ML20116N663
| ML20116N663 | |
| Person / Time | |
|---|---|
| Site: | FitzPatrick  |
| Issue date: | 05/03/1985 |
| From: | Bayne J POWER AUTHORITY OF THE STATE OF NEW YORK (NEW YORK |
| To: | Vassallo D Office of Nuclear Reactor Regulation |
| Shared Package | |
| ML20116N667 | List: |
| References | |
| JPN-85-40, NUDOCS 8505070302 | |
| Download: ML20116N663 (58) | |
Text
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May.3, 1985 ! JPN-85-40 l Director of Nuclear Reactor Regulation U.S. Nuclear Regulatory Commission Washington, D.C. 20555 *
' Attention: Mr. Domenic B/ Vassallo, Chief Operating Reactors Branch No. 2 Division of Licensing
)
Subject:
James A. FitzPatrick Nuclear Power Plant Docket No. 50-333 Containment Vent and Purce Valve Operability
References:
- 1. NRC letter, D.B. Vassallo to J.P. Bayne, dated January 13, 1984, same subject.
- 2. NYPA letter, J.P. Bayne to D.B. Vassallo (NRC), dated February 24, 1984 (JPN-84-14),
same subject.
-3. NYPA letter, J.P. Bayne to D.B. Vassallo I (NRC), dated June 14, 1984 (JPN-84-35),
same subject.
- 4. NRC letter, D.G. Eisenhut to J.P. Bayne, dated October 9, 1984, same subject.
- 5. NYPA letter, C.A. McNeill, Jr. to
- D.B. Vassallo, dated November 26, 1984 j (JPN-84-74) .same subject'.
Dear Sir:
l 1 In Reference 11, the NRC' requested information regarding the oper-ability ~of the FitzPatrick plant containment vent and purge valves under design basis accident (DBA) conditions. The Authority !' provided this information in References 2 and 3.
! In Reference 4, the NRC requested additional information to complete its review of the FitzPatrick vent and purge valves.
In response to this request, the Authority submitted resulta of i detailed calculations for the subject valves (Reference 5). These l results demonstrated that.the valves and actuators are operable under DBA conditions, taking into account the effect of increased
~ dynamic-loads resulting-from upstream elbows or other fittings. I l QAY o
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. Enclosed with this letter are the complete detailed calculations (Attachment A).
These calculations have been revised to correct the data for spring torque versus valve opening angles as shown on pages 10, 11, 17 and 18 of Attachment A. The changes _are based on, discussions with the NRC staff in a meeting held on January 28, 1985 at Bethesda. These changes do not alter.the conclusions stated above. This submittal also includes a copy of the seismic analysis (Attachment B), which was performed by Fisher Controls Company, for
- these valves.. This analysis demonstrates that the stresses,-due to the-combination of operating, seismic and dead weight loads, are below.the allowable values for the valve assemblies including the i mounting. hardware. The results of this analysis are also valid in
, the circumstances where an upstream fitting causes an increaselin I the dynamic operating loads. In these cases, the valves have,been i
modified to restrict the maximum angle of opening. This restriction a reduces the dynamic operating loads and thereby compensates for increases in the loads caused by upstream fittings. As a result, j the total. dynamic operating load is less than the original design i operating load; and the calculations (Attachment B) remain valid. 1 Based on this submittal, the Authority considers this issue closed for the FitzPatrick plant.- l If you have any questions, please contact Mr. J. A. Gray, Jr. of my staff. Very truly yours, + 4 J.Is..Bahe Fi t. Executive Vice President ! nief Operations Officer i Enc. cc: Office of the Resident' Inspector U.S. Nuclear Regulatory Commission P.O.. Box 136 i Lycoming, New York 13093
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2 Docket No. 50-333 I 3 Containment Vent and Purge Valves Operability _ 4 5 ; 6 7
References:
- 1. NRC letter, D. B. Vassallo to J. P. Bayne, dated January 13, 1984, " Containment Vent ,
9
~
10 Valve Operability." 11 12 I 13 ,
- 2. NYPA letter, J. P. Bayne to D. B. Vassallo -
14 15 (NRC), dated February 24, 1984 (JPN-84-14), 16 . Containment Vent and Purge Valve Operability." 17 18 19
- 3. NYPA letter, J. P. Bayne to D. B. Vassallo 20 21 (NRC), dated June 14, 1984 (JPN-84-35),
22 23
" Containment Vent and Purge Valve Operability."
24 25 ~ 26 4. NRC letter, D. G. Eisenhut to J. P. Bayne, 27 dated October 9, 1984, " Containment Purge / Vent 28 29 Valve Operability." 30 31 ._'..__ - 32 . _ 33 34 _ i 36 ._ -- -- . 36 , l
?,7 1 .
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CFG 408-10 PAGE-23 i . APPENDlX JANUARY 1973 A There are actually five torque components which add to ficient of friction (friction torque factor), the shaft site ( } (shaft diameter ratio based on Type 7600 Class 2 shaft) Cf. produce the total torque in a butterfly valve. These are: friction torque (on shaft), packing torque (on shaft), and the actual pressure drop. Dynamic torque is a function of the valve size and disc opening (dynamic torque factor) unbatance torque (on of fset discs), seating torque (on tight and the actual or effective pressure drop whichever is , shutoff discs) and dynamic torque (on all discs). smaller. From these factors the following equations are derived: Derivation of Formulas - The general formula for butterfly valve torque is: T t- Tg + T p+ Tu + Ts + Td Tg = (FTF)(SDR)(APacto*I - where: . IAP.cio s whichwer) Td = (DTF) or is
' Tt = Total torque Tg = Friction torque (AP,g,4* smaller ;
. Tp = Pecking torque Tu = Unbalance torque where:
Ts = Seating torque FTF = Friction Torque Factor . Td " Dynam,ci torque SDR = Shaft Diameter Ratio , AP, ego * = Actual Pressure Drop at Angle a* Both friction torque and dynamic torque must be calcu- DTF = Dynamic Torque Factor
- lated. Friction torque is a function of the bushing coef-
- AP gro* = Effective Pressure Drop at Angle a*
The general equation can now be written: fAP, ego
- whichew) or is Tt" (FTF)(SDR)(AP.eco*) + T p+ Tu + Ts + (DTF)
( AP,gg o* smaller j O, , where: (FTF) (SDR) = A .
. DTF = C and for i
y Types 7500,7600*,7700 and 7800 Types 9100 and 9500 4 - Tp 'a 8; Tu = Ts = 0 Tp + Ts - 8 Tu = 0 Types 8200 and 8300 Type 9200 - Tp + Tu = B; Ts = 0 Tp + Tu + Ts = B
- thus,in each case I
AP. cia
- whbww!
or
- is TOTAL TORQUE (IN LBS) = A (AP.e a") + B + C g AP.g,4 smaller j i
- NOTE - The elastomer lined Type 7000 h ignored at this point since it is a special case and is treated as such in the tables.
