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O
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P
O
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(3
H
0
<3
(3
H
C)
('1
a}
’0

(\1
0.)

DATA Cbgel-"ged RUN N0.

FITTING - SIZE OF STRAIGHT BRANCH: 10.}:
SIZE OF 90 DEGREE BRANCH: 10.3}

ORIFICE SIZE- STRAIGHT BRANCH: 9 x 5.1
90 DEGREE BRANCH: 3 x 5.

TYPE OF' RUN:

Test

263

SHEET NO.

(L‘

H

D

1

x8
x8

138 DATE 10/1/52

 

 

 

 

Time 25-23 P4 25 P8 uge“953 Ear.
14:05 4.20 “ .200 .204 .207 05 70 ‘m25.04
14:09 4.11 .254 .177 .200

14:11 5.04 .224 .154 .202

14:14 5.12 .103 . 52 .174

14:17 2.75 .100 .115 .152

14:20 .52 .144 000 .120

14:23 1.55 .120 .002 .107

14:25 1.05 .002 .000 .020

14:20 .55 .021 .054 .072

14:22 1.07 .005 .040 .057

14:55 .52 .043 .05- .04: 05 80 20.34
14:32 .550 .05 .022 .050

14:41 .500 .025 .015 .020

14:44 .252 .015 .010 .015

14:47 .145 .002 .000 .007

1 :50 .101 .004 .002 .005

14::. .045 .005 .002 .002

14:5? .020 .002 .101 .001

34:55 .012 .001 .0005 .0005 05 20 25,24

DATA Observed RUN ”0- 2:34: SHEET NO- 13-9 DATE 10/1/53

ha

I I

FITTING - SIZE OF STRAIGHT BRANCH: 10
SIZE OF 90 DEGREE BRANCH: 10

3:

x8
x8

:L'i!‘

ORIFICE SIZE- STRAIGHT BRANCH: 7 x 4:).
90 DEGREE BRANCH: 8-3: x {3

TYPE OF RUN: Test

 

 

Temp
Time P5~I’3 “’4, F5 P8 ”8 .13 4.11”.
b 4.523: .6323 .830 .30“ C5 83 {8.4.4

...-I
( :1
f' t
( '1
0
C)
O
A
O
. f.)
m
0
(L)
1.,
o
3
Kb
«2

f"!
O o
0-:
(D

C
*5
H
A}
IPD
07
o
O
C i
”15.
a
O
C
‘3
C )
H
'2)

H H H H H
0" (‘1
45 :3-
‘Q 0%
O O
O H 4 ~.
\I L' 3' " A
”I 0 CI)
0 O
O O
O i4
if) '10
O O
O U
H r ‘
O 0
O Q
C) C)
:3 y:
0’1 U

R'C‘ I“ ;: -\ I‘A

v.00 .Uéq .CJiw .UL}? nC’O1fS

:.E" -- A“ r... F
1‘). Q.) .OUO .U‘d‘i . 00;) .OU?)

H
01
5.:
\I
O
O
l...l
N
I
O
C)
to
O
C)
o
O
F4
C»
CD
0
m
c.)
O
CO
UI

 

 

DATA Observed RUN NO. 29,5 SHEET NO. '140 DATE 10/1/53

FITTING - SIZE OF STRAIGHT BRANCH: 103x13
SIZE OF 90 DEGREE BRANCH: 10?. X 8

ORIFICE SIZE - STRAIGHT BRANCH: 8 x 5;...

90 DEGREE BRANCH: 8‘}:- IX. 6

 

 

Time 25-22 P4 25 P5 :4: mPDB Ear.
10:05 4.04 .405 .407 20 55 50 25.55
15:05. 4.12 .504 .552 .2575
125(11 5 55 .2 1 .515 .210 _
10” .: 5.20 7 .272 .1“:2
10.15 2.05 .220 “La: 1 1
10410 .5 .150 .1:' 153
10:21 1.00 .155 .107 .111
10:25 1.54 1:5 .157 .071
15.25 .55 .115 .112 .075
15:51 1.05 .001 .052 .053
15:55 .51 .007 .005 .044 55 79 23.25
15:52 .555 .045 .045 .050
10:41 .500 .0.. .001 . :2
15:44 .244 .021 .0 0 .015
15:47 .140 .012 .011 007
10:50 .057 .002 .005 .005
15:53 .05 .005 .004 .0025
MMS5 .055 .005 .0025 .002
13:0 .015 .002 .0015 .001 54 70 25.55

 

 

 

DATA Observed RUN NO. 355 SHEET NO. 141 DATE 10/1/53
FITTING - SIZE OF STRAIGHT BRANCH: 10%?» X 8
SIZE OF 90 DEGREE BRANCH: 10.} x 8
ORIFICE SIZE - STRAIGHT BRANCH: 851': X 8
90 DEGREE BRANCH: 85; x 5
TYPE OF‘ RUN: Test.
_-_-._ Temp ”—_.-M
Time 135-133 P4 P5 P6 “’13 Bar.
17:05 4.70 .512 .255 .225 54 7:: 20.55"
17:05 4.16 .27 .240 .-5‘
17:09 3.59 .255 .415 .109
17:12 0.15 .1075 .188 .147
17:15 2.77 .183 . {.5 .1223
17:15 2.51 .15- .15” .1070
17:21 1.98 .128 .115 .090
17:24 1.54 .10. .CE? .075
17:27 1.28 .055 .074 .058
17:5 1.07 .057 .050 .042
17:55 .82 .052 .040 .057 50 79 25.90
17:55 .50 .058 .055 .025
17u22 .415 .027 .024 .019
17:42 .205 .017 .015 .012
17:45 .140 .010 .005 .000
17:03 .0075 .005 .004 .005
rhsl .055 .004 .005 .002
1254 .054 .0025 .002 .001
1057 .0125 .001 .001 .0005 50 75 25.01

 

 

 

 

DATA Observed RUN No. 257 SHEET'No. 142 DATE 10/3/52
FITTING - SIZE OF STRAIGHT BRANCH: 103.; x 8
SIZE OF 90 DEGREE BRANCH: log:- 3: a
ORIFICE SIZE - STRAIGHT BRANCH: 9 x 5.33
90 DEGREE BRANCH: 8% x 6

TYPE OF RUN:

1 163m)

Time E’s-Pg P4 P5 P6 ‘73 DB Bar.
15:11 5.04 .2525 .101 .157 55 03 23.25
15:14 4.00 .235 .170 .1E1

15:17 4.10 .208 .157 .190

15:20 3.61 .18.. .155 .140

15823 3.19 .159 .119 .135

15:26 2.67 .135 .000 .104

15:20 8.38 .117 .000 .000

15832 1.95 .007 .071 .074

15:35 1.60 .080 .Oizr‘ .051

15:58 1.55 .037 .049 .051

15841 1.02 .051 .037 .059 53 7C “9.23
15:44 .81 041 .- 2'9 .02

15847 .580 .030 .020 .021

15150 .414 .021 .014 .015

15:53 .2350 .01125 .008 .008

15256 .141 .007 .005 .005

15:59 .062 .003 .002 .002

18:08 .049 .0020 .0015 .0015

16:05 .056 .002 .001 .001

18HM3 .012 .000 .000 .000 50 75 20.24

 

 

 

 

DATA Observed RUN N03535: SHEET NO. 14;; DATE 10,’;3,’53

FITTING - SIZE OF STRAIGHT BRANCH: 10.1 x 8
SIZE OF 90 DEGREE BRANCH: 103;: x 8

 

 

 

 

 

ORIFICE SIZE - STRAIGHT BRANCH: 7 X 41
90 DEGREE BRANCH: 9 x 3::
TYPE OF’ RUN: T681.
2*— T—fi —— Term
Time IDs-Pg z 4 P5 1‘6 ‘u’g- DB Ear.
18:40 4.00 .SLD . 612 .24? 55 71 23.23
19:43 4.17 .515 .560 .2380
18:46 5.60 .450 .493; .185
18:49 3.14 .585 «155 .161
18:58 2'. 75 .030 .3 G .1258
18’55 2. 71 .280 .310 .116
18:58 1.94 .33“: .28: .01“?
19:01 1.59 .190 .200 .080
19:04 1.34 .157 .175 .00”
19:07 1.01 .119 .1250 .0;.
19:10 .78 .035 .101 .0d8 55 7.5 2.0.30
13:14 .550 .0: 2‘ .0637 .055
19:17 ..‘3‘m .043 .050 .019
19:20 .250 .029 .023 .011
19:23 .143 .016 .0175 .008
19:4: .074 .008 .003 .003
19:89 .058 .005 .000 .0023
19:09 .055 .004 .004 .001

£9.50

Cd

19:55 .0125 .001 .001 .000 55 7

 

 

DATA Obgerved RUN No.

2'69

SHEET No. 14:4 DATE 1'0/2/53

 

 

 

 

FITTING - SIZE OF STRAIGHT BRANCH:13} x 8
SIZE OF 90 DEGREE BRANCH:]_o§[E x 3
ORIFICE SIZE - STRAIGHT BRANCH: 3 x 53
90 DEGREE BRANCH: 9 .. 3::
TYPE OF RUN: Test
— ‘ TEéJw— ”T“—
Time Pg-Pg P4 P5 P5 W}; 013 I 81‘.
19:41 4.83 .8157 .874 .178 5"” 7.3 £53.50
19:44 4.05 .297 .(5 {’3 .150
19:47 3.62- .;63 .2378 .leS
19:50 5.20 .231 .242 .11?
19:55 2.74 .191 .1307 .100
19:50 3.51 .1E4 .173 .085
19:59 1.99 .143 .143 .078
20:02 1.81 .115 .119 .0237
80:05 1.54 .098 .09? .047
20:08 1.10 .077 .060 .069
20:11 .84 .058 .000 . "2:9 55 73 22' .523
20:14 .580 .041 .04.: .02:.0
20:17 .39'"5 .028 .0295 .C15
20:20 .285 .018 .019 .008
20:25 .148 .010 .010 .005
20:88 .00.. .604: .004 .002
20:29 .047 .005 .005 .001
20:32 .034 .00» .002. .001 _
80:.5 .0135 .001 .001 .000 55 7:5 29. 3 .,

DATA Observed RUN N0-270

FITTING - SIZE OF STRAIGHT BRANCH: 103- x 8
SIZE OF 90 DEGREE BRANCH: 10.3; x a

SHEET No. 145 DATE 10/2/53

 

 

 

 

ORIFICE SIZE - STRAIGHT BRANCH: 85; x 6
90 DEGREE BRANCH: 9 x 8;
TYPE OF’ RUN: Test
—-_—w — “—7 Temp — —:
Time P's-P3 P4 P5 P6 :78 DB - Bar.
20:40 5.02 .2723 .2 u .152 55 7:5 2:52
20:45 4.65 .230 .7352 .142
20:40 4.01 .2233 .230 .1235
20:49 (5.65 .2303} .194- .111
80: EB 5.17 .177 .169 .097
80:53 2.71 .150 .145 .09“
20: 58 2.38 .130 .13.. .070
21:01 1.91 .104 .099 .05 '5
21:04 1.64 .090 .085 .049
21:07 .32- .075 .007 .059
21:10 1.03 .055 .058 .030 55 78 2.9.33
21:15 .84 .045 .04: .084
81:16 .60 .053 .030 .017
21:10 .395 .0731 .019 .011
21:88 . E42 .014 .01? .007
21: 25 . 154 . 000 . 007 . 004
21:8” .007 .004 .005 .002
81:51 .043 .0075 .008 .001
21:34 .0554- .00'3 .0015 .0005
31:38 .01?) .001 .0005 .000 55 73 99.34

DATA Observed RUN NO. 371 SHEET NO. 143 DATE 10/2/52

F'lTTlNG - SIZE OF STRAIGHT BRANCH: 10% x 8
SIZE OF 90 DEGREE BRANCH: 10: x 8

ORIFICE SIZE - STRAIGHT BRANCH: 9 x 5,1
90 DEGREE BRANCH: 9 x 6'

Alf”, a

TYPE OF RUN: Test

 

 

 

Time 125-23 P4 P5 P6 73 D3 Bar.
21:40 5.05 .210_ .170 .1275 55 72 25.54
21:45 4.55 .107 .155 .119

21:40 4.10 .172 .155 .105

21: 0 5.04 .152 . :2 .005

2 :5 5.15 .155 .107 .020

21~c5 2.75 .115 .055 .005

21:55 2.55 . 27 .077 .057

22:01 1.0: .050 .005 .045

22:04 1.52 . r: .051 . 59

22:07 1.50 .055 .042 .052

22:10 1.05 .044 . 54 .025 55 72 22.55
22:15 .55 .054 .025 .012

22:15 .550 .025 .017 .0125

22:19 .402 .017 .012 .000

22:22 .255 .011 .0075 .000

22:25 2150 .005 .004 .005

22:28 . 55 .0025 .0015 .001

22x0. .042 .002 :.0015 .001

2554 .052 .0015 .001 .0005

2557 .012 .001 .0005 .000 55 71 -25.57

DATA CF]. culatedRUN NO- 256

F'lTTlNG - SIZE OF' STRAIGHT BRANCH: 13.25 X 8
SIZE OF 90 DEGREE BRANCH: 10%; x 8

ORIFICE SIZE - STRAIGHT BRANCH:

