nuclear seismic analysis
TRANSCRIPT
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TABLE OF CONTENTS
1. SUMMARY .
2. INTRODUCTION
3o REFERENCES o ~ 5 ~ ~ ~ ~ ~ ~ ~ ~ ~'1 ~ ~ ~ ~ ~ ~ ~ ~
4. HATHEMATICAL MODEL OF VALVE/ACTUATOR ASSEMBLY . ;
~ ~ ~ ~ 1
~ ~ ~ ~ 2
~ ~ ~ ~ 3
~ ~ ~ ~ 4
5. DETAILED SEISMIC EQUATIONS
A. NATURAL FRE UENCIES . '.1
l.'ateral - Disc/Stem .
~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 5
~ ~ ~ ~ 5
~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 5
2. Longitudinal Natural Frequency
3. Vertical Natural Frequency
4. Transverse Natural Frequency
B. VALVE STRESSES
~ ~ ~ ~ 9
~ ~ ~ ~ 1 7
20
24
1. Actuator/Bracket Bolting . . . . .,. . . — . . . . . . . 24
Bracket .21'.
Bracket/Valve Bolting .
4.- Valve Neck
5. Valve Stem
6. Valve Disc Pin
C. VALVE 5 PIPING SECTION MODULUS
D. DEFLECTIONS
E. VALVE BODY BOLTING
25
26
27
~ ~ ~ ~ ~ ~ 29
30
31
31
31
6. COMPUTER INPUT SHEETS . . . . . . . . . . . . . . . . . . . , .. 32
7.- ENCLOSURES: (1) NUCLEAR SEISMIC COMPUTER CALCULATIONSEACH UNIQUE ITEM.
(2) VALVE ASSEMBLY DMG.(S).
FOR
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~~511 b Phd /f$ 1 5 I9 I5 I /f11' ~ JA5t11| Jj,„(5 /55)1
1
~ ~
SUMMARY
Since all the valve assemblies have natural frequenciesI
greater. than 33 Hz, seismic stresses less than the allowable and
act9ator 'deflections of such small magnitude that the valve assembly
,will remain operable during a seismic event, Posi-Seal considers the
valve assemblies to be seismically qualified per the requirements ofthe subject specifications.
Natural 'requencies (Hz)
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INTRODUCTION
'0
The objective of this analysis is to show that the subject valveI
can with'stand a seismic loading of g magnitude as given in customer'
specification and still maintain operability.
Natural frequencies and stresses of the valve assembly have been
calculated in accordance with references noted and figures, assuming
the basic'valve body to be rigid and the actuator to act as a lumped
mass concentrated at its C.G. and rigidly connected to the valve bracket
through the bracket boltiag. The purpose of the frequency calculations
is to show that all valve assembly natural frequencies are greater than
33 HZ and therefore, static stress analysis of the valve is applicable.
Where resonances occur below 33 HZ, valve and/or bracket are modified
in order to drive the fundamental natural frequency above 33 HZ.
Those critical sections of the valve assembly such as the bolting,
neck, stem and pin were analyzed assuming a g static load (magnitude per
customer specification) applied at either actuator or disc C.G., in
each of the orthogonal directions simultaneously. Seismic stresses
are combined with operating stresses due to hydrostatic pressure and/or
valve toraue wherever applicable.
Section modulus of the valve body and deflection of the actuator
relative to the valve due to seismic loading are also analyzed.
All equations are from reference (a) unless otherwise noted.
2
REFERENCES
(a) "Formulas for'Stress and Strain" by R.J. Roark, McGraw Hill 5thEdition.
(b) "Mechanical Vibrations" 'by Church, John Wiley & Sons.
(c) 'advanced Strength of Materials" by Seely & Smith, John Wiley a Sons.
(d) "Eccentrically Loaded Joints". Machine Design, August 1967
Y
Y
Xl Actuator
ActuatorBolts
Stem
Body Bolts
- Disc Pins
'pX4
0
X—-
~ misc
Body
PIVMRAI. H3DW OF VALVE ASSEMBLY
DETAILED SEISMIC E UATIONS
A. NATURAL FRE UENCIES:
LATERAL - Disc/Stem (By Rayleigh's Method)
~ The natural frequency is calculated for the worse case, that'being the v'alve open where the disc is not supported by theseat.
~ e
1 D1
.707 D
NG 3.125 HzY
NATURAL FRE(UENCY Per Ref. (b)
W4 03
Y'Y
3 EID
0
2
~
W4 D3
444 Er
4 1 + 276 EID
D2
Deflection ofDisc
eD=
W4
2
2 EID
M D
2'ID
W4 0 W42
16 EID
Ll +L3
4 EID
Slope at endof Disc
3W4 Ll L2
2 3
3 EIS
W4 Ll + L23
3
s
De flection of Stem
-5-
W4 D2 2 2 3
L2 D Ll L2 D Ll L2 D Ll L2+
3 ', ~++ h + + 3.
48 I 16 I 16 I 6 1
N D4
E 48 I
1, 2
8 I
L L2 D Ll~+4 6 I
I.S =4
41, Muniment of Inertia of Stem ( in )
.707 DE2 +
.707 DE E2 2
2 4
m E+ 1 +
r4
2. -21 2 Mmnt of
Inertia of Disc
(in )4
.3535 DE,2
Y
707 DE
+ .7854 E Y22
2+ .7854 E
Distance to Neutral Axis (in)
MKBE: N4
DlD
Ll =
L2 =
El =
DISC 0KIGFZ (LBS )
STEM DIA. (IN. )
DISC GAGE DIA. (IN.)EFFECTIVE BRG. LENGZH (ZN.) See Page 29 for equation
EST mS~ THICmZSS (IN.)NZOTH SMALL DIA. BACK OF DISC (IN.)
E = NZDTH L~ DIA. OF DISC (IN.)2
Y2 = DIST. $ S~1 TO PKNZ FACE OF DISC (3 l.)
-6-
LONGITUDINAL (Z) NATURAL FREQUENCY
DETER&ENATION OF LONGITUDINAL SPRINGRATE
Sorin rate of the Neck
Springrate of the neck due to the shear in the Z direction
„Y
F
pz
F
Yp=pz1 3
~'~xQp=p 12
~;.E
YM=M12
=M 1M
X
Y = Yp + YM Y=F 1 +M 1zEI 2
X
M=-F 1z
0=P 1z2 EI
X
+M 1EI
Z
LONGITUDINAL SPRINGRATE OF NECK
Y=F 1 F.lz — z'"3EI HEI
'K=. F 12 EI
Y=F l~z
12 EIz
~oz ~
Circular Cross Section=~(D -B )
4x — 0 5
64
Rectan ular Cross SectionI = T~ T4 — ~ B5
3 4
Nith Gussets
I =I +(L — 0)12
For the Neck 1 = X~
KNF = 12 EI2 x
X5
Springrate oi the neck due to the moment.about the X — axis
F p YT
X3
g ~j
YS
- 10-
LONGITUDINAL SPRINGRATE OF NECK
YT = YS + Qs (X3 + X4) YS = YF + Y
S . F ~ M
YF =. Fz Xg3
~QTX
QF = Fz X2
~EJ.
M = M X5 M = F (X3 + X4)2 EI
X
M— Fz (X3 .+ X4) X~
2
2 EI
QF (X3+X4) Fz (X3 + X4) X52
2 EI
= M X5 =, (X3+ X4) X>M rI'IX
Q (X3 + X4) = F (X3 + X4) X~2
EI
YT— F X5 + 3 (X3 + X4) X5 + 3(X3 + X4) X5
3 EI
K=FYT
KNM 3 EIX5 + 3(X3 + X4)X~ + 3(X3 + X4) X~
KN = KNF KNz z x
KNF + KNM'z X
- 11
LONGTTUDZNAL SPRZNGRATE OF BRACKET
Sorin rate of Bracket
Springrate due to twisting of the bottom plates of bracketper. Seely and Smith, Page 271, Ref. (C). ~
1where B = .333 = 3 for b PP h
G = Shear Modulus
Lookh.ng at one side of brack tAssume. the width of the bracketthat resists the twist of theplate is the average of thevalve neck width and distancebetween bolts X3
'.b =T4+X82
G = 12X10 h = T1
(T4+X8)F, (X4 — Tl + X3)
2 (12 X 10 )
T = Mx' F X4 — Tl + X32-
F, (X4 — T, + X,)
(T4 + X8) 4 X 10
0 = ftf d 'here d |s assumed bo be = T~ — 2T9 — (T~ + x>)2
0 = F (X4 — Tl + X3) (T~ — 2T9 — (T3 + X7)2
(T4 + X8) 8 X 10'13
-12-
LONGITUDINAL SPRlNGRATE "OF BRACKET
Tan 0 = 9 for small angles
6 3(T< + X8)' X 10 Tl
Y = 0 (X~ — Tl + X3)
Y =. F (Xq — Tl + X3) (T5. — 2T9 (T3 + X72
2
BBll ~
2:"(Tg + X8) T 8 X 103 6
Tl + X3 L5 — 2T9 — T3 + X7
'The total springrate for the bottom of the bracket is
KBBg = (Tq + X8) Tl 16 X 103
X2
( Jf Tl + X3) (T5 2T9 (T3 + X72
for a valve with a flanged neck b = B + X82
('B + X8) Tl 32 X 10BBN 2
X2
(Xg — Tl + X ) (T5 — 2T9 — (B + X7,3 5 9
Springrate due to the twisting of the top plate of thebracket
b = X6 — DBC of Actuator
KB' X6 TO 32 X 103
X
X3 (T5 — 2T9 X6 )
- 13.-
LONGITUDINAL SPRINGRATE OF BRACKET
BN 'BN BTNx, .' x'
. KBBX. + .KBTrCx ': x
Springrate ofper E age 10 .
the bracket due to the shear in the Z direction
KShear 12 Eix13
KBF = 12 EIxz
Xg — Tl - T0
KBF = 12ET9 T 3
36 (X<-Tl-T0)
Ix 9 T23
12
KBF =60 X10 T9 T23
3(X4 Tl — To)
Springrate of the b acket due to the bending of the side plates
YT—
YS + QS X3 + TO
YS = YF + Y
YF—
Fz (X~ — TO — Tl)3
3 EI
Y~ = m (X< — T0 — Tl).2
2 EI
'Q = QF+ Q~
S ~Q i X3 + TO
SIM.