Were it to be included here,it would be simplified in the same manner as the Type 9100 and D500 since it lOs a seating torque component at closed angles. Additional Comments Note that the tables give values for "8** st both 0* and A value of aero is given for "C" for all valve types at 0* open angles when seating torque is present. This is due to since dynamic torque is present only at angles of 10' or the fact that seating torque applies only when the disc is more, near the seat. r
1 --
.;,, I
* ,9200 & 9280 BUTTERFLY VALVE TORQUE DETERMINATION
Introduction:
. Use the following procedure andybles to determine actuator
-torque required for 4-inch through 72-inch 9200 and 9280
,j-series valves. s
] , 1 Warning: This procedure does not consider mechanically adjustable, non-inflatable Type 9200 with TFE. seat 0*, see Table 33. l Butterfly valve torque is s'ctually the sum of a number of torque
.. , components. To avoid confusion, a number of these have been com-bined and a number of calculations have been performed in advance.
Thus, the following formulas are used in torque determination. The various torque components and the process of simplification are explained fully in the appendix. b .
-Necessary Equations: T.f _-
! C. Torque 0 0* (in-lbs) = AAPshutoff + B + B3+B2 # shutoff here A, B, Bg, B2t = ta ulated coefficients . f .- AP shutoff a shutoff pressure drop / For inflatable seal, 53 &B2 = 0. ,
. Torque e a* (in-lbs) = AAPACT-a* + B + CAPDU- a*
! Were A, B, C = Tabulated coefficients' APACT-a* = Actual pressure drop at angle a' APDYN. u' = Dynamic . pressure drop at angle a' / l .. Procedure: ! 1. Determine shaft class. i
. Using Table 1, determine the shaft class by valve size and shaft i
diameter.
. 1 W12J1
.'. b
NW A m cM M N i' Pa,&e 6 a ' 8 (Select Scalitu Tne er Anple) .
- MSe'eet One Sushre tfat't) pone, A & sta'n, e o' Istaatsott to 0*
s.,ey UE Graphtt3 (select o" d 10'. 56:2 Lined Titled tresse* All y ., 8 0ther " Elastomers" Vston 90*
- 8 tense 6' -8 Sg 3 ..
* *12.
S2.2- 79. 1.6 212.2 372.2 52.2 0.800 . 3.00 3.60
. 0.299 454 '54.0 138 .. 1.9 234 3 0 357 1.25 1.56 2.50 , S4.0
- 197 2.2 294.8 534.8 54.8' 6 0,300 1.75 2.19~ 3.50 ' 5 4*. 8 76.0 313 2.5 396 716 76.0 3.75 '4.69 7.50 8 1.07 916 116 116 449 3.2 $16 7.85 9.81 15.7 .
,10 2.24 603 1.083 123 14.4 23.0 123 645 4.1
' 12
. 3.29 11.5 889 S.0 715 1,245 145 le 3.14 18.0 22.5 36.0 185 1,212 6.6 808 1,418 198 .
16 6.71 23.S 29.4 47.0 - 198 8.1 940 1.620 260 36.0 45.0 72.0 260 1.603 18 10.3 2,188* 11.3 1,076 1,836 316 20 12.6 44.0 75.5 h .4 88.0 151 316 1 3.634 24.1 1l391 2.311 471 24 21.6 J 3.102 782 169' 271 782 5.860 62.3 1.942 30 38.7 136 101.3 2,395 3,795 995 192 240 384 995 8.110
' 34 $4.9 S,320 2,040 660 2,040 10,360 140.3 3,660 42 94.3 330 '413 12,610 179.3 4.080 S.960 1.200 -
- 43 124 434 543 868 2.200 14,860 218.3 4,540 6,660 2,420 662 428 1,320 2,420
$4 189 9,240 4,520 1,840 4.520 17.110 237.3 6,840 234 820 1,020 *
, 60 8.360 10.960 S.760 1.450 2.320 5.760 19,360 296.3
._ 4 6 232 1.160 21,610 335.3 9.700 12,340 6,860 1,390 1,730 2.770 6,860 72 396 413.3 12.470 15,790 9.150 2,170 2.710 4,330 9.150 26.110
, 84 619 19.000 11.400 6380 11.400 30.610 491.3 15.200
., 16 911 3.190 3.990
. O TTE lined SST or TTT. lined fiberSlass.
. G. .
TYPE 92CO*A/8 T0dQtT. CCETTICIENTS . CIASS 3 TASIL 4 8 (Select Sealant ine or Angle) 4iselect one Sushine ' fat I) Adjustaele .s o* aflataole @ 0' UE Geaphate .% on e , (Select one) 10'. i ,.~8eef Sronte Alloy 90* Size Lamed Titled 8 Bg 3 .ither " Elastomers ' Vtton 6
- 2
, !2. bronze.
.227.2 387.2 67.2 1.20 1.12 67.2 79 1.6 4 0.27.4 0.960 449 69.0 63.'O 138 1.9 269 0.429 1.50 1 88 3.00 3 309.8 549.8 49.8-
- 2.63 4.20 61.8 197 2.2 6 0.600 2.10 111 2.5 431 751 6.23 9.94 Ill 313 4 1.43 4.99 156 449 3.2 $$6 956 2.80 9.81 *12.3 19.6 156 18
- 443 1.123 163 28.8 163 665 4.1 12 4.11 14.4 18.0 759 1,289 229 43.2 229 889 5.0
*14 6.17 21.6 27.0 242 1,212 6.6 852 1,462 28.2 35.3 $6.4 242 16 8.06 909 1.668 108 84.2 304 1.603 8.1 18 12.0 42.1 52.7 364 2,188 11.3 1,124 1,884 64.4 103 364 20 14.7 $1.5 2,361 $21 521 3,634 24.1 1,44l 24.6 >
84.1 108 172 896 24 1.216 896 5,860 62.3 2.056 4A.4 169 212 139
?O 3,910 1,110 8.110 101.3 2,510 68.6 240 300 480 1.110 36 5,440 2,160 2,160 10,360 140.3 3,800 333 396 495 792 42 .
6,080 2.1 'O 1.040 2,3*0 12.610 179.3 4.200 AS 149 521 651 3,560 14,860 218.3 5,680 7,800 775 969 l 550 3,500
$4 221 7,020 9.380 ',660 1,200 1,920 4,640 17.110 257.3 274 959 5.900 19.360 '96.3 8.900 11.100 m 3fA t.320 1.460 2.650 5.900 12,680 7,000 3,140 7,000 21,610 335.3 9,840 72 451 1,580 1,970 9,310 12,630 15,950 3,040 4.810 9,310 26.110 413.3 to 699 2,450 11.600 411.3 14.8c0 18.600 4.510 7.210 11.0.00 30.610 96 1.030 3.610
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- vain Type- **
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*Sa'se Flow 18 haft -30* 40* $0* 60* 705' 80*=908 Class) 0* 10* 20* '
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495. 763 i
- Cast-Flat All
- 31.5 49.5 108' 196 368 742' 1140_
'O All IS' . &
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.- 1 1/4 121 0 24.7 62.3 42.6 42.6 42.6 99.3 220 475 372 i' 8 1/2 131 0 24.8 42.3 ,42.3 42.3 99.0 210 402 472 16 Plate 1 3/4 l4) 0 24.7 ,
42.9 42.9 100 207 365 426 2(S) 0 21.1 ,42.9 *
- 62.9 42.9 42.9 100 201 305 355 2 1/2,16l 0 25.1 #
42.9 42.9 42.9 100 154 201 236 3 171 0 25.1 f [. 45.0 73.0 156 282 S35 , 1.080 1,710 I Cast Flat All 0 22.0 33.0 67.5 110 234 423 802 f.620 2.560 Cast-Ilub All 0 l
$8.8 $4.8 136 315 720 892 4 -' I l/2 12l 0 34.3 58.8 SS.9 58.9 137 299 627 750 la 1 3/4 131 0 34.4 SS.9 34.3 18.8 $8.8 34.8 136 290 S35 430 /
) Plate 2 [6] e . 279 452 529 f ** 2 1/2 ISI. 0 34.4 58.9 $4.9 $8.9 137 373 442 St.8 SS.8 58.8 138 260 l 3 16) e 34.4 .