SHEET NO. 147

7x43;-

90 DEGREE BRANCH: 7 x 4.35

.—

DATE

 

@138 :34 W4 T134 {75 0,6 (15+Q6 53 Div.
1.EK¥3 1548.43 .131 1.251 790 750 1540 48.7
1.90 403.99 .113 1.158 770 740 151:» 4-9.0
1.777 505.33 .099 .984 710 675 1385 48.7
1.655 1300.47 .086 .861 605 650 1205 45.6
1.524 1157.55 .072 .727 810 580 1130 48.7
1.589 1091.45 .061 .008 563 555 1005 48.9

1.281 1008.58 .052 .515 515 400 1005 48.5
1.145 899.73 .041 .407 00 435 805 48.0
1.015 797. 57 .032 .316 405 39:3 7730 48.7
.883 603.?4 .024 .255 373 734 687 48.n
.7315 “98.5 .013 .175 500 28;, 58’? 49.0
.6585 500. 5 .0 5 .122 853 342 403 48.0
.5205 409.00 .009 .085 208 5100 404 48.5
.394 509.60 .005 .047» 157 148 505 48.5
.2735 219.47 .0084 .0254 111 105 218 43.6
.2233 175.70 .0016 .0156 90 87 177 48.2
JflGO 158.50 .001 .0005 71 ‘0 187 48.3
JESS 86.04 .00050 .00458 41 40 8! 47.6

DATA CalculatedRUN “0' 256

SHEET NO. 147A DATE

 

 

 

 

F'I'I'rING - SIZE OF STRAIGHT BRANCH: 10% x 3
SIZE OF 90 DEGREE BRANCH: 1013;. x 8
ORIFICE SIZE - STRAIGHT BRANCH: 7 x 4:}?
90 DEGREE BRANCH: 7 x 43‘".
TYPE OF RUN: Test.
Loss Aaded
0,50 VP5 TF5 TP4~TP5 P5 Eq. L.5 Eq. L.5
795.5 .116 1.806 .095 .53 7.81 -4.65
761.4 .106 1.156 .027 .290 9.5 ~6.15
716.5 .094 .009 .015 .200 5.77 -6.67
608.5 .082 .847 .014 .? "1 6.09 -6.55
614.5 .069 .711 .016 .196 8.16 -4..’38
557.8 .057 .569 .017 .16.“? 10.45 ~a.01
515.4 .049 .501 .012 .14—0 8.57 -..87
468.4 .059 .897 .010 .115 8.70 -.».74
409.2 .051 .309 .008 .092“: 8.70 ~5.74
556.6 .025 .219 .007 .072 9.72 ~S.72
505.2 .017 .1695 .0055 .054 10.19 -...25
855.6 .012 .119 .004- .OE-i? 10.90 ~2.18
810.6 .008 .079 .004 .087 14.61 2.57
159.4 .005 .04? .001 .0168 5.9. ~6.49
112.8 .002 .02“: .0014. .0146 9.59 -?.95
“90.5 .0015 .014: .0011 .01 11.00 -1.4:
71.6 .001 .009 .0005
45.0 .0004 .0051; .00096
“Values which follow are beyond rarmjge of friction chart.

 

 

DATA Calculated RUN N025 SHEET NO.147B DATE

FITTING - SIZE OF STRAIGHT BRANCH:10}.~ x 9
SIZE OF 90 DEGREE BRANCH: 10.3;- x 8

ORIFICE SIZE - STRAIGHT BRANCH: 7 x 4:.
90 DEGREE BRANCH: 7 x 4;

TYPE OF‘ RUN: Test

 

Loss Added
("“60 VPG TF6 TF4-?P6 P6 LQ. 14.6 Eq. 14.6

 

 

 

755.1 .104 1.114 .295 41.05 27.51:
751.5 .059 1.755 .105 .272 55.45 24.92
660.0 .075 .nrfi .oea .240 37.02 75.54
552.0 .075 .775 .055 .205 40.40 25.05
555.2 .055 .355 .035 .175 :9.20 75.:0
555.7 .052 .557 .054 .150 {v.00 21.40
491.2 .054 .4r2 .051 .130 39.2: 25.50
457.5 . 55 .307 .040 .005 42.11 [5.57
559.4 .023 .794 . 72 .054 :Q.10 25.55
537.» .021 .215 .023 ..c5 35.39 21.84

.016

$1117

254.5 .011 .110 .012 . :0 55.55 19.70
193“; .007 .073 011 .074 45."' 52.2?
“150.2 .004 .041 .005: .015 40.00 20.40

106.7
86.4
66.7
41.0

.003
.0014
.0005

.0005

.0154
.0078

.0036

.0054
.002?

.0017

.00155

. r V ‘ .. . 3 l ‘\ 9"
Vchum wnicn follow are b55000 rrnye of fr1ction curt».

 

 

 

 

 

DATA CalculatedRUN NO. 357 SHEET No.148 DATE
FITTING - SIZE OF STRAIGHT BRANCH: 10: x 8
SIZE OF 90 DEGREE BRANCH: 10;} x 8
ORIFICE SIZE - STRAIGHT BRANCH: g x 535,
90 DEGREE BRANCH: 7 X 4:;-
TYPE OF' RUN: Test
W 04 W4 754 0.5 06 €25+Q5 " 01v.
2.cn51 1555.51 .155" .555 000 050 1510 55.5
21.51. 1500.54. .114 .710 510 570 1450 55.5
1u3700 550.04 .055 .505 550 550 1550 55.4
1.2555 1500.47 .050 .555 500 500 1500 5 .5
1.5555 1155.74 .072 .445 755 455 1150 55.5
:1.500 ‘1055.05 .051 .575 570 415 1055 55.4
11.550 557.15 .050 .505 500 550 550 55.5
1.155 905.55 .045 .555 550 545 555 55.5
1.05 500.55 .055 .155 400 505 705 50.4
.517 750.50 .055 .155 450 270 700 55.0
.7415 5.5.65 .017 .10? 555 250 57: 55.4
.522 455.70 .015 .071 :50 155 475 55.5
.405 555.05 .005 .040 252 145 575 :..0
.550 500.45 .005 .055 175 115 204 55.5
.555 105.50 .005 .012 115 75 55 :0.0
.250 150.75 .0017 .0055 105 0; 155 55.1
.157 147.10 .001 .005 75 50 135 55.5
.1154 55.04 .0004 .0024 45 05 75 45.5

 

 

 

 

DATA CdculatedRUN No. 357 SHEET NO.148A DATE

FITTING - SIZE OF STRAIGHT BRANCH: 10% x 8
SIZE OF 90 DEGREE BRANCH: 1035 x 8

ORIFICE SIZE - STRAIGHT BRANCH: 8 x 5.3.
90 DEGREE BRANCH: 7 x 4§

TYPE OF RUN: Test

 

 

 

 

Loss Adfieo
Q50 755 TP5 784-785 25 Eq. L.5 Eq. L.5
1005.8 .185 .755" .040 .58 8.00 -4.44—
J33.0 .150 .F72 .058 .42 8.05 -..:8
855.2 .154 .572 .028 .155 7.85 -4.40
788.8 .117 .507 .052 .525 9.83 -2.58
734.8 .088 .424 .025 .270 9.?? -u.18
675.8 .084 .550 .018 .28" 8.08 -4.55
810.5 .058 .288 .018 .185 8.?1 -4.25
558.8 .058 .2405 .0125 .1C5 7.58 -4.80
488.8 .045 .188 .011 .1:4 8.21 ~4.25
442.5 .058 .147 .008 . 05 7.55 -4.88
558.0 .024 .088 .004 .075 5.48 ~0.8b
299J3 .018 .040 .005 . :2 9.?3 ~2.82
258.8 .010 .042 .004 .0545 11..O -.85
185.5 .000 .025 .003 .0210 15.80 1.45
‘.118.5 .008 .0105 .0015 .010 15.00 2. 58
110.0 .002 .008 .0012
90.0 .0015 .005 .001
50.6 .0005 .0015 .0008

“Values which follov.1 ore beyond 178ij of friction clmrt.

DATA Calculated RUN No. 257 SHEET No.14913 DATE
FITTING - SIZE OF STRAIGHT BRANCHzlog; x 8
SIZE OF 90 DEGREE BRANCH:1O§_5. x 8

1.

ORIFICE SIZE - STRAIGHT BRANCH: 8 X :._

CZ.
90 DEGREE BRANCH: 7 x 4;.

TYPE OF RUN: Test

 

 

 

 

 

829.8 .072 .750 .085 .205 41.46 37 0

577-9 ~081 .834 .070 .175 45.48 28
555.8 . 52 .547 .051 .150 40.87 27

500.7 .048 .400 .059 .135 43.70 50

461.9 .038 .401 .048 .115 41.74 24.:

421.2 . 53 .355 .040 .006 41.07 29

550.3 .033 .227 .033 .070 57.14 83

310.8 .018 .178 .081 .050 57.50 25
278.1 .014 .159 .010 .045 35.56 22

.
O
“a
‘0
U1
Cs}
H
o
H
H
H
K}
0

180.5 .007 .054 .007
150.1 .004 .040 .000

...—I
I V]
”5
O
O

O
O
h 'I
C)
O

O O
t. J
L)

“121.0 .003 .025 .005 .

30.00 163.418

78.5
70.7
57.1

43.4

“Values xhich follow {re be and rzn e of frictian chyrt.

.001
.0009
.0006

.0005

0010 .003

.0079
.0040

.0033

.0013
.0014

.0001

 

 

 

DATA CalculatedRUN NO- 258

FITTING - SIZE OF STRAIGHT BRANCH: 105;. x 8
SIZE OF 90 DEGREE BRANCH: 1073. x 8

ORIFICE SIZE - STRAIGHT BRANCH: 8% x 6
90 DEGREE BRANCH: 7 ‘x 4.}.

TYPE OF RUN: T591;

SHEET NO. 149 DATE

 

 

 

W2 594 V134 TF’A 62.5 2.3 Q5+416 Div.
2.125 1559.21 .1410“ .095 1050 555 1045 54.5
2.027 502.79 .125 .545 1040 545 1595 .4.2
1.90 1492.95 .115 .554 950 510 1400 54.2
1.754 1401.55 .090 .494 910 490 1500 54.5
1.545 1291.04 .055 .415 940 440 1290 54.4
1.555 1204.00 .075 .559 750 410 1190 54.5
1.595 1090.95 .051 .295 710 575 1055 54.4
1.255 994.01 .050 .241 545 555 950 54.2
1.151 928.72 .040 .192 570 795 955 54.2
1.055 915.28 .054 .1515 525 275 901 54.5
.517 720.55 .025 .125 455 242 707 54.2
.755 005.40 .015 .057 555 205 592 54.5
.5157 495.15 .012 .057 511 104 475 54.5
.495 555.95 .009 .055 245 15' 575 54.9
.5755 295.14 .004 .020 151 100 291 55.5
.2525 205.55 .002 .009 125 05 10. 54.9
.2502 150.99 .0017 .0077 110 02 172 55.1
.1704 155.90 .0009 .005 79 40 119 55.5
.1225 95.20 .0005 .0025 55 55 92 59.1

DATA Calcfilated RUN NO. 258

SHEET NO. 149.4 DATE

FITTING - SIZE OF STRAIGHT BRANCH:10% x

ORIFICE SIZE - STRAIGHT BRANCH: 8%; x

8

SIZE OF 90 DEGREE BRANCH:1oé x 8

6
90 DEGREE BRANCH: 7 x 4-3.;

TYPE OF RUN: Te gt

 

 

 

 

 

L092 A0000
050 0‘5 705 724-2125 P5 Eq. L.5 q. L.5
1090.0 .220 .040 .05: ' .500 9.02 -2.70
1048.1 .202 .501 .052 .550 0.45 ~2.97
002.4 .175 .515 .049 .400 10.21 -2.25
919.2 .1-4 .440 .045 .420 10.71 -1.75
045.0 .151 .500 .051: .555 10.14 ~2.5
750.0 .114 ..r .051 .r15 0.04 -2.00
719.0 .095 .272 .035 .200 8.05 «7.50
054.0 .070 .221 .020 .275 0.0-7 ~5.47
504.0 .005 .175 .010 .100 2.90 -5.55
554.5 .05> .148 .0155 .150 0.00 -5.44
474.2 .041 .115 .010 .120 0.55 «4.11
505.5 .022 .020 .007 .007 8.05 -4.50
510 . 5 .019 ".051 .000 .050 10. 5 «2 . 10
255. 5 .012 .052 .004 .05< 10.55 «1.01
190.0 .007 .010 .002 .0220 2.05 -5.59
152. .005 .002 .001 .0115 2.70 «.74
115.5 .002 .000 .001
89.0 .001 .005 .0004
58 . 7 .0005 .0010 .0000

which follow are beyond r0030 of friction chart,

 

 

DATA Calculated RUN NO- 258

SHEET 510.1493 DATE

FITTING - SIZE OF STRAIGHT BRANCH:10% x 8

ORIFICE SIZE - STRAIGHT BRANCH: 93 x 6
90 DEGREE BRANCH: 7 x 4-3

TYPE OF RUN: Test

SIZE OF 90 DEGREE BRANCHzlog— x a

 

 

Q80

 

 

578.2
544.7
510.6
483.6
444.1
415.6
377.4
340.0
305.9
279.0

246.4

(‘3
O
J)
h)

D
\1
O

H
QC)

01

O
OHQQ

#4 P‘
ca .
Cl
0

...;
I

65.5
45.0

57.8

‘*V£lues which follow Ere

.000
.054
.049
.043
.036
. 32
.096
.021
.017
.014
.011
.009
.005
.003
.003
.0009
.0008
.0004
.0003

.050
.031
.018
.0070
.0058
. 00 i3
.0.33

\\

(‘3 f‘
,‘ I
. I. ...-...;

.01a5
.014
.010
.007
.005

nr-
0 U11.