N = F (X3..+.T0) Xq->O-T~
- 14-
LONGITUDINAL SPRINGRATE OF BRACKET
YM Fz 3+ TO (X4 Tp Tj )
2
I
OF ='F, (X4 —.T~ — T~)22 EI ~
OF (g3 + Tp) Fz (X3 + To) (X4 — To — Tl)2 EI
K(X4 Tp Ty) Fz (X3 + Tp ) (X4 Tp Ty) 2
EI EI
Gg (X3 + Tp) Fz (X3 + Tp) (X4 Tp Ty)2
EI
YT = F (X4 Tp Ty) + (X4 Tp Ty) (X3+Tp) + (X4'p TI) (X3 Tp)3 2 2
3 EI EIx EI
BSN3 EIX
(X4-Tp-TI) + 3(X4-Tp T ) (X3+Tp) + 3(X4 Tp Ty)(X3+Tp)3 2 2
x=() 9 23 = 3
xz
BS .= KBF KBSmZ ' X
BF BSNZ X
KB = KBg KBSZ X Z
KB~ + KBSX Z
Kz = KB KNZ Z
Z Z
-15-'
LONGITUDINAL ( Z ) NATURAL FREQUENCY
M=W. +Wjtt3
Where W = Weight of Actuator3.
= Weight of Bracket2
fn = 1Z 2m
K
MH
- 16-
VERTICAL (Y) NATURAL FREQUENCY
DETERYiiNATZON'F VERTlCAL SPR1NGRATE
Sorin rate of Neck
Stretch of Valve Neck
KNF = AEVg
KNF, = AEy: X~
A 'Tr (DQ B5 )2 2
A — T3 T42
4
A = A + (L — D0) T
Circular Section
Rectangular Section
with Gussets
Sorin rate of Bracket
Springrate of Bottom Plate
Y = F 1312El
for fixed — fixedper Page 10
FFor one side
1 = T~ -2T9 (T3 + X7)2
12
- 17-
VERTlCAL SPRINGRATE OP BRACKET-
BBF = 12 E|:2 .1'2 .(30X10 T2 Tl
12 (T3-2 T9 (T3+X7)) 3.
2
3, '= T2 Tl -.4' 1D
3(T3 — 2T9 — (T3 + X7)
For Both Sides
KBBp = T2 Tl 4.8 X 103 8
(T3-2 T9 (T3 + X7)3
2
~ For Flanged Neck
T2 Tl 4.8 X 103 . 8
2T9 - (B + X7))
Springrate of Top Plate
. KBTp T2 T0 f 8 X 10 8
3(T~ — 2T9 X6)
Springrate of Side Plates
KSp = AEy
'= X4 — T0'- Tl A = 2 T2 T9
KBSp = T2 T9 60 X 10 6
X4 — T0 — Tl
-18-
TRANSVERSE (X) NATURAL FREQUENCY
DETERMINATION OF TRANSVERSE SPRINGRATE
Sorin rate of Neck
Sprirlgrate of the neck'ue to the shear in the X direction.
~ e
KNF =, 12 EIx
X5
Iz (Dp — B5 ) Circular4 4
3T4 T3 — '8
B~ Rectangular
Iz Iz+T(LDp)+2(LDp)T(L+Dp)Il
with Gusset
Springrate of the neck due to 0he moment about the Z — Axis
KNM,= 3 EIz
X5 + 3 (X3 + X4) X5' 3 (X3 + X4)'5
KN = KNF KNMx x z
NF NMx z
-20-
TRANSVERSE SPRINGRATE QF BRACKET
SPRINGRATE OF. BRACKET
Spz i@grate aue to the moment about the 2 — axis acting onthe bettom plate at the bracket
F xQF
r
Z = OF (X<-Tl+X3)
F = Mz Mz Fx Xq-Tl+X3)
5 9
F = F (X0-Tl+X3)
5 9
QF F 1 F T3 2T3 T3 + X7 ) /2$2 EI
~F F X4 T) + X3) (T3 — 2TF — (T3 + X7) /2 2
2EI (T5 — T9)
Y = F (X4 — T) + X3) (T3 - 2T9 (T3 X7))2 2
EIz (T5 — T9)
8 EIzBBM
(X4 — T) + X3) (T3 — 2T9 (~T3 + X
2
l 23
l2
- 21
TRANSVERSE SPRINGRATE OF BRACKET
20 X 10 T2'13 (T5 — T3)
BBM~ (X~ — T) + X3) (T3 'T9 (T + X ))
For a valve with a flanked neck
KBBy,. = 20 X 10 T2 Tl T5 T96 3
2(Xg-Tj+X3) (TB-2TB-(B + X7)2
Springrate due to the moment about the Z — axis acting onthe top plate of the bracket
~
KBTM = 20 X 10 T2 T0 (5 T9)
6 3
2X3 (T5 2T9 — X6 )
2
BM BBM BTM
BBM + BTM
BF= KBF
x z
Springrate of the bracket due to the shear in the X — direction
ex'cept Iz T9 T23
jt
6 .3KBF = 60 X 10 . T2 T9
x3(x„
22
TRANSVERSE SPRINGRATE OP BRACKET
Sprkngrate of the bracket due to the bending of the sideplates ..
KBSj = KBSZ 'xcept I = T9 T2 + 2T9 T2 T~ — T9)3 2
Z X2
K 3 EIBSN
'
( 4 Tp Tl) 3C4 Tp Tl) ( +Tp)+ 3(X4 Tp Tl) (X3+Tp)
BS BP BSNX . X Z
KBP + KBSmX Z
B BN BSX ' X
KB~ + KBSZ X
Kx = KB KX X
KB + KNX X
H
-23-
P
B VALVE STRESSES:
1 ACTUATOR/BRACKET BOLTING
OPERATING STRESSES-
1.414TNA X
WHEM:116
S =S.SOZ SOX
T= VALVE TORQUE (Packing + Seal + Hydrostatic) (in LBS)N = NO OF ACTUATOR BOLTS
12A-= TENSILE STRESS AREA OF ACTUATOR BOLTS (ZN )1
X = D OF ACTUATOR BOLTS (ZN )
T'T1*
G2 M =FyX
'.x —(1 + COS ~)4
3X6N1 N1
SEISMIC STRESSES
A: VERTICAL DIRECTION (Fy)
M MAXIMUMBOL
Per Ref (d)
G ~ Transverse Seismic Acceleration1G = Vertical Seismic Acceleration
2G ~ Longitudinal Seismic Acceleration
3M FyX2 W
1Actuator Weight
'W = Bracket Weight2T LOAD (LBS ~ )
F ~Z
4 (1+CON~)3X N 1
M
F~F+P+PN
X Z1
(LBS) TOTAL TENSILE LOAD ON BOLT
TP T (PSI)A
TENSILE STRESS
B TRANSVERSE DIRECTION (F )
X U1 G1 X2 M=FXZ X 3
SSX1.414Tv + Px (PSI) SHEAR STRESS
N1AIXS NlA1
4, (1 + C )'
MAXIMUMBOLT LOAD (LBS )
'TZ FRZ (PSZ) TENSILE STRESS
A
C LONGITUDIN4()2 DIRECTION (F )Z
x
Fz "1 *G3 Ty=FzxL M, = r, X'2 3
1.414Ty + F
1 1 6 N A
F = 4RX
3g N
(1+ C ~)OS N
M MAXIMUMBOLT LOAD (LBS )
S ~ RXTX
A.