$8.8 58.8 137 206 260 309 -
. 3 1/2 171 0 34.6 $8.4 99.0 218 381 720 1,460 2,310 Cast-Flat All 0 32.0 61.0 ,
98.5 315 $72 1.080 2.190 3.460
. Cast ilmb All 0 48.0 148
,i , 438 1.030 1,280 1 1/2 12] 0 48.0 42.0 82.0 82.0 19 1 82.3 193 425 920 a 1,110 1 3/4 [31 0 48.0 82.3 82.3 f ., 42.0 418 857 1.020 20 Plate 2 (4l 0 48.0 $2.0 82.0 191 l 688 803 0 47.9 82.3 82.3 82.3 192 398 I 2 1/2 l$1 82.3 344 583 678
- 3 161 0 47.9 82.3 82.3 19 2 l 129 453 $34 f I 1 1/2 171 0 47.9 82.3 82.3 82.3 11 2 (dtT@ N [ -9903 0 .8H.
- N J064 260,g,4gg15s%beeee3N l '
Cast Flat A!! 0 $3.0 . 106 260 ~ 552 ~ 1'!00 1.890 3.820 6.080 Cast-Ilub All 0 79.5 159 146 ' 340 / 783 1.910 2.410
'8S.0 146 144
- % 1 3/4 121 0 766 1,730 2,100 0 85.0 166 144 146 340 2 (3) .
'46 146 340 730 1,470 1,720 I
'24 Plate 2 1/2 (4) 0 85.0 l&&
146 144 341 706 1.300 1.340 3 IS) 0 85.2 146 144 146 241 682 1,070 1.210 {*.. 3 1/2 161 0 85.2 l&& F.1 421 876 1,040 i 144 166 4 I?! 0 85.2 146 l 734 2,$20 S.090 8,0$0 All 211 3&& 1.13 0 Cast Flat 0 10$ 1*.*00 S16 1.100 2.t00 1.700 7.640 Cast Ilub All 0 158 116 293 293 480 1,500 3.980 S.*00 2 12) 0 173 293 293 293 482 .l.480 3,$10 4.320 2 1/2 13) 0 171- 293 293 293 440 1.510 3.240 3.120 30 Plate 3 (&l 0 171 193 293 483 1.640 2.830 2.320 3 1/2 ISI O 171 293 293 293 683 1.390 2,270 2.680 4 16) 8 171 293 293 293 H6 1.170 2.100 7. W
& 1/2 171 0 171 291 293 e J140
. . ~ . . . - . . . _ _ _ . _ . - _ _ . - - . . . -_ _ - ,_ ,., __. _-_~.. ._._.- -,_ _ _. _ _ _ _ --.,-.__ _ ~._ - .
STANDARD SilAFT DIN 2TERS 4g gy7 %, { l
- - - . . w t t;
- TkBLE f. . SilAPT DIAL 1ETERS '(15CE5) f 0R TYPE 9200 -
v.a.e . Sise
- In Shaft . 2 3 4' S 6 .7 *
. craan .
- g
. 4 .'S/ S 3/4 1. 1 1/4 -
~ ~ '
S 5/8 3/4 1 1 1/4 - p 6 S/S 3/4 1 1 1/4 1 1/2 - 8 3/4 1 1 1/4 1 1/2 1 3/4 - 10 1 1 1/4 1 1/2 1 3/4 2 2 1/2 12 1 1 1/4 1 1/2 1 3/4 2 21/2 14 1 1/4 1 1/2 1 3/4 2 2 1/2 3 16 1 J/4 1 1/2 1 3/4 2 2 1/2 3 18 1 1/2 1 3/4 2 2 1/2 3 3 1/2 20 1 1/2j 1 3/4 2 2 1/2 3 3 1/2 . W 24 /M 2 21/2 3 31/2 4
. 30 M "2 1/2 3 3 1/2 4 4 1/2 36 2 2 t/2 1 3 1/2 4 4 1/2 .
42 2 1/2 3 3 1/2 4 4 1/2 5 48 2 1/2 3 3 1/2 4 4 1/2 S 3 1/2 4 4 1/2 - S S 1/2
[* S4 3 60 3 3 1/2 4 4 1/2 S $ 1/2 a
-- 66 3 3 1/2 4 4 1/2 S S 1/2_
- 72 3 1/2 4 4 1/2 S S 1/2 6 44 4 4 1/2 S S 1/2 6 6 1/2
- 94 4 1/2 S S 1/2 6 6 1/2 7 Ps
- V
?
ETTICTIVE PRES $1;RE DROP . TABLE 2 , TABLE 2 Type cf Type of Anale of Disc opentne 30' 60' 50' 60' 70' 40' 70* Dise Fluid o' to' Jo* 0.300P g 0.690P g 0.650P g 0.450P t 0.390P g 0.35CP g _ Cast 11guld # act O' 0'.570P g 0.730P g
#act-10* 0.$00P. 0.250P. 0.250P. 0.200P. 0.200P. 0.140 P ., 0.14CP.
, l Can atta0*
0.700P g 0.670P f.600P g 0.500P g 0.450P g P1 t3 Liquid' # act-0* 0.700P c.700P g 0.700P g g/ 3