.0011
.0000
.0005
.0002

..
\ “.“r. -r
L If. ‘5 ‘j ‘r’; \I

I)... 3‘, '(\
1 0.5! ‘\.o

45.08 3 54
40.51 01.;

44.18 50.-3
40.63 27.09
43.09 (7.45
43.16 23.82
40.00 27.46
40.30 80.7?

40.2” 99.?9
5 39.33 24.93

.0283 57.74 24.?
.0192 E .35 24.92

friction chrrt.

DATA CalculatedRUN NO. 259 SHEET No. 150 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 10.1 x 8
SIZE OF 90 DEGREE BRANCH: 10.7,. x 8

ORIFICE SIZE - STRAIGHT BRANCH: 9 x 6‘5
90 DEGREE BRANCH: 7 x 4.;

a

r
.4

~

TYPE OF RUN: Test

 

 

W2 Q4 VP4 TF4 ‘35 9:5 r:‘:£':""315 J 1‘ 1"-
2.175 1709.07 .149 .594 1100 550 1590' 51.0
2.055 1597.49 .129 .519 1090 490 590 51.0
1.514 1505.95 .114 .450 1010 450 1470 51.5
1.755 1401.05 .099 .595 950 450 550 51.2
1.557 1509.90 .097 .545 590 400 1590 51.0
1.555 1519.55 .075 .594 550 555 1155 5 .5
1.59 1055.95 .051 .555 740 550 1070 50.5
1.205 994.01 .050 .195 570 500 970 50.9
1.150 5.2.05 .040 .155 590 270 5"0 51.4
1.0:0 519.45 .054 .151 545 245 700 51.0
.505 505.54 .054 .09: 455 210 575 51.1
.7015 595.57 .018 .070 405 150 555 50.5
.54.5 505.55 .015 .050 555 1:5 49. 51.4
. 995 592.54 .099 .050 :55 119 57- 51.0
.5841 501.52 .005 .019 195 00 295 51.5
.5555 205.05 .005 .005 59 50 101 55.5
.259 179.15 .0015 .0055 105 :2 151 54.8
.1575 147.10 .001 .0055 75 40 115 54.9
.1255 95.20 .0005 .0015 ~-- 90 5 ---—

DATA Calculated RUN NO- 859

FITTING - SIZE OF STRAIGHT BRANCH. 10-. x 8
SIZE OF 90 DEGREE BRANCH. 10.1- x 8

ORIFICE SIZE STRAIGHT BRANCH: 9 x 6
90 DEGREE BRANCH: 7 x 4

TYPE OF RUN: Te st

:93: ta 44

SHEET NO. 1504 DATE

 

 

 

E01. L05 EGO

 

“Values

‘3']; 71 1 0:1

follow are

be

0110 tue

17* 11555

L055

050 VPS TP5 TP4-TP5 P5

1179.5 .255 .520 .074 .000 10.98

1102.3 .223 .455 .004 .500 10.80

1055.3 .195 .390 .08 .525 11.6
08 4 .0 .171 .340 .74: .400 10.45
005.8 .150 .304 .047 .410 10.24
843.9 .‘3 .801 .053 .350 9.45
755.8 .104 .200 .020 .28: 10.13

688.9 .000 .172 . 2. .240 9.58
61 .050 .13 .019 .190 9.74
503.5 .058 .115 .016 185 0.70
478.0 .042 .095 .010 .120 8.15
414.1 .031 .00; 000 .005 8.43
346.9 .02. .045 .057 .009 10.20
200.5 013 .03” .005 .04: 11..0
200.4 .008 .015 .043 . PCS 11.52
“157.5 .004 007 .001 .013* 7.41
110.9 .003 .005 .0016
05.9 .002 .005 .0005

of the friction

Added

’1059

L.5

Cllgrto o

DATA CalculatedRUN No. 259 SHEET No.1503 DATE

FITTING - SIZE OF STRAIGHT BRANCH:13,0».}:_~ x 8
SIZE OF 90 DEGREE BRANCH: 103;; x 8

ORIFICE SIZE - STRAIGHT BRANCH: 9 x 6?:
90 DEGREE BRANCH: 7 x 4;:

TYPE OF RUN: Test,

 

406.1

J

37‘.8

C

'uv (if.

O 13*.) o 4
507.1

280.5

VPG
.053
.045

o 0 4:0

.030
.020
.021
.017
.014
.018
.008
.008
.005
.005
.003
.0008
.0007

.0005

.015
.0088

..0057

.003

k‘

‘ s.\.4
f.

o 041‘ {1‘
TC!

. ‘,"\ "

60!:
o " \J

i _n
DOLC

ELI. L. 6

48.67
44.62

45.84
41.3
44.74

37.93
40.00
30.14

58.10

51.40
31.09
30.10
87.78
51.20
34.59

85.46

’9
.3)
o

. C"?
C‘)

:hich follow are beyond r?n5€ of friction Chrrt.

DATA Calculated RUN No. 230 SHEET No. 15 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 10.3; x 8
SIZE OF 90 DEGREE BRANCH: 13.1.. x 8

I!

1
‘1.

ORIFICE SIZE - STRAIGHT BRANCH: 7x 4...
90 DEGREE BRANCH: 8x 5:.

TYPE OF RUN: Test.

 

 

 

V - n VD TD Q 3 a, a
P5 P8 1,4 .. 4: .. _. ”5 (m6 D3+QC

 

2. 03 1621.06 .133 0L

0
'0
CD
("I
«I
g)
(f)
C ,‘1

P“ :4
0)
Q: -.
O

1.898 1‘91.41 .113 . D3 880 890
1.77 1590.85 .098 1 .649 575 920 1305
1.658 1301.25 .OEB .5”G 54‘

.53 1308.34 .075 .486 505 705 1210
1.40 1100.09 . 82 .407 ‘ 430 845 1105
1.257 087.73 .049 .535 410 590 900
1.182 913.08 .042 .27
1.035 805.42 .035 .814 355 4

7
.30 707.20 .CES .163 200 415 705
1

.748 587.78 .017 . 12 242 338 578
.6& B 499.70 . 1 .081 £05 800 455
.5 75 403.04 .000 .053 167 237 404

.5758 as 5.14 .004 .0

175.7 .0018 .0031 89 96 185

P-._—-Hh
§$:~’!. ‘4'.)
.1645 123.10 .3008 .0048 50 09 19

.1095 86.04 .00“38 .00358 56 44 80

DATA CalculatedRUN NO. 250 SHEET No.151A DATE

FITTING - SIZE OF STRAIGHT BRANCH21031 x 8
SIZE OF 90 DEGREE BRANCH: 10::- x 8

ORIFICE SIZE - STRAIGHT BRANCH: 7 x 41
90 DEGREE BRANCH: a x 53:-

TYPE OF RUN: Test.

 

 

 

Loss Added
050 VP5 765 7134-7225 P5 EG.L.5 325.115
671.2 .056 .552 .026 .055 11.06 ~1.58
615.9’ .070 .730 .023 .106 11.75 ~ .71
575.0 .060 .6 9 .020 .172 11.65 - .81
556.6 .055 .55: .075 .152 15.15 2.69
501.5 .046 .474 .014 .155 10.57 ’ ~2.07
457.5 .058 .504 .015 .115 11.50 ~1.14
408.9 . 51 .516 .009 .002 9.76 ~2.66
576.2 .0236 .557 .006 .050 7.5 «1.54
555.0 .0230 .207 .007 .065 10.77 v1.07
200.7 .015 .157 .005 .051 9.80 -E3.C~4
246.5 .011 .106 .004 .057 10.81 4.05
205.9 .006 .076 .005 . 2:25 11.53 «112
157.9 .005 .051 .001 .0105 5.41 ~7.05.
125.0 .005 .0237 .000 .0105
81.0 .001 .011 .001
75. 4 . 001 . 0065 .0006

54.2: .0005- .0045 .0005

553.7 .0005 .0023 .0006

“Values which follow are beyond: rr-<11.-j_.e of friction clmrt.

DATA CalculatedRUN Naggo SHEET NO. 15,13 DATE

FITTING - SIZE OF' STRAIGHT BRANCH: 1013? X 8
SIZE OF' 90 DEGREE BRANCH: 103;}. X 8

ORIFICE SIZE - STRAIGHT BRANCH: 7 x 4;.
90 DEGREE BRANCH: 8 x 59.

TYPE OF RUN: Test

 

 

C460
949.9

875.5
817.8
782.5
700.9

’5.
D4205

“Values

VPB
.160
.141
.123
.106

.000

.0004

I 0
<3 0
(‘3 '27:} (33

O

O
a"
O.

.031
.010
.007
.0055

.0014

.00096

3%.00
58.12
57.01
40.00
38.65
33.78

$7.14

Added
Eq. L06

24.48
24.64
24.07
25.45
25.09

'7' ."-‘ l 0
(I “ a) . K:

.1
')

'S-JO

C‘

0

{U

1.1
25.45

wnlch follow are beyund rsnge of friction chprt.

DATA CalculatedRUN NO- 261

SHEET NO. 153 DATE

 

 

 

FITTING - SIZE OF STRAIGHT BRANCH: 10% X 8
SIZE OF 90 DEGREE BRANCH: 10.32. x 8
ORIFICE SIZE- STRAIGHT BRANCH: 8 x 5%.
90 DEGREE BRANCH: 8 x 5:}.

TYPE OF RUN: Test

753353 04 794 794 05 Q5 05406 2 01v.
2.141 1992.5 .144 .042 970 910 1990 49.2
2.027 1592.79 .129 .579 950 775 1905 49.5

.919 1507.91 .115 .515 790 750 1510 49.5
1.75 1592.97 .097 .455 720 970 1590 49.2
1.907 1509.00 .097 .592 970 950 1500 49.5
1.529 1199.10 .075 .519 910 575 1195 49.5
1.412 1105.52 .095 .272 599 550 1099 49.5
1.291 1009.59 .051 .225 519 475 995 47.9
1.155 999.95 .040 .175 454 :25 979 49.4
1.055» 915.29 .055 .145 415 :50 905 49.5
.911 715.95 .029 .112 505 555 701 47.9
. 55 595.29 .019 .0755 299 292 590 49.9
. :37 499.99 .012 .055 250 255 49‘ 49.5
.511 401.55 .009 .055 20? 197 590 49.2
.;299 ::3.74 .005 .021 154 147 501 49.9
. 259 205. 59 .002 .009 102 95 199 49 . 5
.2259 175.70 .0019 .0094 94 75 159 47.2
. 1015 129. 75 .0009 .0055 ~90 91 121 50.4
.1119 97.25 .0005 .0020 42 44 99 51.2

DATA CalculatedRUN No. 251 SHEET NO.152A DATE

 

 

 

FITTING - SIZE OF' STRAIGHT BRANCH: 103-3. X 8
SIZE OF 90 DEGREE BRANCH: 1.34: x 8
ORIFICE SIZE - STRAIGHT BRANCH: 8 X 5.3:;
90 DEGREE BRANCH: 8 x 533.
TYPE OF RUN: Test.
L099 Added
053 795 -35 794-295 25 Eq. L.5 55. L.5
971.5 . 59 .910 .052 .59: 9.21 —-4.25
825.5 .194 .542 .029 .540 9.24 ~4.20
779.9 .112 .499 .027 .505 9.95 -5.59
719.4 .094 .411 .02) .292 9.40 -4.04
974.9 .094 .502 .020 .255 9.51 ~5.95
917.5 .070 .501 .019 .109 9.90 «2.94
575.9 .091 .259 .014 .172 '9.14 -4.50
525.5 .051 .215 .010 .149 9.05 -5.50
400.7 .059 .195 .010 .115 :9.70 -5.74
418.9 .052 .155 .009 .099 .8435 -4.11
575.0 .029 .109‘ .009 .079 7.99 ~4.75
4905.0 .017 .070 .0055 .054 10.19 ~2.:5
252923 -.014 .040 .004 .059 10.52 ~1.91
709.0 .009 .05.. .005 .027 11.11 -1.55
90.1. .005 .019 .002 .017 11..' - .99
.104.9 .002 .009 .001
92 . 9 .0019 .0059 . 0009
593.9 .0007 .0027 .0008
42.9 .0005 .001: .0007

which follow are beyond the r9059 of friction ch9rt.

DATA CalculatedRUN NO. 251 SHEET NO. 1523 DATE

 

 

 

 

FITTING - SIZE OF STRAIGHT BRANCH:13.§3 x 8
SIZE OF 90 DEGREE BRANCH: 103:. X 8

ORIFICE SIZE - STRAIGHT BRANCH: 9, x 5;.