(PSZ) TENSILE STRESS
~'
ROOT SUM SQUARE STRESSES:
2
SS 'ox + ssxS ) + (S +S )SOZ SSZ
2 2 2 (PSZ) TENSILES = S + S
TS Ty TZ TX
MAXIMUMSTRESS: . MAX.ST ZSS THEOR
Ts Ts 2S = —+ — + S
T 2. 2 Ss
2. BRACKET
OPERATING STRESSES-
. S
X
McI /
X3 3
'3g T
12
F=T/T5
~ c= T2
2
M=, X T/T
T5
X4
S=6X T
TTT592TENSILE (PSZ)
IS=FS-
AA~T T
9 2
S = TS
SHEAR (PSI)
9 2 5SEZSMEC STRESSES
Ai VERTICAL DIRECTION (Fy)
Fy= (W + .SW )G M =FyX
S =F + Z5+ X22T T2 2J 2J
3 3J~2 9 2 J=2 29
2 —312 12
M =FyXX 2
TENSELE (PSI)
2
9 2 5/2 9/2
B TRANSVERSE DERECTZON (F )
F = (W + .5W ) G . Ty~F X M =F (X + X )X
SX
TZ
TyT9 T T
6X Ty
T5T9 T2
+ F~'
T9T2+ M T
3 3
2 J3
SHEAR (PSI)
TENSZLE (PSE)
C LONGITUDINAL DIRECTEON (F )
(W + 5W ) GZ 1 2 3 Z 1 M=F (X3+X4)
X Z
S = Tsz=-~—+ F9 2 5
T9 T2S = 6X Ty + MT
2T5 9. 2
2 J
SPEAR (PS|:)
- 25;
ROOT SUM SQUARE STRESSES:
.SS
TS
S + S + S SHEAR (PSZ)2 2
SX SZ S
S + S 2 2.2
+ S + ~S ~SZrZ (PSZ)
2 ~
It
MAXIMUM STRESS: Y~. S BESS THEORY
TS + T +2 2S S 2
T 2 '.3 BRACKET/VALV BOLTING
SOZ
OPERATING STRESSES2X T
. Ssox= ~N A X
2 Z T7r 2 2 9 N~X 2
WHERE" 2 T= VALVE TORQUE (XN-LBSf
N'= NO OF BRACKET BOLTS~ 42
A ~ TENSILE STRESS AREA OF BOLTS (ZN ) 0X
X + X2 2
EQUIVALENT BOLT DZA (ZN )2
8
SEISMIC STRESSES-A VERTICAL DIRECTION (Py)
Fy= (W + W )* Q - M =FyX M =FyX1 2 2 Z 1 X 2
'RX MX F -MZ P-~F +P +FRZ — T
.2X 2X NRX RZ
8S r
Ty= T TENSXLE (PS I)A
Z
TOTAL TENSILE LOAD ON
BOLT (LBS )
B TRANSVERSE DIRECTION (F )
F = (Wy + Wp) *Gy
$~'A�X-2229�
Ty=PX M=P (X +X)
SHEAR (PSZ)
TENSILE (PSZ)F = Z S = RZRZ —TZ
2X A
C 'ONGITUDINALDIRECTION (P )
F = (W~ + W2) .-G3
2 2 9 N A2 2
P = X S = RXRX TX2X A
Z 1 M=F (X +X)X Z 3 4
TENSILE (PSZ)
-26-
ROOT SUM SQUARE STRESSES:
2 2SSX
+SOX SSZ SOZ
S = S +S +S2 2 2
TS Ty TZ
MAXIMUM STRESS: MAX.STRESS THEORY
S = TS + TS + SS S 2 2
~ T .' ' 2
4 ~ VALVE NECK—
OPERATING STRESSES
S = C SHEARJ
~ 0
1J'= 8( 2) ( 2) - 8( 2+ R6) ( )
3 2 + 1 8 2 Rs/ + + 1 8 23( 2 R6)
+ 8( 2) ( 2) - ~ Di
3( 2) +18 2 D.i
T3
ORJ= ft'd -Di).4
1 — 332
C= T4 DIST TO MAX FIBER STRESS
T4
S =P
4 + Di2T 2
T 2 - Di24
OR Pd 2
3 + Di2d 2 - Di2
3
HOOP (PS I)
SEISMIC STRESSES
A. VERTICAL DIRECTION (Fy)
Fy= (W + W + W ) *G M = FyXZ
S =.Fy MT MTT''+Z3+X47 — ——TENSILE
A 2J 2J
M ~ FyX W = Weight. of Valve Neck (LBS)X 2 3
A= (T — 2R )T - Di.23 5 4
4(PSI) OR
J2
A= ~ (d 2 - .2) (in )2
43 Di
R 4 (t Di OR fI (d4- Di )
12 64 64
4 2 - 5 4 - 5 4 6/2+ 5/ -{fl D14)OR {d4 -D). )
12 12 64 64
B~ TRANSVERSE DIRECTION
F= (W+W+W)*GX . 1, 2
"X'y=FX M=F (X +X +X)
Z
S = TyT4
2J
S Z 3TZ
2J
+ FX
ASHEAR (PSI)
-27-
TENSILE (PSI)
C. LONGXTUDINAL DZRECTXON (F )Z
F = (W +W +W ) *GZ
Ty= F XZ l M=F (X +X +X)
X Z 3
2J
S ~ MxT4TX.'2J.
+ F SHEAR (PSE)Z
A
TENSILE (PSX)
ROOT SUM SQUARE .STRESSES:
S = S 2SS SX
TS, Ty
MAXIMUMSTRESS:
$,S = TS+'
2
+ S + S S~~ (PSZ)SZ
+ S 2 + S ~ + S TENSXLE (PSZ)TX P
MAX~ STAGS THEORY
T + S 2
Valve with Gussets
J = J + 8 (L/2) (T/2) - 8(d3/2) (T/2)2 3 2 3
3(L/2)+l 8(T/2) 3(d3/2) + l 8(T/2)
J =2
32J +
J = J +
(L-d) T3
3l2
I 2T L-d + 2 (L-d) T L+d
3 3 3
2 4
6
A= A+ (L-d )T3
W~ A*XS* .'2833
S F +A
MxZ +Mxd2J
3 ZJ
SX 3+Xx2J A
ST=MZL2J
SZ 3 + Fz2J A
ST = Mxd
2J
- 28-
5. VALV" STEM:
OPERATING STRESSES—
SS = 16T
D31
SHEAR (PSI)
F = y P = i7'PD g APPLIED FORCE'ON DISC (LBS. )A
THE EFFECTIVE BEARING LENGTH IS DERIVED AS FOLLOWS:
= FA
WHERE A = PROJZCTED BACKING ~+= Ll Dl — EFF CTIVE BrARZNG LENGTH T~~S THr. STRf
DIAMETER.
$ = F
1 1
SINCE THE LOAD IS ASSlP~ TO BE TRIANGLE~, EQZ OF THE YIELDSTRENGTH (OR 15000 psi) IS USED.
S
S
2
3 L1
T~ORE, L 1= F3.5000 Dl
AS CAN BE SEEN IN THE FIGUR ABOVE, IT IS ASSUEZD THE RESULTANT
EAR NG REACTION OCCURS AT Ll 3
nzBENDING DUE TO PRESSURE (PSI)
WHERE f Ll + L~ OVALS LKifGTH OF STER FROM THE
Q3 ~2 EG) OF D1SC TO THE B~ING REACTION.
-29-
~ ~
SEiSMiC STRESSES—
N=~II4 ILL+ Lg S = .s +<.2 2
.Sbl = 32M = ~16 IA'%D 3 .MDl3
Ll + L2 BENDING (PSi)3
Sbs Sb + Sbl
MAX'TRESS: P~. STRESS THEORYre
Sbs + Sbs + Ss
r
6. VALVE DiSC PIN: (NO. SEiSMiC STRESSES)
SS = ~2% 100 2 SHSIIS S122SS (PSI)DlAs
T = Torque due to seal torque and hydro-static torque.
l~(
D,
-30-
As= .7854 adp SHEAR AREA (XN )2
a= . 01745 D e1
-1 21e= SIN (—)D
ARC LENGTH (ZN )
2
dp(—)—Dl dp2 4
CHORDAL LENGTH
C VALVE AND PIPiNGIZv= ~ (d
32d1
4Zp= ~ (R
32 RgZv 01.1Zp
SECTION MODULUS:
R ) SECTION MODULUS OF VALVE (ZN )3
7
R ) SECTION MODULUS OF ADJACENT PZPZNG (XN )3
9
WHERE: d = VALVE BODY 0 D (ZN ~ )
R = VALV" BODY WATERWAY DZA. (XN )7
R = 0 D OF ADJACENT PIPiNG (XN )8
R = I.D OP ADJACENT PIPING (XN )9
D DEFLECTIONS:
Wgtxt gz
"L,VWHERE: W= WEIGHT OF ACTUATOR + 1/2 WEZGHT OP
BRACKET (LBS ~ )
g- G LOAD ~ x2 + gy2 + gz2
K= SPRINGRATE (LATERAL OR VERTXCAL) LBS/IN
E VALVE BODY BOLTING:
F= (1 + Cos ~ )3X N
0 3N
M MAXIMUMBOLT LOAD (LBS)
S = F TENSILE STRESS (PSI)A4
WHERE: M = MAXIMUMPIPING MOMENT (IN-LBS)4
N = NO. OP BODY BOLTS3
0 BC OF BODY BOLTS (ZN)
A = ROOT AREA OF BODY BOLTS (XN )2
4
NOTE: NOT APPLICABLE XP BODY ZS WAFER STYLE OR ZF SECTION MODULUS AND
ALLOWABLE MATERIAL STRENGTH OF VALVE EXCEEDS THAT OP ADJACENT
PIPING- PIPING MAT'L ASSUIKD SA106 GR.B S ALLOW= 15t000
NUCLEAR SEISHIC ANALYSIS
VALVF SIZE:
VALVE CLASS
ACTUATOR:
CUSTOiKR:
P.O NOi:
SPECi NO:REFERENCE NO
XTEH NO
~ ee
~
ASS'V mG. NO.
Bi BODY DUG NO
REFERENCE ITS.~ ~
RZV
QEV
C
D
DISC DVrC'O
STEH D5%, .NO
PIN DHG NO
REV
REV.
REV
ALLIABLE STRESSES ~'
~
A BODY
B DISC
C ST&4
D PIN
E BRACKET~ ~ ~ ~ r.
F ~ BOLTING
PSZ
PSI„
PSZ
PSZ
PSZ
PSZ
PRESSURE:
'TENPERATORE:
DESIGN CONDITIONSe
PSZ
oF
'0
PACKING TORQUE:.