#act*0' O.200P. 0.330P. 0.350P. 0.350P. 0,:10P; 0.180P; 0.110P. 0.090 4 ,
4 Cae . NOTE: Pg e Upsteese peessuee (psia) at the indiested sugle of opentog (e').
. 4TTACMN t>6 I 7. M CFG 20D-20 PAGE 17 -
- . JANUARY 1973 Section.2A. . Type .9200-Flow Against llub Side of Disc .(Continued) ' -
i ' I T-111ng flateriall A'dhustable-All Inflatible'-All Except TFE Except. TFE(I) 'I) ant. Viton(2) M A88'd888 O' M A8 AP Os 17 4#H luas Autovets0 mas.asuas a t AL 3,;c Mev. c,e C:(...o fort . L AAewt w AP 7t,Ps C/1 - Date Cu:. a *.'Aas t u sw f,P sus.iino - st l ALL AmeCLill ( Att 47 Sttli ,, , , eeA last AD.Gatti m.s _ _ 1% llM l Lo at l 12 ' 6 h _ _ ,. i _ -
' A0J 109 1 101
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#3 wLAtt 109 167 13) 93 67 )$ 20 11 l 4) i 35 19 9 6 ADJ. 15) 254
-* 31) 1%
fft g 9 6
. 9too I vtAtt 15) %8 -= 21) 136 L 63 l 35 1 19 6
16* 3 AoJ 15) leo -= nol102 % '32 l 18 9
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- the 102i Sk l
* *) wtAtt
- 15) 23) 190 ADJ 288 l %9
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52l26 thl 9 173
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thh ;-* 1971 36 l 79 l 1.7 I_ 26 &l 9 ADJ 346
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-* 105' 75 , '
40 23 13 l 3 ADJ 161 37 Sitat. l 1 3/Is* #3 315 WLATE 161 190 u? 105 M Lok ?) 11 7 h teh -* tit ' uf 67 )? 20 to 4 18f ADJ 108 9tJo g of 10 6 W LAff 100 )S) -* tre 35 37 to g E8 58 )h 1 19 to 4 ADJ 100 too -= 108 _ 3re tt.
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- 1. f:u n m alt. f.ict er? . 2. Soo Section 2c.
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'.' M F;Jee a.L -Epce e ss .e f s s indt
". A Galveton Houston Company LITERATURE ORDER FORM .1628 M TCff Wf W/ l'& 5 DATE N- O Q;t6d m.
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COMPANY /tdld/K [ SHIP ORDER TO: on/t*4 A/w of17 r. ADDRESS M *3 #lda St. d CITY M IYT N Ab % STATE M eu> No/d ZIP /0 0 0 / TELEPHONE 9/'/ 68/-d 2 9/ ATTN: 5n L. o [4 <* P SPECIAL SHIPPING INSTRUCTIONS b/ Ctr d [0M A- 73dC~IA 80 A+/ '/ QC dDE THIS SECTION FOR GH BETTIS OFFICE USE ONLY DATE RECEIVED DATE SHIPPED FULL ORDER SHIPPED O METHOD OF SHIPMENT PARTIAL ORDER SHIPPED O CATALOGS AD REPRINTS Catafog Gas / Hydraulic Senes Price Book HD Series BULLETINS CB Senes 10201 Robotarm Story: An introduction To SERVICE INSTRUCTIONS Vane Actuation 30.00 2 HD Service instructions ___ 10 00-1 Valve Actuator Selection Guid 60.00 2 Gas / Hydraulic Installation Instructions 10.10 1 Valve Actuator Composite Bulletin 10.00 2 Operation. Storage. & Maintenance Instructions 10.30 1 Actuator Control Systems For Rotary Valve Actuators , 15.00 1 GT Senes 20.00 2 Maintenance And Operating instructions - 20.00 1 CB Series Pneumatic Actuators Models CB CBL, And CB SR 30.00 1 Heavy Duty Product Senes: 90.00 2 Bettiswitch Operating Instructions Model SR Pneumatic Actuators
. 90.10 2 Bettiswitch Operat.ng Instructions Model 3R N/A Rack And Pinion Series 90.20 2 Hydraulic Control System M4 And M4A 10 50.00 1 Heavy Duty Product Senes:
90.60 2 PMV Service Inst Hydraulic Actuators 60.00-1 High Pressure Gas / Hydraulic Actuator BINDERS & DIVIDERS 70001 Onear Actuator 1" General Sales (Binder, Only) D 1" Price Book (Binder Only) N/A 00001 C Senes Electric N/A B0.10 1 Elga/C Senes Electric Set of Product Dividers 90 60 PMV Positioner SOUND / SLIDE PROGRAMS SALES DATA SHEETS Valve Actuation Meeting The Challenge 15.10-1 GT Series .. CB Senes 20.10 1 CR Senes Rack And Pinion Actuators Gas / Hydraulic 30.10 1 Submersible Hydraulic Actuators Heavy Duty Product Unes 90.10-1 Bettiswitch GT Senes __ 90.20 1 Hydraulic Manual Overndes Accessones & Service 90.30 1 Gas / Hydraulic Ordenng Information OTHER 90.40 1 T Sones Hydraulic (5000 PSI 8tated) 90.50 1 TR D TRO Senes Actuators
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%.J 711':;T C1 p naamr0 OSA LOR MOMINAL INITI At. CONT. CONDS. - SAFE BRK FLOW CASE e 1 042384 1208.8 PAGE 14 . .
Ituet 3RSWER LORNUC0 1 M3CIPTOS FITZPATRICK ftECIRC SREAK SAFE HEM BfqK FLOW - PEAR D.W PftESSURE ; TIfE LUMPEO DW CONTAIN. P WESSEL PRE LLSOPE0 CONTAIN. T TEMP. LIO. S.P. TEMP. VENT FLOW VENT FLOW VENT FLOW : PftESS. PSIA RES. PSIA- SSURE PSIA OW TEMP F EMP. F VESSEL F F AIR LS/S VAPOR LS/S L10 LS/S b6 O. O.
- 6. ~1.SSOE 01 1.4eet 01 1.020E 03 1.3SOE O2 7.000E 01 s.470E 02 7.000E 01 0. ,
i 00020 N (UP) FLOW E90COUNTEREO IN WEIR. seses C.0019531 1.614E 01 1.485E 01 1.020E 03 1.181E O2 7.000E 01 5.470E 02 7,000E 01 0. O. O. ococo R M tWP3 FLSW EseCOUe0TEftEO IN WEIR. esses ococo REVEftSE t UP 3 FLOW ENCOUNTERED I N WE I R , . e a e e e i O.003 SOS 3 1.878E 01 1.48SE 01 1.020E 03 9.775E 01 7.000E 01 5.470E O2 7.000E 01 0. O. O.
- 00000 REVERSE tup) FLSW EfeCouseTERED IN WEIR. seses 1 cocco fEVEftSE tup 1 FLOW ENCOUNTEREO IN WEIR. sesse O. nmaamm6m 1.SS2E 01 1.44SE 01 1.020E 03 9.675E 01 7.000E 01 5.470E 02 7.000E 01 0. O. O. i cooco IgEVERSE ~ t uP 3 FLOW ENCOUNTEftEO IN WEIR. seses i oooso IEEVEftSE TUP 3 FLOW ENCOUNTEftEO IN WEIR. eeeae ,
, 0.0078125 1.SGSE 01 1.44SE 01 1.020E 03 9.922E 01 7.000E 01 5.470E 02 7.000E 01 0. O. O. j J 0800o REVERSE (UP) FLOW ENCOUNTERED IN WEIR. eaese osoon ftEVERSE TUP 3 FLOW E90 COUNTERED IN WEIR. eaes*
O.0097956 1.SO9E 01 1.4SSE 01 1.020E 03 1.01SE 02 7.000E 01 S.470E 02 7.000E 01 0. O. O. oonso stEVERSE-tup 3 FLOW ENCOUNTERED IN WEIR. seses osooo stEVEltSE (UPI FLOW EteCOUNTERED IN WEIR. sense l 0.611718s 1.621E 01 1.4eSE 01 1.020E.03 1.03GE 02 7.000E 01 5.470E 02 7.000E 01 0. O. O. i cocon REVERSE (UP) FLOW ENCOUfeTEltEO IN WEIR. somas I coosa REVEftSE IUP) FLOW ENCOUNTERED IN WEIR. eeeea j O.C138719 1.633E 01 1.ASSE 01 1.020E 03 1. OSSE 02 7.000E 01 5.470E O2 7.000E 01 0. O. O. 1 cocco REVEftSE t UP 3 FLOW E90 COUNTERED IN WEIR. eaeea j 0o000 ftEVERSE TUP 3 FLOW ENCOUNTERED IN WEIR. eeaeo j O.C1SSESO 1.64SE 01 1.4SSE 01 1.020E 03 1.077E 02 7.000E 01 5.470E 02 7.000E 01 0. O. O. l
- ososo stEVEftSE (UP) FLOW E90COUNTEREO IN WEIR. sages i
! 000co REVERSE TUP) FLOW E90 COUNTERED IN WEIR. eeeae I C.C175781 1.SS7E 01 1.4eSE 01 1.020E 03 1.096E O2 7.000E 01 5.470E 02 7.000E 01 0. O. O.