90 DEGREE BRANCH: 8 x 5:

Loss Adéed

C83 .46 T3538 TP4“(:T8 P6 10. L06 BC. In
810.9 . 20 .31 3‘ .130 .33”) (“3.3" PSJ‘S
C3.I; .1.-3R olifloz ‘11:. 05f)" 0 70:? £4.17

43.2.0 .084 . 5’3 . I": .103 sway 10.79
394.4 H...” .1155 .0312? .OW‘ 53.?1 17.37
34.309 .04.; .O’() 0 ‘(3/3: ’3‘? 35.99 T :Qozq

r. r-

.8 0‘9 001‘) .041 .012 o C}'::‘;S 54 o 7’); .5 o C
135.5 .007 .027 .009 .074 233.375 19.79

65. 9 .0007 .0027 .0008
45. O .0004 .0014 .0006

”Values Which follow Ere beyom‘ rrmxe of'frictirm chrrt.

DATA CalculatedRUN NO. 8533 SHEET NO. 15:5 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 10., x 8
SIZE OF 90 DEGREE BRANCH: 10.9; x 8

ORIFICE SIZE - STRAIGHT BRANCH: 3%: x 5
90 DEGREE BRANCH: 8 x 5};

TYPE OF RUN: Test.

 

 

 

53:2 P4 VF'4 T374 ‘15 R5 “154-*5 ‘7 m“
2.17 1705.14 .147 .555 970 740 1710 45.5
2.055 1551.:0 .120 .407 000 0:0 150: 43.4
1.52:1 14:35.: 1 .11 '3 .404 £340 045 1455 43.4
1. 755 14:31 .05 .050 ....57 770 :2... 1595 43.4
1.55? an?" .054 .500 7.20 550 15:30 45.8
1 . 550 123-0 . 5.: .074 . 200 575 5.12.5 1:300 45.5
.. 1004.523 .051 .215 010 _ 475 1055 45.8
1.50:) 507.15 .050 .1723 55:5 42:5 550 45.4
.155 85.05 .040 .142 405 3:5 850 45.0
.052: 515.45 .054 .113 45.3 550 50:: 45.5
.925 7:50.20 .0237 .054 405 515 71-5 45.0
.751 015.00 ” .015 .055 555 25:3 5:31 45.7
.5255 40 .55 .012 .045 2723 2:10 452 45.5
.50 393.88 .008 .038 218 169 58'? 45.7
.5575 504.57 .005 .017 155 123 201 44.0
. 347 104.00 .002-2: .007 00 75 171 45.9
.2505 150.97 .0017 I .0007 0:3 75 171 45.9
.1759 140.5 .001 .0055 79 51 140 45.6

. 155.5 99.40 .0005 .0025 50 44 ' 100 44.0

DATA CalculgtedRUN No. 282 SHEET No. 1554. DATE

FITTING - SIZE OF STRAIGHT BRANCH: 10%:- x 8
SIZE OF 90 DEGREE BRANCH: 10;:- x 8

ORIFICE SIZE - STRAIGHT BRANCH: 8.}; x 5
90 DEGREE BRANCH: 8 x 5:}

TYPE OF RUN: Test

 

 

 

 

L050 A0000
050 705 005 054«055 P5 54. L.5 55. L5
000.5 .171 .505 .054 .400 7.50 ~5.05
000.5 .140 .454 .055 .410 5.05 ~4.50
541.0 .150 .577 .057 .500 7.50 -4.04
705.0 .115 .554 .015 .530 7.10 -5.25
702.0 .005 .270 .000 .275 0.50 -4.14
070.5 .055 .245 .021 .240 5.75 -5.00
615.8 .000 .200 .015 .200 5.00 -4.44
504.4 .050 .100 .015 .10? 7.05 -5.21
501.7 .045 .151 .011 .155 8.00 -4..5
450.4 .050 .110 .000 .115 7.75 -4.55
411.5 .051 .057 .007 .0? 5 7.57 -4.07
545.5 .000 .000 .005 .050 8.82 -5.50
270.5 .014 .050 .004 .045 5.00 ~5.55
221.- .000 .025 .005 .0205 0.17 -2.57
1170.0 .005 .014 .005 .0150 5.15 5.00‘
108.9 .002. .005 .002 .
101.63 .0015 .0040 ‘.0010
70. 5 .001 .005 .0005
55.7 .0005 .0015 .0000

“Values which follow are

beyond range of friction chart.

FITTING - SIZE OF' STRAIGHT BRANCH: 10,1: x 8
SIZE OF 90 DEGREE BRANCH: 105'; x 8

ORIFICE SIZE- STRAIGHT BRANCH: 81 x 5
90 DEGREE BRANCH: 8 x 5.}.

TYPE OF' RUN: Test

Loss Adced
I‘: W." n" . . .7 :-
“’80 (gr'd 3.9L; fi‘lé“ 1"6 }‘,6 LG. L. 6 LC. L.

 

 

738.5 .100 _ .428 .110 .275 40.00 28.46

044.9 .078 .532 .09: .8.5 39.50 3 .96

13

I")

1’)

O

...;

4:.

r:

O

r"\

0 <1

585.4 .055 .200 .060 .1

579.7 .05“ .T S .OE4 .1.0 C€.C4 f?.46
47?.4 .042 .17? .044 .123 35.77 2”.25
4.5.8 . C. .140 .039 .10? 35.90 2..?5
091.0 .078 .113 .029 .085 34.13 20.?9
358.0 .0?? .094 .035 .073 34.25 80.71
517.9 .01. .074 .020 .055 5 .4? 23.94
261.2 .013 .0: .015 .04. 55.71 “5.17
2 3.6 .005 .033 .010 .O.95 53.09 21.5;
171.7 .005 .011 .007 .01: E".R 23.30

1
184.0 .005 .013 .00? .0123 40.00 £8.48
85.2 .0013 .0043 .0027
79.4 .0013 .0043 .0025
61.5 .0007 .0037 .0008
45.7 .0004 .0014 .0011

“Values which follow are beyonfi r0030 of frict10n chrrt.

 

 

 

 

 

DATA CalculatedRUN NO. SHEET NO.154 DATE
FITTING — SIZE OF STRAIGHT BRANCH:10%- x 8
SIZE OF 90 DEGREE BRANCHzlo-fg- x 8
ORIFICE SIZE - STRAIGHT BRANCH: 9 x 6:”:-
90 DEGREE BRANCH: 3 2:
TYPE OF' RUN: Test
‘f533f2 04 VP4 794 05 30 05+Qe Div.
2.192 1722.43 .151' .447 1020 270 1090 50.0
2.027 1533.78 .129 382? 95-0 CL...) 15’}: 30.7
1.908 1230.87 .114 .3278 830 .555 1475 30.7
1.7538 1387.69 .097 .289 830 54'" 130:; 59.9
1.658 1502.82 .080 .255 770 508 1273 30.8
1.543 1212.46 .075 .2310 715 470 1185 39.7
1.407 1105.59 - .002 .192 650 420 1090 29.0
1.270 1002.00_ .001 .149 590 000 900 39.8
1.154 908.79 .043 .123 53-0 {55... 083 40.0
1.035 613.238 .053 .098 475 £310 791 40.0
.908 711.98 .086 .075 41.»? 2375 {3537 40.0
.748 587.76 .017 .051 542’ .330 57.3- 40.1
.8355 480.05 .018 .035 2‘05 188 471 59. ,
.002 594.46 .009 .025 200 153 190 00.6
..01 909.09 .0045 .0105 100 113 290 00.0
.247 194.09 .00» .000 105 70 190 41.7
.218 186.50 .0014.~ .0044 105 01 {36 30.8
.1013 120.75 .0000 .0029 75 44 110 57.0
-1095 86.04 .00000 .orlsq --- --- --- --~-

 

DATA Calculated RUN NO. 886 SHEET NO. 154:. DATE

FITTING - SIZE OF' STRAIGHT BRANCH:10-.

‘
.; x 8
SIZE OF 90 DEGREE BRANCH: 10}. y 8

..o

ORIFICE SIZE - STRAIGHT BRANCH: 9 x C
90 DEGREE BRANCH: 8 x 5

.—
I
L-

,-

,
J;
0

rd

TYPE OF RUN: Test

 

 

 

 

 

 

 

L090 00000
(LE3 ‘YPS ’m‘s TE’é- TF5 1‘5 [aq . L. 5 LC: . I). 5
1040.3 .108 .402 .045 .550 8.fl9 ~5.95
96 .5 .lCQ .346 .053 .45; 7.91 “4.55

004.1 .150 .004 .054 .410 0.29 «4. 0
0:4. .177 .250 .000 .090 0.07 —z.07
704.0 .115 .229 .027 .009 8.77 ~3.07
731.2 .090 .190 .025 .2 0 9.02 -0.92
005.0’ .091 .105 .019 .225 8.44 ~4.00

654. .016 .031 .004 .050 9.00 ~-.44
208."’ .010 .020 003 .0340 9.73 ~3.74
'105.8 .000 .013 .0015 .0918 7.09 "5.38

113.3 .002 .004 .002
105.33 .003 .004 .0004
79.0 .001 .003 .0008

‘WValues which follow are b05000 range of friction chart.

DATA Cale-.115 tedRUN N0-

FITTING - SIZE OF STRAIGHT BRANCH. 13
SIZE OF 90 DEGREE BRANCH. 13.

ORIFICE SIZE- STRAIGHT BR NGH:9
90 DEGREE BR NCH. 8 .- .7...

TYPE OF' RUN. "‘6

a, f‘ r.-

no.

SHEET NO. 15,31-

X‘VZ’

.-
.1.

328
0::

8

DATE

 

 

 

1:50 v.38 7:16 7‘4- ??6 0 r . 0.36“
002.1 .005 .302 .025 .r40 39.50
052.5 .073 .300 .070 .20: ‘9.54
575.: .050 .27 .071 .19; 14.17
503.7 .050 .250 .050 .100 30. 1
510.5 .04: .0- .071 .143 .7.70
431.5 .047 .170 .040 . ?5 30.20

whio1

follow

.000
o 00‘??-
.0037

.0014

q H
.09!
r rm

’I

O C 1...:

are b03000

.024
.Olil3

3339 of fric

t1021

have;
4"]. L06

 

\)
’3'? L".
up 0 .40

.‘vrt.

 

 

 

 

DATA CalculatedRUN NO. 2C SHEET NO. 155 DATE
FITTING - SIZE OF STRAIGHT BRANCH: 10%,» x 8
SIZE OF 90 DEGREE BRANCH: 10.3 x 8
ORIFICE SIZE - STRAIGHT BRANCH: 7 x 4.},—
90 DEGREE BRANCH: 8%. x 3
TYPE OF' RUN: Test,
r _.-_: ~.- v: r... 57,. ., - .
P5 1 2 “.4 1'4 1.4 .50 (O (154-(’6 . Div
2.085 1636.78 .135 .757 620 1015 lags 68.1

1.803 ’1434.55

1.73? 15585.4? .037 .54."
1.64:6 1281.04 .084: .4712
.5813 11:! -.0'74 .072 3430‘?)

927.16 .050 .275

854-9. 50 .040 .3230

1.05%) 809.35 .063 .190
.917 753.58 . W .111-23’

0 2:85 9‘; .86 .018 .066.
. 35 388.98 .008 .043

231345 207.84 .0‘ 2 .011
.2216 173.99 7015 .0075

156.10 .005

86. 2% .0005: .O 256

\
d

‘30
C“)

3.”.
E}

63.5
61.9
61.8
61.9
61.6
61.9
61.9
61.9
62.0
82.2
68.

81.5

 

 

 

 

 

DATA Calculated RUN No. 234 SHEET NOlSSA DATE
FITTING - SIZE OF STRAIGHT BRANCH:10:;. x 8
SIZE OF 90 DEGREE BRANCHzlo-g x a
ORIFICE SIZE - STRAIGHT BRANCH: 7 x 41
90 DEGREE BRANCH: 81— x 5
TYPE OF RUN: Test.
” “” ‘ “lag. "1.55.5“
22,50 . VP5 TPS 944135 P5 33¢. L 5 ‘q. L.5
(350.4; .071" .731 .023 .200 15.00 .56
003.5 .058 .614 .024 .159. 14.48 ...02
5229.0 .051 .535 .015 .150 8.6"? ~3.77
495.1 .045 .40? .014 .130 10.77 -1.C-‘.7
455.9 .0313.sz .015 .112 13.97:- .95
425.33 .055 .3313 .007 .0975 7.18 -o.26
580.0 .027 ."3:’ '7 .009 . .80 11.25 -l.19
658.9 .021 .2 .3.-E .0085 .0575 9.85 -3.59
308.4 .017 .174 .005-1 .044 13.64 1.20
2725.9 .014- .157 .005 .0525 15.?Q 2.0
260.2 .010 .097 .004. .03? 18.18 5.74
..185.7 .006 .064 .003 .0149 15.43 .98
140.8 .004 .0111 .001
115.5 .0023 .031 .001
80.8 .001 .011 .000
67.5 .0008 .0078 «.0005
56.1 .0008 .0055 -.0006
35.?) .0002 .0022 .00016

”Values, “411013 follow are 1353.de rsm‘e of friction chvrt.