SEAL TORQUE:
HYDROSTATIC TORQUE:
TRANSVERSE:
VERTICAL:
LONGITUDINAL:
VALVE TOR UE
G-LOADINGS
'IN-LBS
XN-LBS
I8-LBS
DIMENSIONAL DMA
DESCRIPTION OF VARIABLE
SI&
ACEVPOR
'L&S
'. (XMP~rNA~IE
'RANSVERSEDIST. ACTUATOR C.G..TO Q VALVE~ IGMGZZUDXNALDIST. ACZUATOR C.G. K) < VALVE
VERTICAL DIST,ACZUATOR C.G. TO BRACKEZHEXGHZ BRACKEZEKXC~ V7GVE NECKACZUATOR NEXCEVBRACKET 7'RIGHTDISC NEIGHTTiKXVQKSS OF BRACKE'Z IU~ PLATEHXDTii OF BRACKEZ
, HXDTii OF VALVE IPCKTHXCDKSS OF VALVE NECKTHXC ~MS OF BRRCZCZ SIDE PLATESTiiXC~~S OF BRACKi;Z TOP PL~VALVE NECK O.D.PACKING BORE X.D.
DIA,.KKZ DIA. OP DISC
TH SMKL DXA. BACK OP DISCDIA. OF DISC
T KOSHER THICKNESSD T. Q STEM TO FRChM OF.DISCNO. OF ACTUATOR BOLTS~SILE STRESS AREA, OF ACKJATOR BOLTSDBC OF ACZUATOR BOLTSNQ. OP BRACM."T/VALVEBOLTSTENSILE STRESS AREA 0~RACKET/VALVEBOLTSTRANSVERSE DIST. BEXh~r. BRACKET BOLTSLONGITUDINALDIST. BZZHEEM BRACKET BOLTSLENGTH OF BRACKEZDISTANCE BLIM222l VALVE BODY BOLT HOLESDZA. Or VALVE BODY BQLT HOLES'
TORQUE ON DISC PINDISC PXN DIA.VPZVr BODY O.D.VALVE BODY MZERLRZ DIA.AD ~R'Z PIPING O.D.KG%~i PIPING X.DKQCENUM PXPXNG BEK3ING MCf~NO. OF BODY BOLTSZSC OP BODY BOLTSBQCG.'REA OF BODY BOLTSIZNGZH ACRSSS- GUSSETS
"HYNESS OF GUSSEZSOF PIJÃGE BOSSES
S OF EELICITY
XlX2X3X4X5K.H2
T3T4T9KOd3DiDlD
X6~ N2
A2X7
"X8.
T5R5 .
RG
leapdlR7RSR9M4N3XOA4L.TBE
X3X4X5%74
tipjW3TlT2
'3
T4T9TO '
B5DlDEl
Nl
X6N2A2X7XST5R5R6T7D5DSR7RSR9M4N3XOA4L
-33-
VALV" SiZZ:
VALV" CLASS:
NUCLEAR SEZSMiC ANALYSIS Page 1
ACTUATOB:
CUSTO~:
P.O. HO.:
SPEC. NO.:
REF~~WCE NO.:
ITEM NO.:
PA p- yo2. /77
REFERENCE DWGS.
A. ASS'Y DWG. HO.
B. 30DY DWG. NO.
C. DISC DWG. NO.
D. STEM DWG. HO'.
E. PIN DWG. HO.
F. BRAC~ DWG. NO.
2b- o~~( z.~-sa Iz,g/0- ox(2. C00 dd
Y00b-
REV.
RW. 8RW. 4REV.
A. BODY
3. STEM
C. PIN
D. BBACIKT
E; SOLTIHG /I /3 C~ 8
ALLOWS~~ STRESSES
Co~b
2.4ZFO'SIPSI
$ 0 PSI
]8'o PSI
37S>b 'SI
DESIGN CONDITIONS
PRESSURE:
TEMPERATURE:
PSIoF
VALVE TORQUE
PACKING TORQUE:
SEAL TORQUE:
HYDROSTATIC TORQUE:
IN-LBS
IN-LBS
ZN-LBS
I
TBANS~SE
VrISTICAL:
LONGITUDINAL: 3
G-LOADIHGS
Page 2
DH~SZCNAL DATA
SIZE~ CLclSS /3 0
ACZUAZOR
DESCRIPTION OF VARIABL'E
TRANSVERSE DIST. ACZUATOR C.G. TO Q VALVELONGITUDINALDIST. ACZUWIOR C G. 'ZO 4.VALVEVKG'ICALDIST. ACTUATOR C.G. TO BRACKEZHEIGHT BRACKETHEIST VALVE tKCKACZUATOR WEMiTBRACKEZ WEIGHTDISC QlEIGHTTHICKNESS OF BRACKEZ LCNER PIATEWIDTH OF BRACKEZN33XK OF VALVE NECKTHZ~S OF VALVE~THI~SS OF BRACrKT SIDE PLATESTHICMUSS OF BRACi(EZ TOP PLATEVALVE MXXO.D.PA~G BOW I.D.~ DZA.GAGil DIA. OF DZK".WIDTH SiMLL DZA. BACK OF DISC
7ZH LAitGE'IA. OF DISCUST WAS~ THICiQLESST 4 STER TO FBQbZ OF DISC
NO. OF ZCZUATOR BOLTS~ENSILE STR=SS AREA QF ACTUATOR BOLTSDBC OF ACZUATOR BOLTSNO.'F BKMCET/VALVEBQLTS~ILE STRESS AREA OF BRACKET/VALVEBOLTSTRANSVERSE DIST; BEBKRl BRACiKT BOLTSLONGITUDINAL DIST. B~~ BRACiCEX'OLTS~GZH OF BRACKETDISTANCE BEIWE21 VALVE BODY BQLT HQLESDZA. OF VALVE BODY BOLT HOLESt TORQUE ON DISC PINDISC PIN DIA.VALVE BODY O.D.VALVE BODY WA~GK DIA.AMA~PIPING O.D.AD3ACBV PIPING Z.D.MAXZbKMPIPING BENDING MQiKNZNO. OF BODY BQLTSDBC OF BODY BOLTSRCOZ AREA OF BODY BOLTSLENGZH ACRQSS GUSSETSSICKNESS OF GUSSETS
OF FLAN'OSSES~ ~
S OF ELASTZCZZY
DI
0 000
XlX2X3X4X5WlW2W4
TlT2T3T4T9Tod3DiDl'
ElE2L2Y2NlAlX6N2A2X7XST5R5R6
t3pdlR7RS
R9M4N3XOA4LTBE
XlX2X3X4X5W4rQW3TlT2T3T4T9TODoB5DlDElE2L2Y2NlAlX6N2
X7XST5R5R6T7D5DSR7RS
R9M4N3XO
LT
POS E —SEAL E HTEPHAT E C)HAt r E HC-~nFE H AHAt O'S E M
20 CLASS 150 VALVE ASSEHBLY
CUSTOHER:t<IAGARA HOHAM):~MU~t'30MSPEC. NO.: t<HP2-in304DREFIHO,: 19157~IJJl '
REFERENCE DMCS.IE JIO~LII."M
B.BODY DMG.HO.: 1120"302 RFV.A( C DISC OMG NO '120 3V1 REVr 8
MMIEttJNLJ<Q ~nS Q="'.PIttOMC.ND.:2600:004 REV.A
F BRACI<ET DMC.N0.8000-188 REV.
DES:Ck CONDITIONSPRESSURE(PSIC)r 150
$ CC r
ALLOWABLE STRESSES (PSI>~ ~ lr 1
8 STEH: 54300C PIH: 54300SELEI<LL~E. BOLTINC: 37500
~ i'
'
Zt
;IX1$ 2. 813
I'-; d3$ 0L2$ ~ 477
Xr 65L$ 0
VALVE TOROUE(TN-LBS)Cr
SEAL TOROUE 2948HYDROSTATIC TOROUE$ 6042
C LOAOlt<CS$ $ $
VERTICAL> 4LONGITUOIHAL$ 3
X2$ 6.313~I
DIHEHSIONAL DATAX3$ 3.938 X4$ 6 Xsr 3 W1$ 276
~ OrDi .75Ynr 1 937XZ
01 ~ 1 ~ 997Hl~ 4
0$ 18. 474Alr ~ 462
El ~ 2. 625X6$ 7 ~ 5
E2$ .875H2$ 4
dpr .496T$ 0
dlr 27.5Br 0
R7$ 18. 875 R8$ 20 R9$ 18.814Er 30000000
M2$ 62
t<ATURAL FREOUENCIES <HZ.)LONCITUDINAL<Z) ACT ~ /VALVE$ 111 VS. 33HZ 'I<ERTICALIXJ.TRANSVERSE(X> ACT./VALVEr 210 VS'3HZ.LATERAL DISC/STEH 351 VS.33HZ.
BRACKET BOLT STRESSESSHEAR$ 12893 PSI~RIIICOHBINED$ 32859 PSI VS.ALLOMr 37500
VA V NFCK STR
ACTUATOR BOLT STRESSESSHEAR$ 2658 PSIr n C
Cct<BINEDr 40'99 PSI VS. ALLOW.$ 37500
BRACKET STRESSESSHEAR$ 475 PSI
$ n4 pCOHBINED$ 2549 PSI VS ALI.O(t$ 18900
STEH STRFSS SSHEAR> 938 PS I SHEAR> 6522 PSI(.'/ TENSILE$ 1960 PSI TEHSILE$ 18336 PS I
OHBIN 0$ n04 9 PSI VS.A LOWr 54300
DISC Pit< STRESS SEC ~ Ich NODULUSH AR$ 44 P V~AMr VAI V Nt
PIPIt<G$ 170 37 IHt3A T T R F T N
LOt<GITUOlt'AL$ 2. 13900000E-03 lt(CHESU VERTICAL 2. 50000000E-05 INCHES
TRAgSV~J~i'I7II—
NOT APPLICABLE
SIGNEDe ~ ~ ~ ~
ODY BOLTINC
~ ~ ~ DATED ~ ~ ~ ~
'
~ ~
I ~
VALVZ SIZ
VALVZ CLASS:
ACTUATOR:
GUSTO~~:
P.O. NO.:
SPZC. NO.:
REFZ~CE NO.:
ITEM NO.:
NUCL>~ SEZSIGC ANALYSIS
REr~ENCE DWGS.