- oeose 8tEVEftSE . t UP 3 FLOW ENCOUNTEREO IN WEIR. seeea j i eosee REVEftSE TUP 3 FLOW ENCOUNTEREO IN WEIR. eoees 0.C195313 1.669E 01 1.485E 01 1.020E 03 1.114E 02 7.000E 01 5.470E 02 7.000E 01 0. O. O.
i ooooo REVERSE (UP) FLOW EfeCOUNTERED IN WEIR. sense ossoo ftEVERSE TUP) FLOW ENCOUNTERED IN WElR. eeeae O.0214444 1.S40E 01 1.44SE 01 1.020E 03 1.131E O2 7.000E 01 5.470E 02 7.000E 01 0. O. O. l 1 0oo3o REVERSE IUP3 FLOW E90COUNTEREO IN WEIR. eoees , i caoso ftEVERSE TUP) FLOW E90COUNTEftE0 iN WEIR. eoeea j O.0234375 1.SSIE 01 1.4SSE 01 1.020E 03 1.144E O2 7.000E 01 5.470E C2 7.000E 01 0. O. O. ' 000oo IIEVERSE TUP 3 FLOW E90COUNTEftEO IN WEIR. seeae ' osses IEEVERSE (UPI FLOW ENCOUNTEREO IN WElR. seses O.02S3908 1.702E 01 1,4SSE 01 1.020E 03 1.iS4E 02 7.000E 01 5.470E 02 7.000E 01 0. O. O. eeese IEEVEftSE EUP1 FLOW E90COUNTEftEO IN WEIR. eeeae I
- ooose stEVEftSE (UP) FLOW ENCOUNTEftED IN WEIR. sesse
, 0.0273438 1.714E 01 1.485E 01 1.020E 03 1.1SOE 02 7.000E 01 5.470E O2 7.000E 01 0. O. O. i 1 sosse ftEV RSE (UP) FLOW TP Ce *fTflIEO IN WEIR. .seses
- sossa Kf.JERSE tup 3 FLOW FleCC.MTERED IN WEIR, seses i i O.0292989 1.725E 01 1.44 5E 1 1.020E 03 1.195E 02 7.000E 01' 5.470E 02 7.000E 01 0. O. O.
- ossos REVIRSE EUP) FLOW EreC0 MTERED IN WEIR. seses .
l oooco REVCRSE TUP 1 FLOW ENCO NTEftEO IN WElR. s e e e s' , 0.0312600 1.73hE 01 1.44SE 1 1.020E 03 1.209E O2 7.000E 01 5.470E O2 7.000E 01 0. O. O. 0.0332031 1.740E 01 1.41SE 1 1.020E 03 1.223E 02 7.OOGE 01 S.470E O2 7.000E 01 0. O. O. 0.03S1543 1.75CE 01 1.44 SE 1 1.020E 03 1.237E 02 7.000E 01 5.470E O2 7.000E 01- O. , O. O. C.CC71094 1.78?E 01 S.470E 02 7.000E 01 0. I O. O. 4 1.465E f 1.020E 03 1.2SOE 02 7.000E 01 0..C390625 1. 777E 01 1.40SE 1 1. 020E_ 03 1. 2.S.S.E. O.2 7. 000.E. 01 O. O. /
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,: cpWS HAND 8% CFG 408-10 ,
PAGEI \ O' 8MR* JANUARY 1973 CONTINENTAL DIVISION BFV TORQUE DETERMINATION '- - it should be noted at this point that the sum of a number of torquageompo. Ot$octive before valve torque is determined, the nents. To avoid confusion, a humber f The determining factor in accu. user should consult CFG 200 20 to of tr.ese have been combined'and a retely selecting the most economical ensure that the pressure drop limi- number of calculations have , been , [ actuator for a butterfly valve is the tations are not exceeded for the specific performed in advance. Thus, each valve construction in consideration. valve type can be represented with the ! torque required to cpen and close the same simple, practical formula shown valve. The following is a quick and below. The various torque components easy method of determining actuator IrttroductiDft and the process of simplification are torque required in both the open and the closed position of a butterfly explained fully in the appendix (See Butterfly valve torque is actually Page 23). valve. Qp ,j y where: A,8, C = Tabulated coef ficients
**'** f,p)ssure drop TOTAL TOROUE (IN.LBS) = A (APacto*) + 8 + C or is ,
j APegge* emeller / AP.,ve' = Effective pressure drop
- at angle a*
- 4. Select values for A,8 and C again, Referto CFG 40F.20 for Fisher O Procedure
- 1. From the above table, determine this time according to the character.
istics of the value at the desired maxi-actuator rafection. the effective pressure drop, APeff,*, mum open angle (a*). Write the at the desired maximum angle of equation shown using the new values
- The effective pressure drop term, opening.
and pe form the simple calculation. APett.a', arises due to the flow con-required. This determines the required ditions near the disc. It is a calculated actuator torque (valve torque required) value and will usually very from th#
- 2. Tum to the table for the valve type, class and disc type in consider. at the desired angle of opening. actual pressure drop. It may be described as the pressure drop seen by ation,
- 5. An actuator may now be selected the disc in the region of flow which
- 3. From the table, choose values for with either: affects only the "C" multiplier in the A, 8 and C according to the character. torque formula. Note that, due to its a) A constant twque output gre nature, the effective pressure drop is istics of the valve in the $12tEl Poso than the largw of the twqm tion (0*). Write the equation shown used only at open angles (oPete.0* =
using the selected values and perform etamined in 3 and p APact.0*) and then only when it is less f then the actual pressure dron i the simple calculation required. This b) A varying torque output which ' I determines the required actuator equals or exceeds both of the deter- IAPe e,o*). torque to move the valve disc away mined torques at their respective from its seat. valve positions. 4 EFFECTIVJ.2t! ESSURE DROP TABLET NOTE . Pi ;= Upstreem pressur{lps.Ja #1 the indicated engle of openine lo*) Ano es of Disc Openine Type of Type of 00*.e0* 30' a0* to" e0*i 70* Dies Pluid O* to' 2o* 'I 0.550P 0.494P 0.300P 0.350P AP.ct o* O.670P 0.730P 0.500P s 0.000P s ' Conwntional Lkivid or 0.00P s 0 2@Ps 0.140P 0.140P s ; AP.cig 0.200P s 0.250Pi O Offset Gee Liquid AP.cig AP.co.10' 0.700Ps O.500P e 0.700Ps 0.700Pe 0.700P 0 870Pi 0.000P 0.500P s 0.460Pe 0.100P
- 0.1f0Ps 0 090>
0.200P 0.360P 0.380P 0.360P 0.200P's Gas AP ego
- i .