 

DATA CplculatedRUN NO. 334 SHEET N01535:} DATE
FITTING - SIZE OF STRAIGHT BRANCHQQ'}; x 53
SIZE OF 90 DEGREE BRANCH: 10-3;- ;.; a
ORIFICE SIZE - STRAIGHT BRANCH? x 43.
90 DEGREE BRANCH: 5.3: x 3

TYPE OF RUN: 7,395.1,

L095

Adfled

 

'6‘: VT‘G -135 TPQ-TPG PG Fig. 14.6 130;. I408
101$. .. .3.-'3‘.) “253 .3023 .510 313.531 33.07
«101.1 . 1:9 .459 .159 .430 (59.50 235.75
859.5 . 3‘3 .405 .143 .570 53.46 2;.93
707.9 .117 .3415 . 134 .: :.0 4.1.98 257.34-
740.8 .101 .293 .11.) .3730 41.43 .,7.€'.
680.0 .0975 .2143 .OCS .340 40.00 25.45
617.73 .070 .200 .070 .730 5‘3. “10 24.45
553.6 .05l .15? .081 . CO 33.1? 24.5.3
501.0 .023 .130 .050 . 3...: 37.04: 23.50
4.48.7 .03 .103- .039 .10? (35.11 28.57
5733.8 . EC .0'75.~ .01": .3571 34.5: 31.05
5053. .017 .043 .017 .055 $0..»1 17.5
259.2 .010 .0139 .0‘15 .0345 C .8" 24.14
.005 .016 .007 .0203 54.65 21.11

#4 I4
to -q
«a (a
O C
O x)

«w are beymnfi r

1150 of friction

Ch?

1.3. 75

rt.

DATA Calculated RUN No.255 SHEET No.155 DATE

FITTING - SIZE OF STRAIGHT BRANCH:10~:‘=.- x 8
SIZE OF 90 DEGREE BRANCHzlo-E» x 8

ORIFICE SIZE - STRAIGHT BRANCH: 3 x 53;.
90 DEGREE BRANCH: 9.33. x 5

TYPE OF RUN: Test

 

 

 

(a
g}
.5.
:3
IF.
:3
,5.
1%
6:1
5
3%

01

2.155 lb 0.56 .145 .555 810 870 18‘
2.05 1E35.15 .129 .496 770 {ha 15
1.914 150;.99 .114 .435 730 735 14
1.769 14u0.76 .130 .377 670 755 1395
1.637 1306.53 .004 .514 613 6.3 1870
1.38 1114.39 .071 .271 568 £10 1178

7,;
H
H

H
G")
(M

915.08 .043 .155 430 470 9

P’ Id P' 14
O
01
(I)
H

O
O
C P?

.00 707.20 .025 .002 535 300 (
.745 5r5.41 .017 .005 27k 500 5
.6245 470.72 .012 .045 1.2 250 4
.404 588.18 .00. .029 154 105 55.
.574 305.58 .004 .015 157 1.0 2
.2608 204.93 .002 .008 94 0? 1;
-22.5 175.52 .0015 .0055 54 59 17‘

(a
H
‘1

O

+4 I4
J4 ,
.5

11C8.74 .085 .851 535 E70 10-

1005.55 .051 .159 450 515 5~'

142.78 .001 .004 67 80 147

89.58 .0004 .0034 55 E7 103

DATA CalculatedRUN No. 265 SHEET NO. - 63A DATE

15
FITTING - SIZE OF STRAIGHT BRANCH:10§; - 8
SIZE OF 90 DEGREE BRANCH: 10;: 8

NR

ORIFICE SIZE - STRAIGHT BRANCH: 8,1: 53:
90 DEGREE BRANCH: 8-5 x 6

TYPE OF RUN: Test

 

 

 

 

 

 

 

L552 Added

050 725 725 724-025 25 Lq. L.5 2g. L.5
515.2 .122’ .52” .024 .555 7.10 -5.25'
770.4 .100 .471 .022 .500 7.55 -5.11
724.9 .000 .414 .021 .205 7.22 -4.52
074.8 .024 .557 .020 .255' 2.51 ~5.25
017.4 .070 .202 .010 .102 5.00 -4.50
575.7 .001 .250 .015 .174 7.47 ~4.27
551.0 .052 .210 .012 .150 8.00 «4.44
485.2 .045 .120 .000 .120 7.14 -5.50
7455.5 .055 .147 .002 .105 7.22 -4.52
552.7 .020 .117 .002 .052 9.50 ~5.14
550.5 .021 .057 .005 .000 7.52 -4.25
279.8 .014. .050 .004 .0455 8.79 1-5.05
255.1 .010 .042 .005 .055 9.00 «5.25
157.1 .005 .020 .005 .0225 15.55 - .89
142.5 .004 .015 .001 .0150 7.55 1-5.09
100.8 .002 .007 .991

85.5 .0014 .0054 .0012

55.1 .0008 .0055 .0007

742.7 .0005 .0025 .0001

”values which follow are beyond rrngge of friction chart.

DATA CaIC‘IIlatedRUN NO. 2725 SHEET NO. 1363 DATE

‘..J

J

J

3 ‘rL

FITTING - SIZE OF STRAIGHT BRANCH: 19.- X 8
SIZE OF 90 DEGREE BRANCH: 1,3,. x g;

l'

ORIFICE SIZE - STRAIGHT BRANCH: 8 X 5';
90 DEGREE BRANCH: {3.33. x 6

TYPE OF RUN: ‘1‘5 21'.

 

 

“055 56650
. a ’7 In)“ Th. 0"?) . ‘5‘
ape Vps 1N6 q d‘.16 P6 p0. L.6 EG.L.6
w ... . . . .
'3 " ’3 ,4 4 4 no 1 r4 '5' '3 If}
If}? I Q of: Q l‘tl o‘i’JI-j 0 .3974 o ‘J’45 5.7-4.3 {QIJOEJLJ
a". Q (-3 "' 75'? ‘ r? 5- 0y «org '7": I '3 4
8.2.4407 Okib 0L)L-'-.5 011,70.) OL)‘:’L 12.1.1.1; (H.142

779.1 .111 .32 .114 .3’5 57.35
731.0 .098 .280 .007 .870 55.03
688.9 .083 .255 ' .081 .230 55.28
618.7 .070 .200 .071 .200 35.50
577.7 .001 .172 .059 .175 55.71
571.4 .050 .141 .043 .145 33.10

478.8 .04? .117 .038 .133 50.83

23.7 '. 33 .002 .035 .100 33.00
587.7 .07? .009 .033 .070 30.38
335.8 .017 .747 .018 .034 2 .8n
257.0 .012 .034 .011 .043 P7..3
301.1 .007 .030 .009 .0755 30.“?

D
at
U!
f‘ 'I
”'1
O
('2‘
."

151. 5 .004 .011 .005
*104.1 .002 .005 .005

50. 7:. .0015 .004 .0025

77 .7 .0011 . 005.1 .0005
45.9 .0004 .0014 .001

”Values which follow are b57055 rrnge of friction 012

H

17.55
19.46
18.73
17.00
13.03
71.75
19.79

DATA CalculatedRUN NC. 23:33 SHEET No. 157 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 1o 1 x 8
SIZE OF 90 DEGREE BRANCH: 101:. x 8

ORIFICE SIZE - STRAIGHT BRANCH: 91: x 6
90 DEGREE BRANCH: 8;”- :4 5;

TYPE OF RUN: Test

 

 

 

2.1 3 17-0.07m— .150 .452 500 500 1
2.04 1501.99 . :0 .409 540 7-0 1
1.515 ”1472.05 .112 .547 750 57= 1
1.775 524.72 .05. .5055 753 5:0 1
1.554 1507.54 . “a .225 650 13 1
1.53 11;4.r* .07: .22 C‘O 1 2 11<m
1.40 1 $2.09 .05: .150 5"0 515 107?
1.251 1001. .05 .157 5:0 470 1050
1.152 532.0 .040 .125 425 415
1.055 515.25 .054 .155 415 :7;

.905 711.92 .075 .077 555 55.

.7745 502.59 .019 .057 510 r“

.544 500.04 .015 . 40 205 240

DJ

.518 405.46 .008

O
O O O O
...:

"R9 500.17 .005 5 15.7) 130
.2508 904.15 .002; . 07 110 97

.2303 130.89 .0017 .0057 0:3 80

.1844: 141.00 .00 .0035 73 5

U!
{I}
I
I
I

.1111. 87.55;; .0004 .0014

U?
1‘.)
H
C
{.3
O
73>
C)

DATA CalculatedRUN NO. 266 SHEET NO.157A DATE

FITTING - SIZE OF STRAIGHT BRANCH: 0% X 8
SIZE OF 90 DEGREE BRANCH: 01:; x 8

PH4

 

 

 

 

 

 

 

ORIFICE SIZE - STRAIGHT BRANCH: 8% x 6
90 DEGREE BRANCH: 8%.; x 6
TYPE OF RUN: Test
:11“1____ 1 1099 _ 755;;
550 755 955 754-555 55 5Q. L.5 55. L.5
900.9 .151_m———. 50_- .05: 0000 __ .410 7.50‘ 0- -4.54
540.4 .151 .550 .025 .555 8.17 -4.27
787.8 .114 .597 .050 .515 5.55 -0.05
757.9 .100 .950 .0505 .575 7.45 -4.55
055.0 .057 .550 .015 .545 7.55 ~5.09
597.1 .075 .507 .017 .905 .25 —4.15
577.5 .001 .174 .015 .175 9.14 -5.50
555.5 .052 .140 .005 .150 5.5: -7.11
405.7 .040 .114 .000 .119 7.50 -4.55
457.0 .05. .005 .010 .100 10.00 -5.44
572.5 .055 .071 .005 .077 7.70 «4.55
515.5 .019 .052 .005 .055 5.59 ~5.52
255.5 .015 .057 .001 .045 7.14 ~a.5o
515.5 .005 .055 .009 .029 7.14 -5.50
1155.5 .005 .015 .005 .0150 15.05 - .55
105.5 .002 .005 .001
08.5 .005 .005 .0007
54.2 .0015 .0055 .0002

*Values which follow are beyond range of friction chart.

DATA C::.J.c-.uiatcaRUN NO, 3.3.3

SHEET NO.

FITTING - SIZE OF STRAIGHT BRANCH: 1C}:- :{ 8

SIZE OF 90 DEGREE BRANCH:

.9

ORIFICE SIZE - STRAIGHT BRANCH: g- x
90 DEGREE BRANCH: 5‘. x

n
J

L"

CECE

'1. mil. .. r‘
J..\.';: 3‘. (f.

lrna
...‘(.-

DATE

 

 

 

 

 

 

 

 

 

2
TYPE OF RUN: TEST:

m fl ‘. “TLQSS Afified
RC‘C “J’s :56 7:34“ ”:6 1’6 :1“. ..a. 6 3’31. L
510—32 .130— .m: .1.": .3220 37.27 2:3. 2?
756.~ .lqfi .301 .10“ .230 57.24 23.70
70 .C .C'D .259 .fiffi .855 $5.51 2”.97
d56.9 .079 .2?G .OQES .828 35.:9 28.34
813.5 .v73 .197 .07: .303 35.00 81.43
5C7.? .O"O .lFFS .0575 .171 03.¢3 29.0%
L‘?.5 .050 .léO .050 .léS 74.43 £0.§4

O
O
H

11 *3

O «a. '3
(7(5)

. a "2.

.075

'- I‘V‘TT" n ""
kzr.) o J o C: OLI'L".« o‘J: «I
fi??.l .31: .341 .013
: "*‘J'vl" 'Gll O:J&‘3 .010
1 31‘ :1’ s 8 o (J ’7 p 314:} p '3‘}:
141.4 .05% .GIO .003
$5.? .003 .305 .008
82?. 5 .0312 . 33:73:43 .0035

60.7 . GO? .0017 .0018

1‘57. Ht}?

8- J
}

L.

o
(.

'7)
.Q

 

 

 

DATA CalculatedRUN NO. 337 SHEET NO. 1:3 DATE
FITTING - SIZE OF STRAIGHT BRANCHzlog} x 8

SIZE OF 90 DEGREE BRANCH: 10-33- x 8
ORIFICE SIZE - STRAIGHT BRANCH: 9 x 63-

90 DEGREE BRANCH: 53; x 5

TYPE OF RUN: Test.
m3 :4 131-34: r113-4 .15 (30 7.35.115 01v.
3.245 17fl4.08 .159 .4105 583 {10 17.3 45.4
2.144 1004.71 .144 .570 050 3‘5 13?: 43.5
2.025 1531.21 .120 .330 000 £20 1500 45.0
1.30 1430.00 .113 .005 030 0:5 14rn 45.3
1.790 1403.40 .100 .259 700 505 573 43.5
1.034 1283.96 .004 .219 720 5.1 1270 45.3
1.523 1190.74 .072 .18. 670 515 1105 45.5
1.50 1002.2 .001 . 59 n5 1070 43.5

994.01
915.08
733.64

.90 Iu7.3

.7Clr 558.3'
.C435 3.1.5.85
.5” Z?5.Fg
.37L6 295.11
.249 195.65
.FOI? 173.G9

1493 .14
88.04

OOE’O
.043

.032.