A. ASS'Y DWG. NO.
B. BODY DWG. NO.
C. DISC DWG. NO.
D. ST&i DWG. NO.
E. PIN DWG. NO.
F. BRAC~ DWG. NO.
ol
D M(l<C4
040 ~75
REV.
RW.
a~.pm.
A. BODY 5AB. STZ4
C. PIN
D. BRACIZZ
E; BOLTING
ALLOWABLE STRESSES
z a
z.' PSI
00 PSI
SOd'SI48'SI
~d. PSZ
DESI'ONDITIONS
PRESSURE:
TEt PZRATURE:
PSIoF
PACKING TORQUE:
SEAL TORQUE:
HYDROSTATIC TORQUE:
VALVE TORQUE
IN-LBS
IN-LBS
Zl-LBS
(' ~TRANS~USE:
VZZZICAL:
LONGITUDINAL:
G-LOADINGS
Page 2
Dlt~SZONAL DATA
SIZE ~0 CIJISS ~~ACTUAL)R
DESCRIPTION OF VPBZABL'E
TRANSV~E DIST. ACTUATOR C.G. TO tf VALVELQNGZHiDZNALDIST. ACTUATOR C.G. TO 4.VALVE
ICAL DIST. ACZUATOR C.G. TO BRACKETHEIGHT BRACKETiKIGiTVALVE NECi(ACTUATOR WrEZGHT
BRACKET WEIGHTDISC WEZ(ZTTHICKNESS OF BRACKET LCK~ PEATWIDTH Or BKX2CZHZYZB OF VALVE HECKTHICKNESS OF VALVE NECKTHICKNESS Or BRACKEZ'IDE PZATESTHI~S OF BRACKET TOP PZATEVALVE IKCK O.D.PACKING BORE Z.D.STE41 DIA.GAGE DIA. OF DISCWIDTH'%LLDIA. BACK OF DISC
LARGE DIA. OF DISCST IVY~THICK%US
T'. Q ~1 TO FBOK OF DISCNO. OF ACIUATOR BOLTS~SILE ~~S AREA OF ACTEQOR BOLTSDBC OP ACHJATOR BOLTSNO. OF BRACKETjVALVEBOLTSTENSILE STRESS AKA OF BRACKET/VMVE BOLTSTRANCE DIST. BEIWEEN BRACKET BOLTSLGNGZXUDZQZ DIST. BETWr.EN BBACZET BOLTSLENGTH OF BRACKETDISTANCE BEHFBl VALVE BODY BOLT HOIZSDIA. OF VALVE BODY BOLT HOLES'
1QRQUE ON DISC PINDISC PZN DIAVALVE BODY O.D.VALVE BODY WATEEPZ DIA.AD3ACENZ PIPING O.D.ADJACENT PIPING I.D.MAXIMUMPIPING BENDING HCf~NO. OF BODY BQLTSDBC OF BODY BOLTSRG7Z AREA OF BODY BOLTSLKGiiiACROSS GJSSETSTHZCKNESS OF GUSSETS
OP FlANGE BOSSESS OF ~ZCITY
/pO
0 000 dG
XlX2X3X4X5
. WlW2
W4
TlT2T3T4T9Tod3DiDlDElE2L2Y2NlAlX6N2A2X7X8TSR5RG
dpdlR7R8R9M4N3XOA4LTB
XlX2X3X4X5W4'l5W3
TlT2T3T4T9ToDoB5DlDElE2L2Y2NlAlX6N2A2X7X8T5R5R6T7DSDSR7RS
R9M4N3XOA4LT
~ BE
VLI I V
t~ ~
I Q S X—S t= AI X ht T >:- F: ht A1 X D h! A! r X ht (LJ.E LZCt~~EXR
10 CLASS 150 VALVE ASSEt>OLY
( CUSTOHER:NIAGARA NOHAWV,~DBIILI~"'~ZSPEC NO :NHP2-P304DREFlHOi 19157
1
t>
REFEf>EHCF. OWGS.HQ MO157=
B. BODY OWC. HO.: 1010-301 REV. AC.DISC OWG.NO.: 2110-301 REV.A~LSIEtLOW~E ~ PIH DWC.HO.: 2600-046 REVeAF.ORACNET DWC.NO.8000-075 f<EV.B
DESICN CONDITIONSPRESSURE(PSIC)~ 150rc
ALLOI'ABLE STRESSES (f'Sl)~ l l
B.STEH: 54300C. PIN: 54>300
E. BOLTING: 37500
VALVE
TORQUE�
( It("Lf>S >r»iri r. <l
SEAL TONGUE 839HYDROSTATIC TOf<QUEc 966
G LOADINGSC I CIC a
VERTICAL% 4LO>ICITUOIHAL> 3
Xli 2.5 X"~ 6.563I'-NSIOHALDATA
X3c 2. 813 X4~ 6 XS> 4. 25 Wi~ 171 W l~ l5
d3> 2o 25L2~ .337
Ol ~ 1.6 5Y2~ 1.5
DIII 1Hi~ 4
I
Oi 9.85AI~ .1416
EI~ 1. 625X6 4.5
E2~ .813H2~ 4
NATURAL FREOUEIICIES (HZ. >
LONGITUDINAL(Z) ACT./VALVE~ 46 VS. 33HZ.Q!ALVFr
TRAIISVERSE(X> ACT /VALVE~ 67 VS,33LIZLATERAL DISC/STEH~ 997 VS.33HZ.
ACTUATOR BOLT STRESSESSHEAR< 4988 PSI
~r cCONBIt<ED> 9582 f'5 I VSe ALLOW.~ 37500
~ ~ (
t XR 65 dpi'09 dl~ 13.25 R70 10.187 RBN 10.75 fc9i 10m 02L> 2 688 Ti 1 B~ 1 E~ 30000000
I)
BRAC>(ET BOLT STREScESSHEAR~ 5456 PSI~ECOIIOIHED> 14398 PSI VS ALLOWc 37500(i v» a
BRACHET STRESSESSHEAR~ 370 PSIJKIIRIL~QLP"ICOHBIHEOc 2164 PSI VS ALLOWc 18900
QT TRSHEAR< 4180 PSI SHEAR< 6492 PSI
(.w TEHSILEm 13341 PSI TENSILE< 14293 PSII LJ!LLICM'Ci~ P V A Wc 4 0
C' I>'laDISC PIH STRESSV~~nu~
SECTION NODULUSvn i 4 >I+PIPING+ 29e 9 IN%3
BODY BOLTINGACT AT R UF~FF~TIO><SLONGITUDINAL> 1.27050000E-02 INCHE5VERTICAL 1. 68000000E-04 It(CHES
I C~ irt<DT APf'LICABLE
I SICNED.... ~ ~ . DATED
V~VE SIZE:
VALVE CLASS: 300ACTUATOR: %1
CUSTOI~:
NUC<~+8 SEISMIC r"JALYSIS v&$8
P.O. NO.:
SPEC. NO.:
REFEREE CE NO'.:
ZTBf NO.:
Z- 30 2./7
REFERENCE DWGS.
A. ASS'Y DWG. NO.
B. BODY DWG. NO.
C. DISC DWG. NO.
D. STM> DWG. NO.
E. PZN DWG. NO.
F. BRAC~ DWG. NO.
dg- O/z/o2 d2CoO- /
000 -D
// e REV.
REV.
REV.
R:.V. Pi
5
A. BODY
B. STER
C. PIN
D.BRAGI'".
BOLTING
ALLOWABL" STRESSES
-/ 6 C
G 0
- PSI
PSZ
gP PSI
gd 0 psz
yO PSI
DESIGN CONDITIONS
PRESSURE:
TEhPKRTURE:
PSI
VALV" TORQUE
PACKING TORQUE:
SEAL TORQU
HYDROSTATIC TORQUE:
ZN-LBS
IN-LBS
ZN-LBS
G-LOADINGS
TRANSVERSE:
VERTICAL'ONGITUDINAL:
Page 2
. DZb~~'SZONAL DATA
SIZE~ CLASS ~odACIUZEOR 7 Q 5
DESCRIPTION OF VARIABLE
TRANCE DIST. ACTUATOR C.G. TO Q VALVEZQNGZTmZNAX, DIST. ACrUATOR C.C. TO 4.VALVVERTICAL DIST. ACTUATOR C.G. K)
BRACKEI'EIGiT
BRACZETHEZGriT VALVE NECKAClUATOR WEIGHTBRACKET WEIGiiTDISC WEIGHTTHICKNESS OF BRACKET LCK~ PLATEWIDlrI OF
BRACER'IDTH
OF VALVE NECKTHICKNESS OF VALVE NECKTHZC1Q|ESS OF BRA~ SIDE PZATES
- THICKNESS OF BRAQKT TOP PLATEVALVE NECK O.D.PACKING BORE I.D.STE?4 DIA.GAGE DM. OF DISC
SKG'L DZA. BACK OF DISCLARGE DIA. GF DISC
.61ST NASSER THICKNESSDIST. Q ~r TO FRONT OF DISCNO. OF ACTUATOR BOLTSTRISILE STRESS AREA Or ACTUATOR BOLTSDBC OF ACTUATOR BOLTS .