V 47W W NT ~h/ P 4 & "L =
'CFG 408-10 e
. PAGE 4
.JdNUARY 1973 ,
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TYPES 7600 & 7700 CONVENTIONAL DISC - CLASS 2 TAsLE 3 Atsesecton.eueeneusi'n s- c Is. .ci on. Anv. Graph. N one, TFE TFE m Ele > Lined Filled Filled Bronae Ahoy g, somer 0* 10' 20* 30' 40* 50* GO' 70* 80*.90* SET Acceal Bronse 68 sea 1 0.007 0.012 0.025 0.031 0.049 23.0 0 0.004 0.0 04, 0.013 0.029 0.053 0.100 0.200 0 320 11/4 0.011 0.019 0.039 0.048 0.077 23.0 0 0.007 0.013 0.021 0.046 0.082 0.156 0.310 0.500 1 1/2 0.019 0.033 0.067 0.083 0.133 23.0 0 0.010 0.019 0.030 0.066 0.118 0.450 0.450 0.710 2 0.046 0.080 0.160 0.200 0.320 36.0 0 0.030 0.070 0.110 0.230 0.420 0.800 i.60 2.55 21/2 0.070 0.123 0.245 0.306 0.490 36.0 0 0.060 0,130 0.210 0.450 0.820 1.66 1.14 4.96 3 0.100 0.175 0.350 0.438 0.700 36.0 0 0.110 0.230 0.370 0.780 1.42 2.70 t,42 8 60 4 0.299 0.400 OA00 1.00 1.60 50.0 0 0.270 0.540 OA70 1.85 3.40 6.40 12.9 20.4 5 0.357 0.625 1.25 1.56 2.50 50.D 0 0.500 1.10 1.70 3.60 6.60 12.5 25.1 39.8 6 0.500 0.875 1.75 2.19 3.50 50.0 0 0.000 180 2.90 6.30 11.4 21.6 43 5 69 0 8 1.07 1A8 3.75 4.80 7.50 65.0 m 0 2.10 4.30 7.00 15.0 27.0 51.0 10;I 1p3 i
" 326 2.24 3.93 0 4.10 8.40 29.0 $3.0 201 '
10 7.85 9.81 15.7 100 14 0 100 12 3.29 5.75 11.5 14.4 23.D 100 j 0 7.20 14.0 23.0 50.0 91.0 173 346 548 14 5 14 9.00 18.0 22.5 36.0 140 >* O 10.3 21.0 33.0 72.0 129 245 495 763
, 16 6.71 11.8 23.5 29.4 47.0 140 d
" 0 15.0 31.0 51.0 108 195 370 750 1160 18 10.3 18 0 36.0 45.0 72 0 184 0 22.0 45.0 73.0 156 28 2 535 1080 1710 20 12.6 22.0 44 0 55.0 88 0 184 0 32.0 61.0 99.0 210 21 720 14tA 2310 24 21.6 37.8 75.5 94.4 151 232 0 53.0 106 173 368 667 1260 2550 4050 30 38.7 67.8 136 169 271 282* J 0 105 211 344 734 1330 2520 50c0 8050 36 54.9 96.0 192 240 384 282 0 179 360 585 1250 2260 4280 86d 13,700 ,
42 94.3 105 330 413 660 396 0 287 578 936 2000 3620 6860 13,8C 1 22,000 48 124 217 434 543 868 396 0 433 871 1410 3110 5450 10.300 20,800 33,100 54 189 331 662 828 1320 520 0 620 1250 2020 4320 7820 14,800 29,900 47,400 60 234 410 820 1020 1640 $20 0 885 1720 2790 5960 10,800 20,400 41,200 65,400 66 332 581 1160 1450 2320 660 0 1140 2300 3730 8000 14.400 27,400 ES,200 87,400 72 396 693 1390 1730 2770 660 0 1490 3000 4463 10,400 18.800 35,600 71,20) 114,000 84 6I9 1080 2170 2710 4 330 800 0 2380 4770 7630 16,700 30,000 57,200 114,001 181,000 96 911 1600 3190 3990 6300 800 0 3570 7140 10,400 25.000 45,000 85.700 171.000 772.000 1AeP e:-ae whicheveri TOTAL TOROUE (IN L8S) = A (APacto") + 8 + C or is 3APeff-a e smaller j TABLE 4 TYPES 7600 & 7700 FISHTAIL-CLASS 2 A esesect one sueone Mest e* c tsesset one Anes ) TFE TFE Graph, N ene, um,g Eles. 20' g L6ned Fdeed Fdeed Bronse Alloy gg tem *' 0* 10' 30' 50' 40* 70* 80*.90* SST Acesel Bronse SS Seet 40* 2 0 046 0 080 0.160 0.200 0.320 36.0 0 0.060 0.100 0.210 0.300 0.360 0 430 21/2 0.070 0.123 0 245 0.306 0 490 36.0 0 0.120 0.190 0.440 0.660 0.840 1.01 3 0 100 0.175 0.350 0.438 0.700 36.0 0 0.190 0.320 0.760 1.22 t .60 1.92 4 0.299 0.400 0.800 1.00 1.60 50D 0 0.450 0.770 1,79 3.52 5.26 6.21-l 5 0.357 0.625 1.25 1.56 220 50.0 0 0A80 1.b0 350 7.25 12.5 , 15 9 6 0.500 0875 1.75 2.19 3 50 50.0 0 1.51 2.60 6 05 13.2 27.2 32 4 8 1.07 1A8 3.75 4.69 7.50 65.0 m 0 3.58 6.14 14.3 30.7 61.5 72.1 to 2.24 3 93 7.85 981 15.7 100 - 0 7.00 12.0 28 0 62 0 153-12 14 3.29 5 75 5.14 9 00 11.5 18 0 14.4 22.5 23 0 100 36 0 140 j 6-0 0 12A 16.3 21.0 29 0 48 3 64 A 108 144 132 242 294. 323 392 16 6.71 11.8 23.5 29 4 47.0 140 d
" 0 24,7 42.3 99 0 224 515 627 18 10.3 18 0 36 0 45.0 72 0 184 0 34 3 58 B 138 315 720 892 20 12.6 22.0 44.0 55.0 88.0 184 0 4d 0 82.0 191 4M 1030 1780 l 24 21.6 37.5 75 5 94.4 151 232 0 85.0 146 340 763 1910 2410 l 30 38.7 67A 136 ISO 271 282 J 0 171 W3 880 1580 9980 5200 %
36 54.9 96 0 192 240 24 282 0 301 516 1200 2820 7120 9600 i 42 94.3 165 330 413 860 396 0 484 828 1920 4480 11,500 15,500 I 48 124 217 434 543 364 398 0 725 1240 2890 6780 18.900 24.200 J 54 189 331 862 8 28 1320 520 0 1030 1780 4180 9720 24,800 33.800 60 234 410 820 1020 1640 520 0 1440 2460 5740 13.420 34.800 47,800 66 332 681 1180 1450 2320 660 0 1930 3300 7700 18,000 46,500 63.800 72 306 603 1300 1730 2770 680 0 2500 4290 10,000 23,400 60,800 83,000