43.8

43.4

DATA 031351 ~‘edRUN No. 257 SHEET NO.1533;; DATE

if;5 U

FITTING - SIZE OF STRAIGHT BRANCH: 1C; 1‘ x 8
SIZE OF 90 DEGREE BRANCH: 10., X 8

ORIFICE SIZE - STRAIGHT BRANCH: g x 6.1.
90 DEGREE BRANCH: 91, x 5

TYPE OF RUN: Test

 

 

 

 

LOSS A5690
..FF V135 T235 '31’4‘fi’5 P5 ’SC. ....5 - G. L
[1.3.5 .15? .C73 J.f75 .4 5} 7.5” ~4u?{w
“35.2 .1“ .713 .‘98 .450 3.05 “1.44
007.0 . 51 .5 7 .070 .415 5.75 -5.00
946.5 .131 .27? .3“ ' 03"? 9.116" ‘4.{28

5u3.6 .058 .116 .0»: . 65 S. E 9.71
Slo.fi .044 .0":~ .011 .143 7.?5 ~4.€“
447.6 .337 .074 .C}7 .113 7.1: ~4.LO
C:I.7 .3 “ .05 .to- .777 ..09 -T.45
-‘?0.“ .791 .011 .937 .0"- 13.77 -1.8?
793.7 .015 .CSS .398 .134C 13.4- ~2.C?
.294.4 .00? .017 .003: .0?1 11.57 -1.15

2167.3 .005 .010 .051 .01?9 5.4? -R.QE

Q4. 7 .O'Dl:: .CC:: 0 30

“Vblues vbick follow Ere be onfi rongc of frictian chrrt.

DATA Calculated RUN No. 867 SHEET No.1588 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 10%.: x 8
SIZE OF 90 DEGREE BRANCH: 10% x 8

ORIFICE SIZE- STRAIGHT BRANCH: 9 x 633
90 DEGREE BRANCH: 8:}:- x 3

TYPE OF RUN: Test.

 

 

“Val 1168

Loss Adéed
(-350 We “’0 71-7116 P8 to, L's 11.3. L's
76".?) .108 .C00 .1055 .2 5 35.76 13.23
73.9. 5 .037 . 278 . 101 . ’7.) 57.41 33.97
884.3 .1386- .288 .070 .240 33.17 13.65
646.5 .077 .217 .378 .215 33.18 33.74
537.7 .058 .191 .008 .195 35.25 81.69
556.0 .057 .101 .058 .1023 55.80 28.26
530.6 .050 .140 .049 .145 35.79 20.25
475.1 .041 .115 .045 .128 {55.25 21.71
453.4 .054- .005 .0335 .102 3:4. {51 20.77
398.5 .0239 .080 .020 .087 {53.515 0.79
546.0 .0223 .061 .0223 .088 82.55 13.91
507.6 .017 .047 .013?I .025 34.55 31.01
2351.5 .015 .054 .014 .041 54.15 23.61
222.0 .000 .024: .010 .050 {135.33 13.79
163.5 .005 .015 .0065 .0185 35.14 21.60
127.8 .005 .008 .003 . 31 27.37 13.73
” 84.5 .0015 .0055 .0017
74. G .001 .0025 .0015
64. 4 .0008 .001-3 .0012

which follow are beyond range of friction chart.

DATA 0413:114tedRUN No. 3:33 SHEET No.1?) DATE

FITTING- SIZE OF STRAIGHT BRANCH. 152::- X 8
SIZE OF 90 DEGREE BRANCH: 177:} X

m .

ORIFICE SIZE - STRAIGHT BRANCH: 7 X 4,
90 DEGREE BRANCH: 9 x :3

”...-'4") ll

TYPE OF RUN: Test

r- .. *3 f‘. NT) In T" I \
VPolz w; H} *«4 »5 ‘m

 

 

 

8.1:4 1894.71 .144 .709 525 113; 39?
5:3 00(1281 1((1;G.x . 5(3 . 1:743 . "#4:; 5'20 CLO 182;)

1.803 1431.41 .113 .503 535 S70 13

1.775 1505.19 .090 .483 500 008 1

1.055 L;:3.93 .0535 .415 405 940

1.59 1134 .39 .073 .353 426 770 1.

1.595 103:.339 .081 .235 595 715 1
(-13.51 (\ .{D n 7!- '3’ "£- ., . ,-
0 “L: ... \-' 0 ’37 0‘. on) o 4.‘£\) q. L13 3. (1...;

.E)$“; 6-;0524 00:?!” 9113 2.95 4’1:
.?;: CV-.05 017 ”7% :9? {,5

.551 435.93 .415 .050 174 a 7

.,. v :35.» fin - fir .. ~ .- ,. ..
. in) uwt} ~ Sbc‘ . (/1! ’§ . (.337 1633- (-4.4-
. h f‘ f‘ (‘3 r on F ’0‘ .i r‘
o 8?? ‘-‘""£)I (‘4 01-.)\.):) oUE‘ lt)‘; r31.)

9
H
L‘-
‘1
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9
£5.
(—1
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f
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Q
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...:
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33
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I
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I

1"."
0‘,
K- )
«rs
4-41.
4- '5

DATA cg‘lculmflg RUN No. 2:353 SHEET No. 15371:; DATE
FITTING - SIZE OF' STRAIGHT BRANCH: 1:}; x 8

SIZE OF 90 DEGREE BRANCH: 1.3}; x 8

x 4

6

STRAIGHT BRANCH: 7
x

ORIFICE SIZE -
90 DEGREE BRANCH: 1;:

 

 

 

 

 

 

 

TYPE OF RUN: meat
.. L.
’ n 'I‘ ‘2 3.
1.103... 1‘ I .~'((€(1;
‘ 'O"? u‘. ( ff“ t.‘ .V‘. ....
L. H. {a A. T; A - A‘. +. ‘ 1 ’fl w" u .-
‘bv 5 E 4 5 5 " ”’5 ’ ” 'b
531.? .fica .678 .0?: .19: 17.?4 5.43
564.9 .HSW .al? .024 .15“ 14.6? 9.09
‘ r. __ :"\ ‘ fl ‘ ff" F'-
Srlq.4 oat“. 05:: oi’lq 01‘4“ 1’1). -'U‘ '° 01.3-3
"\ :' fir: fir‘ v“ '
47"} 0‘31? 0 t"..- (A. ( “(tot/l7
Q '7’) .1 ("3
k {.1. U. are

4:
O
()1

R
‘I ‘2 o
(l ' C 1"" ’f ’7 7 .~ _'.
U. - o‘atW. ct L 0‘ 's.\
2’27: -. A“: 3" “PM“: r: - P 'r'z
‘ 0“ .\.’V_{’ g .k"- ( .OKI‘ (*.‘ L"
4‘! A :5 r‘ '-a‘ \ r? (3 oz ,‘3 "“‘."'Q , In“ 1 I 2 "f 1 F31
Q. ’3'!” o Q \J-i', 1 . L t ." g \f L" Q ~-: (a -L .. o I! ! ... O K'
'2- : (3 - r (pm my: ~. {‘7 1 r) \7 '77
l : l 0 . Kali. \‘ Q ~ I; Q 50' a"? 0 (Rib A...) 0 .‘w' n 0 Lo'
' ‘1 - 1 ' ~- w I n ":f % r- ~.. ~."
5 § ‘ .
:/ -'o l . Us.“ 0 Q“? o 'I o ‘2- :.A L;:.I ”-094
o f‘. .-. x (‘ .-.”-- '1 I’A "Y ,‘ .1. w w 1 ,n s r
. . , ( . 1 I’
-..“k'~)0 k) 0 ‘Jll Q 11": o \J’n.’ / . g1. u. Lt’o ' (/3:
,‘ [q \ . I‘ .l‘ f‘ l _4'\ K“ A ‘. 1 P '_ .~ (w I
l I l,-. f‘ - . '1 .. . / .
: -‘Ii' .5 Q 'J‘J . 7‘... . '-.- \_- fl. 0 .2 .3... . ‘ .u 0 ‘r
1 ~27- -. ":0 -* n :' : , r:- ~ It (VI . r "~
-'L—o\- o\-' . ovt. .-.a, O\-':-. to» \.\~’
('5 I“ \ I. " r." ... o“ ‘_ l .".1 '..’ f , l "' f f":
o‘u’a‘z o"- L'.’ .Ju 021 Int} 70‘: ‘Lod'u

1410C. -
PE .5015

0
C
C)

’3".
. I“
V") O 4

0‘: .(WI. .'
t‘AL' . 4. .C k):’j . \u
KI‘ ' 'r\r-"/“I A \ t a A «a
L.) H . ' Q . k-”u“.,' 1“ . .\J.‘J'"..." . . ‘dlfwt’d
‘ . ._ _: Yr- ‘ \ ‘_ f‘ '5 2 ,- '1'. I
*nvoiu ZuJ'G J: ITiCtLVH onyrt.

.mu
{.1 77f ‘1'“

“"?l“ne vsiqicZI f0 11.01:!

V M V

DATA CalculatedRUN NO- 268

FITTING - SIZE OF STRAIGHT BRANCH: 10%.. x 8
SIZE OF 90 DEGREE BRANCH: 1035: x 8

ORIFICE SIZE - STRAIGHT BRANCH: 7 x 41
90 DEGREE BRANCH: 9 X 6;?

TYPE OF RUN: Test.

SHEET No. 159}; DATE

 

 

 

 

Loss
Q60 VPQ TPS TP4~TP6 P6 Ea. L°6 Eq. L‘G
1095.4 .219 .401 .248 .580 42.70 20.22
1059.8 .108 .418 .225 .525 42.86 20.32
962.0 .170 .355 .208 .455 45.71 63.17
808.8 .148 .509 .174 .400 £3.50 20.90
850.5 .138 .806 .140 .850 42.5 20.05
739.2 .108 .224 .128 .500 43.07 30.15
700.0 .091 .189 .108 .155 41.57 88.05
041.1 .075 . 55 .085 .211 40.28 25.74
587.6 . 00 . 29 .070 .180 88.89 25.35
511.4 .04: .008 .053 .140 57.86 24.52
447.0 .057 .075 .044 .110 40.00 E..48
087.0 .025 .050 .080 .078 30.18 34.82
$20.5 .019 .058 .021 .059 5.50 28.05
251.1 .011 .038 .015 .0375 3.00 21.48
187.8 .000 .018 .009 .01515' 40.C4 2.7.00
154.9 .005 .000 .004 .0125 37.00 18.46
115.8 .0084 .0044 .0082
88.5 .0014 .0024 .0020

”Values which follow are beyond rs'rxg;.e of friction chart.

DATA 00.10'2115tEdRUN NO. 2.33 SHEET NO. {30 DATE

(1300!“

FITTING - SIZE OF STRAIGHT BRANCH: 13?: 3:
SIZE OF 90 DEGREE BRANCH: 13:3. x

ORIFICE SIZE - STRAIGHT BRANCH: a 3.; 53-;
90 DEGREE BRANCH: 5‘, x {3;}

TYPE OF RUN: Tept

 

 

p
‘ 1
II":
.45
3"!
I
m
k
(5‘:
*I.
I
‘I’
"\

 

 

1793.33 .lul .53? 7?” SEC 1733
1133.03 .1.? .394 715 073 1:05
1.3U0 1400.3: .113 .57" "73 $73 14”;
1.727 1435.75 .100 .351 '?9 773 lFTf

D
(
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9 I
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Ci? \‘3
c" -, -‘
x ’1 7 ’
fl" \
b. J “-3
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3:? "37
U Q
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:7 f‘ I
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7.“ *3
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r, 7‘“ "Jr“.m \r—q n;- II 3. '7‘ f“
3... .’_,"_‘p L C- ( 01“ CC:-'J I 1.1 1.2%»; U‘iu S" ,
A 1 r. F'V A r... 5:. A ro- 1‘ rd PA”

1 g 3.1,; ‘ ER! . ggfi O DA: 0 1.’ ,3 {ISO 1“ u I Lit)

[-4
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.117 7.0.50 .;?3 .094 $17 370 73”
.7615 5.-.?“ .CSS .050 2?: n7. ET.
.ég05 £15.‘3 .013 .040 230 305 4?:
.5 5 404.00 .000 .033 175 300 303
. i" E’: {305: . .553 . 005 . 015 £10 513- 27753
.54. 105.05 .303 .001 84 107 ‘03
.413? 171.3? .0014 .0044 73 75 140

“x", f“. 7 F'\ f" F.’ "C
a dull 0 CJ‘) 1.") xx) 1‘. SJ

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DATAC3. 1.3114? uRUN NO. '77-'33 SHEET NO.1(}3 A DATE

I.)

FITTING - SIZE OF' STRAIGHT BRANCH: 11);: x 8
SIZE OF 90 DEGREE BRANCH: 10'}, x 8

ORIFICE SIZE STRAIGHT BRANCH: 8 x 5}:-
90 DEGREE BRANCH. 9 x

TYPE OF RUN: Test,

LQSS Acczed
T 2“, ~31 r1 ~. ~. 3") T:- ‘-. " ’ 17'
“n 3‘“;1 ...?)fi fluff: L..IT~T.'3IZ & {7‘ 4,40,. 140C? 5~--30 Log:
U V V ‘J 33‘ U 0 ’ I.) " \;

 

 

778.3 .111 .435 .C33 .305 7.54 ~4.?O

r- < :- 7‘4-‘3 q: A,“ 3!“ (a n ~_f~._r- .33 {fin ,. 3 n

I 1.1.1 o O o (V‘CJL. . 4‘7".) 0 \J "'5 Q 6km-) ‘J‘ o '94 “'0 o :36
x w - . r a a q» n- ... 3

{-IQJQO GK} 1‘: OLD“ 0017 0:111 o f.) TQ~14

" 5 - - 3'» 4‘; ' . -' _‘ PI ‘1 ‘ , -"-.- H -
:3"'\)9A: 9(3'02 O<¢{.N? .015 01 (1“ 5306': "C‘o (-173
'" 77' -- Ayn rm". m :5.- .t A .' .- ' _ .