NO. OF BRACKE'.T/KNAVE BQLTSTEMILE STRESS AREA OF BRAC| EZ/VALVr. BOLTSTRANSVERSE DIST. BROKEN BRACKET BOLTSLONGITUDINALDIST. BEZWEEN BRAGGlZ BOLTSIZNGZH OF BPACKETDISTANCE BETWEEN VALVE BODY BQLT HOLESDIA. OF VALVE BODY BOLT HOLES% TORQUE ON DISC PZNDISC PIN DZA.VALVE BODY O.D.VALVr. BODY WATEKRZ DZA.AD3AC2K PIPING O.D.ADJACENT PIPING Z.D.>SXZMUM PIPING BKZ)ZNG MO?KNZNO. OF BODY BQLTSDBC OF BODY BOLTSROOT AREA OF BODY BOLTSLMGZH ACROSS GUSSETS~SICKNESS OF GUSSETS
.. OF FLANGE BOSSES~ ~
~S OF EL~ZCZTY
7l
6 ooodo
XlX2X3X4X5wlw2W4
TlT2T3T4T9TOd3DiDlDElE2L2Y2NlAlX6N2A2X7X8T5R5R6
QpdlR7R8R9M4N3XOA4LTBE
XlX2X3X4X5w4'l5w3Tl'r2T3T4T9TODoB5DlDElE2L2Y2NlAlX6N2A2
~ X7X8T5R5R6
D5D8R7R8R9
N3XOA4LT
E
Page 3
TAG NUMBER LEST
CUSTOMER:
REFERENCE:
Il/I«ghwq gy(lit~ 7
ITEM:
TAG NOS.: %5 t=CQ Ql/ I'7 P
Hv)7P
IO
~5F'C~ p V lf A
gV JK5z~f=c ~au')'t A
Hv (9B>sl (~ HV37k
HVSV8
C
C:
CUSTOHER:tflAGARA HOHAMr,~e2di(t IIO.P~P~4f SPEC. NO.: t(HP2-P3040
( REF i NO 1 157fI
PCJS X —SEAL X HTEF:HATX OHAL X HCHi (;J t- AFr c>t= c ri AHALYS3 88 CLASS 300 VALVE ASSEHDLY0 hE
IC
C
I RFFEREtfCE DMGS.A~A<LcCMf~~N~I c7 9~4 % 88 BODY DMG NQ: 1108 401 REV 8C DISC DMG. KO: 2108 bi01 REV. A~ S.IZtLRMGHliR '~S2.E ~ PIN OWG. t(0. f 2600-021 REV. A
( F DRAGNET DWG NO ~ 8000-075 ktV.O
ALLOWABLE STRESSES (PSI)A c Y:8 STEH: 54300C.PIN: 54300
E BOLTING: 37500
(I
DESIGtt CONDITIONSPRESSURE(PSIG) ~ 300'z cc ~y
C VALVE TORQUE(IN-LOS)ni r
SEAl TOROUFH 450HYDF?OSTATIC TO(cQUE 1498
G (.OADINGSccr
VERTICAL% 4LONGITUDINA(.% 3
X1% 2.5$ %
X2% 6.563H 7
OIHENSIONA(. DATAX3% 2.813 X4 XSH 3.938 MIH 171 M2% 25
d3% 3L2% ~ 4b<%
01% 1.758Y2% 1.375
D1% 1.25NIH 4
DH 7.218A1% .1416
E1% 1. 688X6% 4.5
e
E2% ~ 625N2% 4
XH 65 dPH .373 dl% 12.125 . R7% 7.687 RBH 8.625 R9% 7.625i LH 0 TH 0 OH 1 EH 30000000'f HATURAL FREOUEt(CIES (HZ ~ )I ( LONGITUDINAL(Z) ACT ~ /VALVE% 73 VS. 33HZ.~QJCA~G~~ % cl 'z
TRANSVERSE(X) ACT /VALVE% 79 VS.33fczLATERA?. DISC/STEHH 1816 VS ~ 33HZ.
DRAGNET DOLT STRESSESSHEAR% 5611 PSI
COHOItiFDH 14502 PSI VS.ALI.OMH 37500
Vh V tf r T
ACTUATOR DOLT STRESSESSHEAR> 5143 PSI
Ct 4C'OHOIt(EDH9709 PSI VS.ALLOW.H 37500
ORACHET STRESSESSHEAR% 375 PSI
LcIILEH ~~%COt(OINEDH 2205 PSI VS Ai LOW% 18900
T H TRSHEAR% 1614 PS I SHEAR% 6558 PSI0 TENSILE% 631S PSI TENSILE% 16386 PSI
C a c
DISC PIN STRESSC II
ACTUATOR Ft F T ifSLONGITUDINAL% 5. 10900000E-03 INCHESVERTICAL 1 ~ 45000000E-04 It(CHES
SECT IOH NODULUS'iPIPING% 24 ~ 51 IN%3
BODY 8 LTING
I
At'7
I CCH
SIGNED+ e . - .-. X OATEDo ~ ~ ~ i X7o ~ ~
NUCL+~R SEISt~iIC ANALYSIS
VA7V" SIZZ:
VALV" C~~S:
ACTUATOR:
C USTA~:
P.O. NO.:
SPEC. NO.:
RECCE NO.:
ITIC NO.:
RE~ENCE DWGS.
A. ASS'Y DWG. NO. /B. BODY DWG. NO. //0 ( PdlC. DISC DWG. NO. 2.10 'f 'QlD. STZI DWG. NO. x 0 WOE. PZN DWG. NO. Z.COd-
F. BRAC~ DWG. NO. Md
REV.
PZV.
R" V.
A. BODY
3. STOIC
C. PIN
D. BRACKET
E: BOLTING
ALLOWABLE STRESSES
aM ~ PSI
00 'SI0d 'SZ
J dd'SZ3 00 PSI
DESIGN CONDITIONS
PRESSURE:
TEhPKKTURE:
PSZ
PACKING TORQUE:
SEAL TORQUE:
HYDROSTATIC TORQUE:
VALVE TORQUE
IN-LBS
IN-LBS
IN-LBS
G-LOADIHGS
TRANS~SE:
VERTICAL:
LONGITUDINAL:
Page 2
D~SZCBAL DATA
SIZE~ (ZJ!SS
ACIURIOR 0-AS
DESCRIPTION OF VARIABLE
TRANSVERSE DIST. ~KKTOR C.G. TO Q VALVELQNGITUDINALDIST. ACCEPTOR C.G. TO +VALVE~ICAL DIST. ACZUATOR C.G. TO BRACKEZHEIGH BRACKETHEIGH VALVE NP(CK
A UXOR WEZCWBRACDKT WEIGHTDISC WEIGHTTHZCrQKSS OP BRACKET DNER PLATEWIDTH OF BRAQKTWIDTH OF VALVE NP(CK
THICKNESS OP VALVE NECKTHICKNESS OF BRACKET SIDE PLATZBTHI~~S OP BRAGKT TOP PLATEVALVE NECK O.D.PACKING BORE Z.D.ST%4 DIA.CACK DZA. OF DISC
PGZL DIA. BACK OF DISCLARGE DZA. OP DISC
.UST WASP~ THINNESS~MT. Q ~rc. TO PKhVZ OF DZSCNO. Or ABATOR BOLTSTENSILE STRESS AREA OF ACTUATOR BOLTSDBC OP ACHJATOR BOLTSNO. OF BKK2KT/VALVEBOLTS
'SILE STRESS M%A OF BRAQCElT/VALVE BOLTSTRANSVERSE DIST. BEZWEEN BRACKEZ BOLTSLCIHGZ1UDZNAL DIST. BETWE l BRAQKZ BOLTS~GZH OF BRACKEZDISTANCE BEZt~ VALVE BODY BOLT HOLESDZA. OF VALVE BODY BOLT HOLES% TORQUE ON DISC PZNDISC PIN DIA.VALVE BODY O.D.VALVE BODY KQ1W%G'. DZA.ADJACENT PIPING O.D.ADJACENZ PIPING I.DlRXZKiilPIPING BKZ)ING NQKNZNO. OF BODY BOLTSDBC OP BODY BOLTSRCOZ AREA OP BODY BOLTSLENGZH ACROSS GUSSETSTHICKNESS OF GUSSEZS
OF FLANGE BOSSESULUS OF ELASTICITY
2,$
4 C
XlX2X3X4X5WlW2
W4
TlT2T3T4T9m63DiDlDElE2L2Y2NlAlX6N2A2X7X8T5R5R6
Qpd1R7R8R9M4N3XO
A4LTB
XlX2X3X4X5W4'(5
W3
Tl'r2T3T4T9TODoB5DlDElE2L2Y2Nl
X6N2A2X7X8T5R5R6TjD5D8R7R8R9M4N3XOA4LT
~ B
Page 3
CUSTOMER:
TAG NUMBER LEST
REFERENCE:
ITEM:
TAG NOS.:Z. 5 P'C % Ple l I 7-
H u Ild80'<I
'
, ~
?