CFG 408-10 A YYK C+t HSW4 -/ fMW 2.I 4P ,A G E -1 6 JANUARY 1973 TABLE 2s TYPE 9200 OFFSET DISC T RING - CLASS 2 O 5 (Select Onel C (Select One Anglel A ISe4ect One Busine Met'll g TFE TFE OrapNte None, 0* 10% o* t o* 20' 30' 40* 50* Go* 70* 90*.90* g^ Lined Filled Filled Bronze Alloy og 90* SST Acetel Bronze 0.800 1.00 1.60 62.2 52.2 0 0.270 0.540 0.870 1.85 3.40 6.40 12.9 20.4 4 0 299 0.400 5 0.357 0.625 1.25 1.56 2.50 54.0 e 54.0 0 0.500 1.10 1.70 3.60 6.60 12.5 25.1 39 8 6 0 500 0875 1.75 2,19 3.50 54.8 54.8 0 0.900 1.80 2.90 6.30 11.4 21 5 43.5 69.0 8 1.07 1.88 3.75 4.69 750 76.0 76.0 0 2.10 4.30 7.00 15.0 27.0 51.0 103 163 to 2.24 3.93 7.85 9.81 15.7 116 e 116 0 4.10 8.40 14.0 29.0 53.0 100 201 320 12 3.29 6.75 11.5 14.4 23.0 123 123 0 7.20 14.0 23.0 50.0 91.0 173 346 548 14 5.14 9.00 18.0 22.5 36.0 185 185 0 10.3 21.0 33.0 72.0 129 245 495 763 16 6.71 11A 23.5 29.4 47.0 198 e 198 0 15.0 31.0 51.0 108 195 370 750 1160 18 10.3 18.0 36.0 45.0 72.0 260 260 0 22.0 45.0 73.0 156 282 535 1080 e 1710 20 12.6 22.0 44.0 65.0 88.0 316 316 0 32.0 61.0 99.0 210 381 720 1460 2310 24 21.6 37A 75.5 94.4 151 471 e 471 0 53.0 106 173 368 667 1260 2550 4050
, 30 38.7 67.8 136 169 271 783 782 0 105 211 344 734 1330 2520 5090 8050 36 54.9 96.0 192 240 384 995 995 0 179 360 585 1250 2260 4280 8600 13, 5 42 94.3 165 330 413 660 2040 e 2040 0 287 578 936 2000 3620 6860 13,800 22,000
, 48 124 217 4 34 543 86p 2200 2200 0 433 871 1410 3110 5450 10,300 20,800 33,100 54 189 331 662 828 1320 2420 2420 0 620 1250 2020 4320 7820 14,800 29,900 47,400 60 234 410 820 1020 1640 4520 e 4520 0 885 1720 2790 6960 10A00 20,400 41,200 65,400 66 332 581 1160 1450 2320 5760 5760 0 1140 2300 3730 8000 14,400 27,400 55,200 87,400 72 396 693 139Q 1730 2770 6860 6860 0 149G 3003 4860 10,400 18,800 35,600 71,200 114,000 84 619 1080 2170 2710 4330 9150 e 9150 0 2380 4770 7630 16,700 30,000 67,200 114,000 181,000 96 911 1600 3190 3990 6380 11,400 11,400 0 3570 7140 10.400 25,000 45,000 85,700 171,000 212.000 I
C or
-+ @ I I& acta whicheverI TOTAL TOROUE (14LBS) = A (&seia ) + B + or is d5C --** 4l j ;&eno" smaller j y ggy for / Mit< 'l S W AMDW i
l TAeLE 2s TYPE 9200 OFFSET DISC T RING - CLASS 3 A (Seiect One gue6ne Met'll 5 (Se6ect Onel C ISelect One Angle) TFE TFE GrapNie None, g Lined Fdled Fdled Bronse AlleV 0*
- 0* 10* 20* 30* 40' 50* 50' 70* 30 90*
SST Acetal tronze 58 8 1.43 2.49 4.09 6.23 9.98 til til 0 2.10 4.30 7.00 15.0 27.0 51.0 103 163 ! 10 280 4.91 9A1 12.3 19.6 156 e 156 0 4.10 8.40 14.0 29.0 53.0 100 201 320 I o 12 4.11 7.19 14.4 18.0 28 2 163 163 0 7.20 14.0 23.0 50 0 91.0 173 346 548 14 6 17 10.8 21.6 27.0 43.2 229 229 0 10.3 21.0 33 0 72.0 129 245 495 763 ' 16 8.06 14.1 28.2 35.3 56.4 242
- 242 0 15.0 31.0 61.0 108 195 37's 750 1160 I 18 12.0 21.1 42.1 52.7 84.2 308 308 0 22.0 45.0 73 0 156 282 FJ5 1080 1790 )
20 14.7 25.8 51.5 64.4 103 364 364 0 32.0 61.0 99.0 210 381 720 1460 2310 24 24 6 430 88.1 108 172 521 e 521 0 53.0 106 173 368 667 1260 2550 4050 30 48.4 84.7 169 212 330 896 896 0 105 211 344 734 1330 2520 5090 8050 36 68.6 120 240 300 400 1110 1110 0 179 300 585 1250 2200 4280 3600 '3,700 42 113 198 396 495 792 2160
- 2100 0 287 578 936 2000 3620 0860 13,800 22,000 48 149 260 521 661 1040 2320 2320 0 433 871 1410 3110 5450 10,300 20,800 33.100 54 221 317 775 900 1560 3560 3560 0 620 1250 2020 4320 7820 14,800 29,900 47,400 60 274 400 959 1200 1920 4000
- 4000 0 985 1720 2790 5960 10,800 20,400 41,200 86,400 86 378 662 1320 1860 2850 5000 5900 0 1140 2300 3730 8000 14,400 27,400 65,200 87,400 72 451 790 1580 1970 3100 7000 7000 0 1490 3000 4000 10,400 18A00 35,600 71,200 114,000 44 000 1220 2450 3000 4000 9310
- 9310 0 2380 4770 7630 16,700 30,000 57,200 114,000 181,000 96 1030 1e00 3610 4510 7210 11.e00 11.600 0_ 3570 7140 10.400 25.000 45,000 85.700 171,000 272.000
v 1 JCFG'408-10 '
/fT49# /
l
, PAGE 4 e'
JdNUARY 1973 - TYPES 7600 & 7700 CONVENTIONAL DISC - CLASS 2
, OL TAsLE 3 A (see ct one smhing Met'n a- '