L‘: 1207C} akiu'u 0 (£4: 0V1 0 EH“) :39'3‘.) ”4.447

437.9 .045 . 94 .011 . 5% 3.97 "4.17

G47.7 .927 .15? .009 .111 :.11 —4.25

'_ "‘.I‘\ ‘3 p. —“'I’-‘ 'r‘ a!“ x J H m h
ll‘kju‘oz}. C'J'k’l 01:77.7 okhs’?‘ 0‘) f f: I. (C -lj. (1

P‘ l " 3 . ’1‘ P

I. _,, 9 I o l I?) oL‘Js. 9'13“) k‘u '7 -II‘oll
“I" W .. 3 3' " o- . 3!; ‘~ 1 -" ’\

. I.) a! 0'»le 9L pi) QO~)LI GO‘l-g\ J.":J. I. 0L3?)

;\.~ "3. ‘1 33. 34‘: .. ' ... ...; 9'

a” -L'Uq‘t .‘.)IJJ .0 .4.3 vi; 0L“ 1v 701.4" -Z}0LO

195.0 .OOC .OL¢ .005 .033 9.03 ~3.35

.124.2 .002 .012 .20: .01; 13.27 4.23

86. 5 GO£)14: QCIQJILJII: .'3C'-_'C

8400 0031?; .00 II? .O‘JO].

“Values which follow are b93312: rrngjze of friction chr-rt.

FITTING - SIZE OF STRAIGHT BRANCH:]_Q%2- x 3
SIZE OF 90 DEGREE BRANCH: 10;; x 8

ORIFICE SIZE - STRAIGHT BRANCH: 8 X 5;:-
90 DEGREE BRANCH: 9 X 6,;

TYPE OF RUN: Test

 

 

 

Loss Added

4950 W6 1‘26 154-.226 P5 55. L.6 Eq. 1.
947.8 .105W. .545 .155 .450 57.50 25.25
258.0 . 55 .258 .155 .550 55.72 22.25
522.4 .124 .257 .115 .555 55.52 21.98
775.0 .110 .227 .104 .505 54.10 20.55
720.9 .025 .105 .020 .255 50.54 20.50
r00.5 .050 .155 .075 .225 $2.44 15.50
510.9 .005 .140 .055 .105 05.55 12.79
041.4 .055 .112 .055 .150 34.20 20.54
500.5 .045 .025 .045 .155 55.55 13.79
455.0 . 52 .077 . 55 .112 51.2 17.71
507.7 .020 .055 . 20 .022 29.55 10.01
520.7 .020 .040 .019 .0525 50.40 15.85
270.0 .015 .025 .014 .045 52.50 10.02
215.7 .009 .017 .000 .0205 50.5 15.07
“108.2 .005 .010 .005 .0155 27.52 15.72

88.4 .0014 .0024 .009
80 . 6 .0012 . 02.3 .0008

“Values which follow are beynnd 1‘0n.:_-'e of frictian chart.

I

DATA 0510111.:-

FITTING - SIZE OF STRAIGHT BRANCH:1Q:‘,
SIZE OF 90 DEGREE BRANCH: 1.3:};

ORIFICE SIZE STRAIGHT BRANCH: '33» x 5
90 DEGREE BRANCH. 5

TYPE OF RUN:

an,,

caRUN NO.

1"
'0‘
- \J ,

37D

SHEET NO.

4

[‘n

. . 1
‘u

8
x8

121 DATE

 

 

 

08.96

1095.9

100n.58
902.83

('1'? 'f‘
1-!“

 

 

724 7:4 55 ’0 03+? '-0;v.
.15_ .45“ 271 2“: 17:: 50.3
.145 .40I 045 :50 10": 50.2
o 1.? ES 0 5:534. 17;}C) (533:1 FfiY‘VW EEC). :5
.114 .317 4~ 750 1475 50.2
.020 .270 500 705 1502 50.5

.085
.074
.000
.051
.041

'7. ’3
‘4’ «st

.020
.019
.013
.008
.005

pp.
. "3
.1)‘ .

C)

I“.
\ .

1.1
(fl

0
(D
r

F‘

o
C)
C)
C)
(:Q
(T)

0
CO
(H
[D

.184
.141
.114
.087
.071
.058

'1'?
D1JQJ;3
. a.”
0 £3»?
N N
‘ICDJLLD
rnn
rxpx 1
0 k’k’ft
'3'
CC‘O‘J

190
145
73

”’2‘
(A.

50.4
50.4
50.2
50.2
50.4
50.5
50.4

40.7

DATA C{:;1cu19t.e(3RUN No. 270 SHEET NO.1C,1A DATE
FITTING - SIZE OF STRAIGHT BRANCH: 10.3; x 8
SIZE OF 90 DEGREE BRANCH: 103;:- x 8

ORIFICE SIZE - STRAIGHT BRANCH: :33 x (5
90 DEGREE BRANCH: S} 7; C

TYPE OF RUN: Test

 

 

 

V f R f.: r“ q‘
in)? R . MMJCL
.-» ”'1. r" rm f":~ ~ -~ L r T
‘..."‘ VL'3f‘ $.le ..JLJfl— a. Pr; ...C. 0;". 4.351- 1.4
UK.) U V .3 D I! ' L) ’
'7' r g 3 l I .n a ’fl'f‘ .. r A 1’. \ '_" "' cut")
0 (‘10?) o ‘2‘) 0‘1." OKJI- ' .1 g) 1.107... “-Jo'w-J
: ... r' '7 ' w: .- R . r "I? " : ‘7'??? r; R
‘z( 0' o C v) o! ._ CU. ‘3 01 VD G. 'x. “..c'\ 1"
l‘ : '19:“. Ft" "finia" 71W f] 1 }‘ '7‘.
/* -.- .1.: ..AHV “0.:v .. _ . 0 ~ u.+a
l‘“ r ‘ " R :."3 ‘r '3.- l .R {R " r~ ; r " r~
( ’{0/1 0 ..I) OJA'v‘". oxa'i 0/” . (9‘ / ... o(-)/
A ‘ ‘AF ( :TM ' q f ’ ro~ (-n l ‘ a I‘ .
‘J 10‘! 0*.) o \J’ con}! 9...: ‘9 i "‘to S
,_ "‘. R mar“ "1“. R .7 "11‘1- ” rm: ' R
‘2‘1‘40 - o‘ 4' 02;, C' o‘J..."_. o .l: ... (ouu ...; or'
r: :7. C : —. "2 r: F I“: 2 ' R
u¢ ‘0 1" 0C) {1 bl}??? Ola.) '-.. ol.r) £1.41... -4IL'{.
T? -' “". ('5. A F' .3 CT ”5' C" 33' ~' "‘ l L“ "1-"\
..."):M’ o '1‘ o‘J-SR': 0 'J'& o ’J. o p": (9 4 “do 1"»)
£- 1 7", A | a fi v—V ‘ {o r-tl.'\ ' .39": :7 «,"h
uxl o'l 0'14“} 0.1.!11. OC‘LJ I" FotxJ -UOKI'
H (R ."\ 1 1!“ n1 ll ('3 $71 F:- ‘2?
1°.“ (0 .‘ cult}? 0 K)" ou‘lbo o 3 \.70(.c'-.':' ‘\..(/\J
" ’ ‘ '0 7‘ tfl‘l I \I‘ " 7 I” ‘ -’, "
.. ‘lto‘l 0'3“? CH 0‘ ‘\ 0‘30”,» E). 4‘ -Lo‘.’ ‘
.... -—-- ,0_ l f\ .-. F- A.” - .‘\‘.-‘\ In 3 (VJ. \ .‘b '2' ‘~.4 '1 l
1, ...: ’0 ‘i’ O ‘th' ; g? a k.) '.. ‘._- a \J‘ .- ’ o C I C {‘1 O 0 j"; u ‘1'. L
v-v A 1* (‘5 A“ r‘ /\ , r r- n'\ r- r. v" .. r-x . 0" M ..-.
. ‘ r ., ,. - ‘ _ g - ._
KJKIQLI. I adj. I oko‘fé? .‘wa'b' 01/01. I’ol‘fg. “LIQ‘JL
r
r: '- " t’. .11 On" .5 '17 m '3“ g '7 "x l
t- ‘17:...) OC‘ 0 ( J vat. o'VI (RQLJ. ‘12.].
(“:1 r. r“. “.1.“ ~: 1 7 . .. o c:
1., ou‘ .‘s’M’l7 .L/ oC'ng} 0C)..s’ l o 'L o ‘-'L'
”j 7': RR 1 ’11 I\ *7” r. m A, n
I .1 \ . J .~ . > ~
ltd :.J O I . L1U‘: . (a: C \»'3. . . L. a)». -: . it...) . 4‘2;
1" ’3 f) P. A y. ffi
. - l 1 ‘ :flf‘ \ l
:h..u .,02 oLuC .VJ
3 g" Q qr.l ‘A '3‘ rul
, I .
E, I _. o ‘1’." ¢ bx} o C J'L: 0 CL»)

'3 if;- 1';‘fi.c 7"»

.-.|
O
,3
0—1;.
(‘s
f..-‘
'FJ
O

;, a
'7‘?
('7’
f?“

- ,J

C“. I
\
‘

‘J
‘ x
H
4
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54-.
9
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DATA CalculatedRUN NO. 370 SHEET No. 1313 DATE

FITTING - SIZE OF' STRAIGHT BRANCH: 13.}; x 3
SIZE OF 90 DEGREE BRANCH: 103;. x 8

ORIFICE SIZE- STRAIGHT BRANCH: 8-3:- x 6
90 DEGREE BRANCH: 9 x 6g

 

 

 

Loss Aéded
F60 7P6 TF6 TIM-TF6 P6 Eq. L'G Lq. L'G
$3614 .144” .297 .155 .59: 34.18 20.64
850.5 .153 .274. . 5:3 .385 56.16 2323.02
701. 7 . 115 . 240 .114 . {520 I55. 623 I. ...09
7235’. .104 .815 .102 .885 ”5.73 23.25
708.1 .002 .189 .087 .205 54.12 20.58
0.32.3 .078 .100 .075- .220 ($4.00 20.5
608.5 .088 .138 .0638 .195 5...85 20.31
545.1 .054 .110 .054 .157 34.37 23.85
505.3 .047 .000 .045 .150 35.09 19.5.)
455.0 .038 .077 .037 .112 83.04 113.50
.39.2 .0??? . 50 .023. .099 {51.48 17.92
535.2: .024 .048 .025 .075 30.67 17.15
:3 ”3.5 .017 .034 .018 .054 53.55 10.70
250.4 .011 .03? .011 .0575 29.0.) 15.79
195.6 .007 .014. .008 .034: {35.33 10.79
155.8 .005 .039 .004 .0162 24.00 11.15
106.7 .003 .004 .002
85.8 .001 .00.. .002
“Values which follow-:- are beyond rrnge of frictian chart.

DATA CalczllfitedRUN No.371 SHEET NO. 1.33 DATE

FITTING - SIZE OF STRAIGHT BRANCH: 13.‘ 18
SIZE OF 90 DEGREE BRANCH: 103x 3

ORIFICE SIZE STRAIGHT BRANCH: 9 x 5?:
90 DEGREE BRANCH. 9 x 6

TYPE OF' RUN: Test

 

 

 

 

....
0 .- 1”“? 01 = -~: 0.. ... 1~*~
I ~ -' 0 T? 7:.v‘.:' u." A. 0.4.»! I ‘.-‘.C’

A).'Jw

V -’ c~ *3 ma. 2 r. S- r.
PW } £3 .24 [I 4 L4 It ... a... KLU+EF
A

2.159 1COE.7l .14? . .543 900 79: 1900
2. ?5 1501.90 .128 .300 840 740 15S0
1.909 14¢9.27 .114 .208 790 720 1490
1.787 1404.19 .100 ' .255 740 645 15R5
1.658 1308.82 .086 .201 730 590 1290

1.528 1199.10 .075 .170 650 545 1175
1. d’gé 1094.59 .081 .101 570 500 1070
1.957 887.75 .049 .115 515 4:0 035
1.141 806.57 .041 .035 470 010 880
1.0 D 500.4: .053 .077 413 000 7:0

.911 21".CS .0 .OHO 6"? .11 {‘0

O
'3
r"!
ff;
(1"
’ J
O

J
OJ
C
C
H
'0
O
O
Q
U
0
I"
f K
(J!