PC)$ X —SLAt X Nl ERN<-% I' C)NAL i, X NCNIJ( t" Ate. ~»f= ~ c H X C: ANAL.YS ISCLASS 150 VALVE ASSEIIBLY
CUSTOHFR:klACARA NOHAMI(ZdLHKdttl~»P- 2?~»J2
. SPEC.HO.:NHP "P3040REF% N0% 19157~IEILNQ
'EFERFNCE DOCS.e Q
I'
Be BODY DUfe. HO.: 1104-301 REV. AC. DISC DMC. HO.: 2104-401 RFV. A'IIL''~E. P IH DMG. NO.: 2600-008 REV. AF.BRACI(ET DMC.NU.8000-074 REV.A
DESIGN CONDITIONSPRESSURE(PSIG)% 250
ALLOMABI.E STRESSES (PSI )< QX'M"
B. STEH: 54300 ~
C. PIN: 54300CP
E.BOLTIHG: 37500
VALVE TORQUE(IH"LBS)IC» '%PO
SEAL TORQUE 131HYDROSTATIC TOROUE 1 5
C LOADIHGSP . <'.i ARP s
VERTICAL% 4LONCITUDIHALr 3
DIMENSIONAL DATAXls 2.5 X2% S. 563 X3% 2.813 X4% 6»r i
X5% 2.875 Mls 130p»
M2% 20
d3% 0L2%, 101
Oir ~ 938Y i~
Dls .56Nls 4
Ds 3 '96Al~ . 1416
Elr .72X6% 4. 5r
E2% .5N2% 4
R8% 4 5 R9% 4.026
I t NATURAL, FREOUEHCIES (HZ ~ )LONGITUDINAL(Z) ACT /VALVEs 54 VS ~ 33HZe~ELTZ
ACTUATOR BOLT STRESSFSSHEARs 2714 PSI
s
Xs 90 de .246 dlr 6. 187 R7% 4 ~ 063i ~ Ls 0 Ts 0 Bs E% 30000000e
TRANSVERSE(X) ACT./VALVE% 71 VS.33HZ.LATERAI DISC/STEH 3 71 VS 33HZ ~
BiRACYET BOLT STRESSESSHEAR% 3620 PSI~II%<<% U <%SLBSI-COHBIHEDs 12349 PSI VS ALLO(ts 375000
VA 0% N 'T
CONBItlEDs 6076 PSI VS ~ ALLOMes 37500
BRACYET STRESSESSHEAR 263 PSI~g pCOIIBINED% 1484 PSI VS.ALLOMs 18900
THTRSSHEAR% 3335 PSI SHEARs 17226 PSI
C~ TENSILE 10502 PSI TENSILE% 13880 PS Ir l r I ~ s 4
DISC PIH STRESSr >4.SECTION IIODULUS
s ~ p+PIPING% 3.21 !N93
l
RC7Q
A~A+~I~F T H
LONGITUDINAL 9. 05300000E-03 INCHESVERTICAL% 5. 90000000E-05 INCHES
'itNOT APPLICABLE
SIGHED....
ODY BOLTINC
OATEDe J. ~ .gT< ~ ~ ~
VALVZ SIZE
VALVZ CLASS:
ACTUAtOR:
CUST01KR:
P.O. NO.:
SPZC. NO.:
RmEKNCE NO.:
ITB4 NO.:
I-0
NUCLEAR SEISMIC ANALYSIS
gzl 77
l~ 7
Pege 1
RZr~" iCZ DWGS.
A. ASS 'Y DWG. NO.
B. BODY DWG. NO.
C. DISC DWG. NO.
7-zRZV.
REV.
D. STZ4 DWG. NO. 2E. PIN DWG. NO. L400- OC4
r. BRACiKT DWG. NO.
RZV.
Rm.
ALLOWABL. STRZSSES
A. BODY
ST+'f
D.
BRACKET
E. BOLTING
5 /C(on
D
(pi
2 P PSI
300 PSI
PSI
8'7 PSI
37 0'SI
DESIGN CONDITIONS
PRESSURE:
TEMPERATURE:
PSIoP
PACKING TORQU~:
SEAL TORQUE:
HYDROSTATIC TORQUE:
VALVE TORQUE
IN-LBS
IN-LBS
IN-LBS
G-LOADI?/GS
TRANSVERSE:
VERTICAL:
LONGITUDINAL:
Page 2
DD~ISZONAL DATA
SIZE ~~ CLASS g~
D~~RIPZZON OF VARIABLE
TRANSVERSE DIST. ACZUATOR C.G. TO Q VALVELONGZHiDINALDIST. ACTUATOR C.G. TO +VALVEVERTICAL DIST. ACZUATOR C.G. TO BRACKETHEIGHT BRACKEZHEIGH VALVE NECKACTUATOR WEIGHTBRACKET tZIZZDISC WEIGHTTHICKNESS OF BBACI~ ZOWER PLATEWIDTH OF BRACPZTWIDTH OF VALVE IKCKTHICKNESS OF VALVE NECKTHICKNESS OF BBACXEZ SIDE PLATESTHICKNiSS OF BRACKET TOP PLATEVALVE NECK O.D.PACKING BORE Z.D.~ DIA,.~ DZA. OF DISCWIDTH SMALL DIA. BACK OF DISC
"ZH LARGE 'DIA. OF 'DISCUST WASHER THIC2QGHST. g STE4 TO FBDVZ OF DISC
NO. OF ACTUATOR BOLTSTENSILE STRESS AREA OF ACZUATOR BOLTSDBC OF ACZUATOR BOLTSNO. OF BRACKET/VALVEBOLTSTENSILE STRESS AREA OF BRACKET/VALVEBOLTSTRANSVERSE DIST. BETt~ BRACKEZ BOLTSLQNGZTUDZNAL DIST BEIWZ~ BBACKEZ BOLTS~GZH OF BRACKETDISTANCE BETWEEN VALVE BODY BQLT HOLESDIA. OF VALVE BODY BOLT HOLES% TORQUE ON DISC PZNDISC PIN DIA.VALVE BODY O.D.VALVE BODY WATEKPZ DIAAEUACENZ PIPING O.DAD3ACENZ PIPING I.D.MAXIMUMPIPING BENDING MQt~NO. OF BODY BOLTSDBC OF BODY BOLTSROOT AREA OF BODY BOLTSLENGZH ACROSS GUSSEZSSICKNESS OF GUSSEZS
OF FLANGE BOSSESS OF EE~ICZZY
XlX2X3X4X5WlW2W4TlT2T3T4T9ToQ3DiDlDElE2L2Y2NlAlX6N2A2X7X8T5R5R6
(3pdlR7RSR9M4N3XOA4LTBE
XlX2'v3
X4X5W4tg5
W3
TlT2T3T4T9TODoB5DlD
'l
'2L2Y2Nl
X6N2A2X7XST5R5R6T7D5DSR7RSR9M4N3XOA4LTBE
vv s r '
POSI —SEAL IHTERHATIOHALe IHC~c. 'r
14 CLASS 150 VALVE ASSEMDLYI C;
CUSTOMER:NIACnkA MOPAWt:~S SSJ~SPECANO.:NtfP -P3040REF ~ NOE 19157
I
REFERENCE OWCS.~KL'XO!Of ~ DOOY DWC.NO.: 1114-302 REV.AC ~ DISC OWC.ttO:2114 301 RFV 9~ISLSIIS IISE.PIN DWC.NQ.: 600-060 REV.AF ~ DRAOHET DWC.k0.8000-075 REV.D
DESIGN CONDITIONSPRESSURE(PSIG) ~ 150
ALLOWADLE STRESSES (PSI)<rh
9 ~ STEM: 54300C ~ PIN: 54300
~ ~ 0E ~ DOLTi t(C: 37500
VALVE TORQUE(IN-LDS)
SEAL TORQUE% 1454HYDROSTATIC TORQUE 2049
G LOADINCSre%ca
VERTICAL% 4LOHCITUDIHAL% 3
X1$ 2.5 X2$ 6.563DIMENSIONAL DAT*X3$ 2.813 X4$ 6
'le r X5$ 1 '75s
41% 1710$
4 ls l5s SC
d3% 0L2$ ~ 316
It X 65j) Ls 0
Oi ~ 2.1 5Y ~ 1 604
dP% ~ 498Ts 0
0'.375Nls 4
dls 219$ 0
Os 12.974A1$ ~ 1416
E1% 1.906X6% 4 '
s
E2% . 813N2$ 4
R7% 13.312 R8$ 14 R9$ 13.126Es 30000000
NATURAL FREOUENCiES (HZ )LOHGITUDIHAL(Z) ACT./VALVEs 110 VS. 33HZ.
sTRANSVERSE(X) ACT./VALVEs 164 VS.33HZ
'ATEkALDISC/STEM 591 VS. 33HZ.
DRACMET DOLT STRESSESSHEAR% 6506 PSI~SILE-ASSIS
ACTUATOR DOLT STRESSESSHEAR~ 6556 PSI
r 0 rCOND INFDs 10921 PS I VS. ALLOW.~ 37500
DRACHET STRESSESSHEARs 425 PSI
s < 0E'OMDIHEDs17793 PSI VS ~ ALLOWs 37500 COMOINEDs 2569 PSI VS'LLOW% 18900
V F P T TR I?F0SHFAR% 605 PSI SHEAR% 8492 PSITEHSILEs 1408 PSI TENSILE% 18743 PSIr ~ s I I
DISC PIN STRESSf s 'lS
s s
SECTION MODULUS
T F T N
PIPING% 61.22 It<%3
Y 9 TINCLOt(GITUDIt(AL . 6400000E-03 INCHES
( l VEkTICAL% 8.70000000E-05 It(CHESs -n fr
NOT APPLICADLE
SIGNED ~ ~ ~ ~ ~ ~ ~ r ~ .SAT.:D.... P.
~~ >
VALVE SiZE:
VALV" CLASS:
ACTUATOR:
GUSTO~:
P.O. NO.:
SPEC. NO.:
REr ERENCE NO.:
ITEM NO.:
NUCLEAR SEISMIC ANALYSIS
2- 3D
RE~ENCE DWGS.
B. BODY DWG. NO.
C. DISC DWG. NO.
/2-- oZi z- ot
D. STEM DWG. NO. 'K5
E. PZN DWG. HO.
A. ASS 'Y DWG. NO. -7- REV.
REV.
REV.
R:"V.