c (select one Ans'el TFE TFE Graph. N one, y,,, Elas. ' Lined Filled Filted Bronae Alloy g, tomer 0* 10* 20' 30* 40" 50* 60* 70 80E90* SET Acessi Bronse 68 seet 1 0.007 0.012 0.02b 0.031 0.049 23 0 0 0.004 0.006 0 013 0.029 0 053 0.100 0.200 0 320 11/3 0.011 0.019 0.039 3.048 0.077 23.0 0 0.007 0.013 0.021 0.046 0.082 0.156 0.310 0 500 11/2 0.019 0.033 0.067 0.083 0.133 23.0 0 0.010 0.019 0.030 0.066 0.118 0.450 0.450 0.710 2 0.046 0.080 0.160 0.200 0.320 36.0 0 0.030 0.070 0.110 0.230 0.420 0.800 1.60 2.55 2-1/2 0.070 0.123 0.245 0.306 0.490 36.0 0 0.060 0.130 0.210 0.450 0.820 1.56 3.14 4.96 3 0.100 0.175 0.350 0.438 0.700 360 0 0.110 0.230 0.370 0.780 142 2.70 5.42 8 00 4 0.299 0.400 0.800 1.00 1.60 50.0 0 0.270 0.540 0.870 1.85 3.40 6.40 12.9 20;4 5 0.357 0.625 1.25 1.56 2.50 50.0 0 0.500 1.10 1.70 3 60 6.60 12.5 25.1 39.8 l 6 0 600 0.875 1.75 2.19 3.50 50.0 0 0.900 1.80 2.90 6 30 11.4 21.$ 43 5 69 0 8 1.07 138 3.75 4.69 750 65.0 m 0 2.10 4.30 7.00 15.0 27.0 51.0 10.3 163 10 2.24 3.93 " 7.85 9.81 15.7 100 0 4.10 8.40 14 0 29.0 $3.0 100 201 320 12 3.29 5.75 11.5 14.4 23.0 100 j 0 7.20 14.0 23.0 50.0; 91.0 173 346 543 14 5 14 9.00 18.0 22.5 36.0 140 D- .0 10.3 21.0 33.0 72.0 129 245 495 763
- 16 6.71 11.8 23 5 29 4 47 0 140 si 0 15.0 31.0 51.0 108 195 370 750 1160 18 10.3 18.0 36 0 45.0 72 0 184 0 22.0 45.0 73.0 156 282 535 1080 1710 i 20 12.6 22.0 44.0 55.0 88 0 184 n. 0 32.0 61.0 99.0 210 381 720 14GO 2310 23 21.6 37.8 75.5 94.4 151 232 0 53.0 106 173 368 667 1260 2550 4050 30 38.7 67.8 136 169 271 282* J O 105 211 344 734 1330 2520 5090 8050 36 54.9 96.0 192 240 384 282 0 179 360 585 1250 2260 4280 8600 13.700 42 94.3 165 330 413 660 396 0 287 578 936 2000 3620 6860 13.800 22.000 48 53 124 189 217 331 434 662 543 828 868 1320 396 520 0
0 433 620 871 1250 1410 2020 3110 4320 5450 7820 10.300 14.800 20.800 29.900 47.400 33.100 I
/
60 234 410 820 1020 1640 520 0 885 1720 2790 5%0 10.800 20,400 41.200 65.400 66 332 581 1160 1450 2320 660 0 1140 2300 3730 8000 14.400 27.400 55.200 87.400 , 72 396 693 1390 1730 2770 660 0 1490 2000 4860 10.400 18.800 35.600 71,200 114.000 t 84 619 1080 2170 2710 4330 800 0 2380 4770 7630 16,700 30.000 57.200 114.000 181.000 ! 96 911 1600 3190 3990 G380 800 0 3570 7140 10.400 25 000 45.000 85.700 171.000 272 000 fJPact oc whichever I TOTAL TORQUE (IN-LBS) = A (APacto*) + B + C or is ape 11 o* smaller j TABLE 4 TYPES 7600 & 7700 FISHTAIL-CLASS 2 _ A ISelect One Smhing Met'll 8' C (Select One Angle) g TFE TFE Graph. None. y,gg Eles- .* o' g Lined FHied Fdled Bronze Attoy 5, tomer 0* 10 30 60' 50" 70* 80*90' SST Acetal Bronze 68 Seat 40* 2 0 046 0.080 0.160 0.200 0.320 36 0 0 0.060 0.100 0 210 0.300 0 360 0 430 i 2-1/2 0.070 0.123 0.245 0.30G 0490 36.0 0 0 120 0.100 0 440 0 660 0.840 1.01 3 0100 0 175 0350 0 438 0700 36 0 0 0.100 0.320 0.7CO 1 22 1.60 1.92 4 0 299 0.400 0 800 1 00 1.60 50.0 0 0.450 0 770 1.7E ~ 3 52 5.2G 6 21 5 0.357 0.625 1.25 1.56 2.50 50 0 0 0 880 1.50 3 50 7 25 12 5 15 9 6 0 500 0 875 1.75 2 19 3 50 50.0 0 1 51 2 00 6 Os 13 2 27.2 324 gl' 8 1 07 1 88 3.75 4 09 7.50 65 0 , 0 3.58 6.14 14 3 %7 61 5 72 1 10 2 24 3 93 785 9 81 15.7 100 " 0 7 00 12 0 C/.0 l' 3 12 14 3.29 5 14 5 75 9 00 11 5 18 0 to 4 22.5 23 0 36 0 100 140 j 0 0 12d 21 0 2H 0 AR 3 108 132 242 'N S 1G 3 29 0 64 8 144 323 392 16 6 71 11.8 23 5 29 4 47.0 140 o' O 24.7 42.3 99 0 224 515 627 18 to 3 1R 0 36 0 45 0 72 0 184 0 34 3 58.8 136 315 720 H92__ 20 12 6 22 0 44 0 55 0 88 0 184 a. 0 48 0 82 0 191 438 1033 1780 24 21.6 37 8 75 5 94 4 15' 232 0 85.0 146 340 783 1910 2410 30 38 7 67.8 136 169 271 282 J 0 171 293 680 1580 3980 5200 36 54 9 96 0 192 240 384 282 0 301 516 1200 2820 7120 9600 C2 94.3 165 330 413 660 396 0 484 828 1920 4480 11.500 15.500 48 124 217 434 543 868 396 0 725 1240 2890 6780 18.900 24.200 , 54 189 331 662 8 28 1320 b20 0 1030 1780 4160 9720 24.800 33.800 60 234 410 8?O 1020 1640 520 0 1440 2460 5740 13.420 34.800 47.800 66 332 581 1160 1450 2320 660 0 1930 3J00 7700 18.000 46.500 63 800 j 72 396 693 1390 1730 2770 660 0 2500 4290 10.000 23.400 00.800 8 U00 1 l 1 l
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