.854 453.18 .015 .03 25. F30 472
.506 307.60 .008 .019 ‘ 202 180 39?
.3875 334.49 .005 .011 140 128 273
.851 137.23 .0.9 .0045 92 75 167
.2101 178.10 .0015 .0035 92 75 167
.1789 140.58 .031 .0025 75 --‘ 75
.1095 86.04 .0003?) .00138 --- --- ---

DATA (3910111;- tEdRUN NO. 271 SHEET ~043ng DATE

FITTING - SIZE OF' STRAIGHT BRANCH: 1“};- )1
SIZE OF 90 DEGREE BRANCH: 113;"; X

..vu

coco

ORIFICE SIZE - STRAIGHT BRANCH: 9 x
90 DEGREE BRANCH: g .,

J. \J r

\ '9\
. L:

TYPE OF RUN: T9;

 

 

 

. W ‘
,- h I" ';r C,-
LJSQ n-\.«.k \g'ug
p. y 1’3 Ru»... " . 0-. P u ) .L' a- Q L ‘ r
.J . .4 . .
up; (I (J .... ;.’ 5" ..L’,o- -2. :- .a. :- AJCO o {-_- t'Co L4
U‘J «J a.) ‘1: «J u \) ‘
.T .0 4 V (“'7 v'n ’4' ('\ H (T f n 3 I? (i " I r. s
. , _ - . - . . ..I
u ‘1"1cl OJ...-i/ ILLIK ok'gu o“.-‘-"t ... ..» “10‘:
‘ (" (”A ‘I t'.‘ ("a ". " ‘7 .3 ‘3 1.“ r) f“ ") G |
\. . , (q .) _ .\ I
‘w-‘V“:1.. C‘s. ct, v' , 0v34'.‘ 0‘: \p 5031. ....."old
I 1' ~- F'. If! .' .‘ ‘ (”I \. "‘ "' I} .... P 1 P '7' " r“

. I-n - ,> . -1 ““" I / ' '- ‘1
‘.."-.JO~.- ally]. o.,‘ O'vI 4.. nt 5.." .4. IL. -‘ .4
r. ‘ Q ,1“ V .A t.‘ y’a‘ (\ ... (Q. '76!“ ,2 '9'” 1‘. ,-

K . | . . ‘ . . A-,' ‘ _; I' I . .
l-.."2'o~.- 0L ' n' "1’ o Igu‘ okflfij a). .u -1‘0 .,'
r” O p -.,-.. r1 rVT (at n '7' c: "v“
I“. 0 ¢ OL'th ...;a.:) 0U \/ o. ..c '.o . 7 -1.-Inf

I} (*xl"
-v". '
\10 \/U

I-(. .197 007:: o iatr‘ 0C1? 011': F: 00:-
L-z‘..':‘p4 .\JI (:7 olr:\: 0:31? olfL: 9.3:,

4 ' 5"? (é a" " ’T- '57' -‘- . 'I "W ' C '3 Q 1 "f
‘3; f..-'o \- 0*J";~ oC' “f .‘v'd-J o 4» L: n'oo-h
I )P ‘ f‘.""‘ T\" l r “ \
‘ l L V._ . ~( ’
5. i t o ' ’ 0 JL ‘- o — " o K: 'J w o - ‘ 0‘ u.
': ‘f‘f :‘ ”a '7 hr“- (\“1'7 -“--7" ‘2 2‘) 1"“
o ‘20:! oKJ-‘I uk'wu 0U) 0k" u 'uo ..~

“I ". ‘ ”I“ ‘ -': ’N ’ " '2 '77
‘ L‘ . l_ 0 Jul. Cbk ': .V‘\JI-‘ .U' I, .A.
r ,’ P5 {‘3 1 'I {"3" 3‘ c“ ‘1’. n ‘ " 11 ("MW
l~;'\.)( OL- OOJ-L’ .v'-— s.- cvx-‘L‘ 0&9-“ an“!

1‘: a: £3 . Os" 5 , ':.Q"'..fi . 0'3 0 Cl 75 11. o 5 "fl“
195,.(7 .O"fj-. .OQI'E .001
94.0 .0017 .0331.- .0315

4w; lupm w;;ch follow rrr hexane rrn,s of frictlan

-I

ch3rt.

1)oi-(.

(n
E

DATA CalculatedRUN ”0 271

FITTING - SIZE OF STRAIGHT BRANCH:103_).
SIZE OF 90 DEGREE BRANCH: 19:.

ORIFICE SIZE - STRAIGHT BRANCH: 9 x 6%.-
90 DEGREE BRANCH: 9 x 63;

SHEET No.15gg DATE

x8
x 8

 

 

 

 

 

LOSS Gted

{.160 VP6 TF6 ‘14--TF6 P6 “(1. L. 6 Lg. L. 6
d33.9 .1251 .1325 .1155 .340 33.37 00.45
788.8 .114 .23 .110 .510 05.49 11.94
744.4 .103 .207 .095 .280 63.21 13.C7
704.7 .091 .1u8 .000 .553 31.75 13.21
654.4 .078 .158 .077 .220 35.00 21.4b
535.4: .005 .1u3 .008 .188 $8.50 ES. 8
5.2.6.4 .057 .114 .0526 .168 34.5}? {1.0.3
511.23 .04? .008 .045 .140 3?.14 13.80
‘130,u .031 .079 .337 .1 : 73.17 1.53
4117.53 .‘32 .084 . 50 .095 61.58 16.04
5733.1 . 35 .050 .027 .077 US. 6 21.53
5CE3.C) . 20 .03” .03 .060 53.L5 13.79
Eifi?.§7 .015 .0855 .0145 .0425 54.12 20.58

141.5
w

£38.I3

?”7.£5

“T'Tal 1’19 57;

.004

.0014

.001

.007
.004
.0021
.0015

20.31
8.28

16.09

which follow are beyond range of friction chrrt.

APPENDIX
SAMPLE CALCUL ATI ON S

N OTdTI o n

P -"-'- STQTIC Pressuro, IncI-Ies waTu- gage
Q =- 6"” Flow, cubnc FGGT Par mmuTe
VP= VOIoCITy pressure, Indus waTcr 2423
A = oraa, qun. or- 5+“:
V 3 VCIOCITy, Rpm. or £95.
TP" ToTal pressure, In. weTu-éage
. I1 "' V‘IOCJY Prussure, In. mam-9.8.
Eqfi equIVQIQnT
D 7' (Ildcher, Imor FT.
L. = IfihéTI’I, FT.
ACT-= dcTuaI
VH -" vclocITy had, In. wdTer gags
NM: Reyna”; number

G rack

[a = AbSquTo VIScosITy oFmr, III. pen— FIE-III:
P = dehsITy 0F All" «T 70°F ancI .ITmos.

Ib. Per cu. FT. pres.)

‘U‘ = 4;— .-.-. KmamATIc wscosITy
A = FImTe change

éubscnflg

2,3 3 pressure-I19: J nozzle

4' = «IT Plate. 09 3T4“: TAP m mam JucT .
5 _= 6T Plane of STATIC Tap m 811’.ng Brunch
6 3 QT PIane OF STA-Ila T49 In 90°br¢nck
CUT.“ CI’ITICQI

C- ’- CorrecTGJ
h = nozzle

SAMPLE. CALCULATIONS

35596 on JaTe For FursT FITTm TesTecl;
IS“)! 8“ STrmgl-IT branch, 3'38. 9 branch.

OrIFlcc sue: ‘6"3‘6' STr-mghT brands,
"X 6" 90. bronth.

OHFme Cahmelon
LmQ One, D¢T¢ SkeaTs i,9,||, 6‘2.

Observe-:3 DaTa:

 

16"x 6" We”
P343 —-4.33' g-g—M'

pg -— .214” F2; --— 353"

WIT“ Ah: .‘962 9%”,

06 Ath Q4= Anvh
Q4 = .1962- 4oosV—FP,- , Q4=.|962-4005V§:B_
Q = 785.78VT93 Q4: 785.7an
Q4 3 78578 -2.197 Q4= 785.78' .366

0,: 1726.359 GEM. 0‘: @2395 cm.

 

Te on

Ron no. [94, Lme om, DATQ SkauTs '7, 4|, 4414,8443.

Observeé DEB:

P .260"
P5 .2_"IO
a .310"

 

 

 

4. Q4: AhVn
Q5: ”'962 W5 U P3 ‘81
Q4: - 785. 7am
Q. = 1164.: GEM.

5. Q4: A4.“ fimSVV;
We: ’16; 5

A. «:03
Q Q.
VV—Efi TNT“ 4449.6
W797: .0002sz
VP: (0002256) :2)
VP: (. 00622.5 1764. I)
VB: ‘-'-' .l58quO

 

10.

ll.

[2.

Taava+
TB.=.I58 +260
T9,: .413“ng

Usm The orifice cahhreTton curve For The
'6'; anew. 9LT: am! 8‘1“):

Q;* L720 cm.

Usm The ohuhlco cahhmTIon cut-v: For The
[‘6 mafia p‘dTe and Q=3.53,

Q; = Q3 CEMo

Q51. Q": '803 CFM.

.. Qc_ _ 83
7001RPM! - “Q‘mo - 1803 100

930"»er = 1:6 7:141“er mTo 90' brunch»

Q6: 3 0/0 DIV. .QQ-
Qcc = $6 4764.},
Q“ = 8M C.FM_.

QSc' Q4 Q6:
Q5c= I764.|"8H

Q57:2 .6810 CFM

 

 

13. 0. -- 13;; mob-VF

Qs“ - goosm
\‘VP;= :35

VP,» Q“ ...—5.5.2) (000250 625.)"

VP, - (000250 1683.0?
VPs‘: J77:ng

‘% TE=VE*%
TP,= .I77+.2|0
TB: .337“H£

15. Q6 = As'fl'OOSV'h—
Q; -- .l666 . 4oosVVP;

,, fiQsc .
.WE' 667.497 '00‘50 Q“

VP: (.0050 Q“):

V8,: (00150431.!)z

VQ= .0'5uH29
l6. TP.= W: P.

TP= .0I5+.3IO
TP= .325_“H.o

 

 

l7.

l8.

I9.

20.

'2'.

TP.. — TF3 = .418 -.387 = .031" 14.0

TF3. - TF3 = .418 —325= .093"H.0_

 

Qsc= I683 GEM.

56.0; 12.9"
From ASHVE. FncTton chm-1; FncTuon loss
QQUAlS .380. H20,

AP, = .330. H;O/I®' sTrughT <1ch

 

Eq. 06= 5. 2"
From ASHVE. FrlcTton ch01, Frlchn 1055
......Is .n7 “Hm/100' sTrméhTJch,

AP= .H7 H30

- P
quLsg TPP‘Sr ).OO
Eq'L5:380 89121.80

.M
EQ.L63 AP6 '00

g .093
5‘1"“ .117 I00

Eq-Lc 8 79.49 Feel

 

23.

24.

26.

AEq.L5 =EQ.L5 “ACT. Lg
AEqL; = 8.!6- l0.35
AEQ.L5 = ’2"? FOOT

AEqJ.‘ 1' Equ'AcT. L6
AEq. L5 = 79.49- 6.75
AEq.L¢ ‘-'-’ 72.74 Fog].

V+=%: ‘
7 . __
v..= fif—fi—wsgo 9,...

0

V4: 26.46 F123.

- Qgc.
V5 — AS
V5 3 L618}... 3.683 Fpm
v = 12.82.
5 60

V5: £8.05 fps.

27.

28.

3!.

 

 

 

A6
V5 " .I86L6‘6 ‘3 4'87 Fpm
V6 = 607
\é = 8.” 698
1’5: 28.05 =| 6
4 26.46 -—
V;_ 8.” _
V4.- 4'6 - “'19
AP/AcT. L5 =Ag/IOO’- A7305-
_ . IO.35 a 3.933
AB’AJ. L5 - .380 _|00 _"'|00

AP/AcTL, = .0393" H39

Loss/Finmés = (TR-T95) - (AWAJ. L5)
Loss/fining; =' .O3l “.0393
L.../ mug. = -.0083" 11.9

 

32.

34.

35. .

AP/AcT .21.. AP/loo Al.__g.__o1..

.. 6___7__.5_ 5
AP/AJL. 1.17 T—OO 3%}-

AP/AcT. L.= .00791H20

 

Loss/F. .336 =(TB, £112.)- (AP/AJ. 1..)
Loss/ FIT-mag, = .093 -.OO79
Loss/ F11T1n36 = 985|0H10

o/OVHQ 2 BSS/FIT’IH‘L ‘00

 

 

VP.
__ -.0083
“Ho." '58 100
%VHq: ’5. 3 %

%VH4= Lug/2311131 100

%VH4= 4%%%——100
78sz _5_.3.9 “/6

 

 

 

 

 

/“ N =4oo
N84)“ 3‘ O
v - DP /4 2 .044 lb/n'hl’.
P = .075 lb/Cu.FI
V : 4000Kl6-3KIO’5
(HT. D V = €-
:.- .652 - .044.
VCI’II D 1"" ”0075‘.5&5
_ .5866
V" 3600
U=lé.3xl0"S

20"x8”auJ, 53,015.: 13.5“= 1.12.5'
Vet-1t: 79%;: .579 €st
13"x8" ducT, Eq.D1a.= 12.9"= 1.075’

.652
m Vch. = I??? =L___OG§ 6?"

10;.- x8uducT, Eq, 0... = 9.975": .631'

V... = e‘g-fi: .784- 5?...

w

3’31 8" dual Eq.D1¢.= 5.2” = .+33'

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