F. BRACJGT DWG. HO. 00- RW
ALLOWABLE STRESSES
A. BODY
B. STZ4
C. PZN
D. BRAC~E; BOLTING 'l3G~
CF
Qa~0 nv
PSZ
S 30 0 PSZ
5 g0 - PSZ
8. ad .PSZ
Od - PSZ
DESIGN CONDITIONS
PRESSURE:
TZK'ERATURE:
PSZ
PACKING TORQUE:
SEAL TORQUE:
HYDROSTATIC TORQUE:
VALVE TORQUE
ZT-LBS
ZN-LBS
ZN-Li3S
G-LOADZNGS
TRANS~SE:
VFZZICAL:
LONGITUDINAL:
Page 2
DIMENSION DATA
sxzz ~ ches
ACTUATOR
D~MCRIPTIQN OF V2QKABLE
TRANSUDATE DIST. ACTUATOR C.G. TO Q VALVEIQNGZTUDINALDIST. ACZUATQR C.G. TO +VALVEVERTICAL DIST. ACZUATOR C.G. TO BRACKETHEIST BRACKEZHEIGriT VALVE NETACTUATOR WEIGHSBRACKET WEIGHTDISC WEIGHTTrII~~S OF BRAC%' EQWER PLAT"WEEDS OF
BRAG%I'IDZH
OF VALVE lZCKTHZ~rSS OF VALVE NFLTHICK'SS OP BPAQKX'IDE PLATESTHICLQZSS OF BRAQKT TOP PLATEVALVE NECK O.D.PACKING BORE Z.D.STER DIA.~ DIA,. OF DISCMiYZH R9EZ DIA. ~ OF DISC
'TH L~ DIA. OF DISCJST WAS~ THXCiQlESST. Q KD TO PKBZ OP DISC
NO. OF ACTUATOR BOLTS~SZr~ STR" SS AREA OF ACZUATOR BOLTSDBC OF ACZUATOR BOLTSM3. OP BRA~;Z/VALVEBQLTSTEh'SIZZ STRESS ~~ OF BRACKElZ/VALVEBOLTSTRANSV~E DIST. BEX&~ BRACKET BOLTSIGNGITUDZNALDIST. B~~r BRACKET BOLTSIZNGZH OF BRACfKTDISTANCE BEZh~ VALVE BODY BQLT HOLESDIA. OF VALVE BODY BOLT HQIZSt TORQUE ON DISC PINDISC PIN DIA.VALVE BODY O.D.VALVE BODY W~rGQ'. DZA-AD3ACENZ PIPING O.D~CENZ PIPING Z.D.MXZtKM PIPING BENDING MQZNZNO. OF BODY BOLTSDBC OF BODY BOLTSRDOZ AREA OF BODY BOLTSLENGTH ACROSS GUSSETSSICKNESS OF GUSSETS
~ OF FLANGE BOSSESS OF ELASTICITY
g C2.
2,
al
l|'l
X2X3X4X5WlW2W4
TlT2T3T4T9ToQ3DiDlDElE2L2Y2NlAlX6N2A2X7XST5R5R6
dpdlR7R8P9N4N3XO
A4LTB
XlX2
X4X5W4
W3
Tlj2T3T4T9
'TODo
, B5DlDElE2L2Y2NlAlX6N2A2X7X8T5R5R6TjD5DSR7RS
R9M4N3XOA4LT
~ B
4~
~ CUSTOHER:HlhGARA HOHP)MV(P.O.HO.HHP" -PSIR LOPI".IP
PEC.HO.:III!P--PEO4OREF)HO,: 19157
T N '4
P 0 S X —S E A t X t<( TE P (Ht AT X IC) 19 < f 3: tH( CI<.II-I I=AT~A 'SIRE< AI<AI YSIA12 CLASS 150 VALVE ASSEt(OLYW TH N ~~cg '<4T
'I REFERENCE DMCS.4 'SS'Y DWCi.t)0.:<-9)S7 4 RFV.8 BODY OWC NO.: 111 -301 REV.AC.DISC OMG.NO.l2112-301 REV.A~EH~RE EII ')<<E< E< R o 4E PIH DMG NO. l 2600 060 REV.AF.BRAC)(ET DMG.N0.8000-075 Rc.V.B
DESIGN CONDITIONSPRESSURE(PSIG) ~ 150
< P P e
ALLOWABLE STRESSES (PSI)A.BODY: 25650BHSTEM: 54300C. P IH: 54300
.~<RA ( I'0E. 8<OLl'ING: 37500
<~ VALVE TORQUE(IN"LOS)
< e C
SEAL TORQUE> 1183HYDROSTATIC TORQUES 1515
G LOADI))GSICC'C r
VERTICALS 4LONGITUDIHALS 3
71S 2 ~ 5I
X2s 6.563DINEHSIONAL DATAX3e 2.813. X4s 6
CXSS 2.665 Mle 171
4)M2S 25
d3s 2.875L2e .305
Oi ~ 1.755Y2e 1.557
Ole 1.247Nle 4
Oe 11.703Ale ~ 1416
Ele 1.625X6e 4 '4 e
E2e .938H2e 4
Xe 65 dpe .309 dlr 15 R7e 12.062 RBS 12.75Le 0 Te 0 Oe 1 Ee 30000000R9e 11.938
4
II ~
NATURAL FREQUENC1ES'(HZ.)LONGITL'DINAL(Z) ACT ~ /VALVES 78 VS. 33HZ.
ccrc '<sTRANSVERSE(X) ACT /VALVES 86 VS ~ 33HZ ~
L4TERAL DISC/STEHS 887 VS ~ 33HZ.
ORACVET BOLT STRESSESSHEAR 6338 PSI
e A33COHBINEDS 15008 PSI VS.ALLOWS 37500
ACTUATOR BOLT STRESSESSHEARS 5871 PSI
Co
COHBIt(EDS 10324 PSI 'VS 4LLOW. e 37500
BRACVET STRESSESSHEARS 401 PSI
EI)C,' 47 7 C
CO))OIt(EDS 2393 ISI VS ~ ALLOMs 18900
SHEARS 2095 PSI( 'ENSILEs 6462 PSI
SHEARS 9071 Pc!TENSILES 19148 PSI
C e <e 4
I~ ~
DISC PIH STRESS7 47 P s '<CA
ACTUATOR OEFLECTIONSLONGITUDINAL 4 '?300000E-03 It(CHESVERTICALS 1.40000000E-04 INCHES~TRII II 4 - H H
SECTION NODULUSe ~)<)7
PIPINGS 47.09:N63BODY BOLTINC
NOT APPLICABLE
SIGNEDP ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ D4TED ~ ~ ~
CRTE
NUCL~R S"ZSMIC ANALYSIS
VALV" SZZ":
C~T
ACTUATOR:
GUSTO)~:
P.O. NO.:
SPEC. NO.:
RECCE NO'.:
ITEM NO
BEFWENCE DWGS.
A. ASS'Y DWG. NO.
3. BODY. DWG. NO.
C. DISC DWG. NO.
D. STEM DWG. NO.
E. PZN DWG. NO.
F. BRAC~ DWG. NO.
z W-5o(D 5
z Cdd DCO
DO- 67$
REV. ff
(t A. BODY 0/6 ~ 0B. STEM ~~C q
ALLOWASL" STRESSES
2CZ> ~. PSI
OO 'siC. PIN C 0D. BRAC~E-. BOLTING
PSI
dd ~ PSZ
)dP'SZ
PRESSURE:
TEMPERATURE
DESiGN CONDITIONS
PSIoF
VALVE TORQUE
PACKING TORQUE:
SBK TORQUE:
HYDROSTATIC TORQUE:
I ssIN-LBS
ZN-LBS
ZN-LBS
f.TRANS~SE:VMZCAL:
LONGITUDINAL:
G-LOADZNGS
Page 2
SIZE ~l ~S ~ztDIhKNSZQNAL DATA ACIUAZOR 72.I C -5' A3+
DESCRIPTION OF VARIABLE
TRANSVERSE DIST. ACZQKTOR C.G. TO tf. VALVELCNGITUDQQL DIST. ACZUATOR C.G. TO 4.VALVEVERTICAL DIST. ACZUATOR C.G. TO BBACKEZHEIGHT'BACKEZH" IGrK'ALVENECKACZUATOR WEZ~BBAGZi WEZGnZDISC WEIChZTHICKNESS OF BRACKET INNER PLATEWIDTH OF BBACKEZWIDTH OP VALVE NECKTHZCiCNrSS OF VALVE NECKTHICKNESS OF BRACKET SIDE PLATESTHICKNESS OP BRACKET TOP PLATE
. VALVE NECK O.D.PACKING BOW I.D.STEM DIA.GAGE DIA. OF DIM
.N1DZH Z%LL DZA. BACK OF DISC
~
~
TH IAf~ DZA. OP DISC'T WAS~ THICKNESS. Q STEM TO FBONT OF DISC
NO.. OF ACTUATOR BOLTSSILE STRESS AREA OF ACIUATOR BOLTS
DBC OF ACZUATOR BOLTSNO. OP BBMZKT/VALVEBOLTSTENSILE STRESS APEA OF BRACKET/VALVEBOLTSTRANSVERSE DIST. BETWEEN BBMXET BOLTSZONGZZUDZQJ DIST B~~ BBKZEZ BQLTS
GZH OF BPACKETDISTANCE BEZW~~ VALVE BODY BQLT HOLESDIA. OF VALVE BODY BOLT HOZZSt. K)RQUE ON DISC PZNDISC PIN DZA.VMV BODY O.D.VALVE BODY KQEBtGK DZA.~CENZ PIPING O.D.AD3ACENZ PIPING I.D.MXEKMPIPING ~ZNG MX~NO. OF BODY BQLTSDBC OP BODY BOLTSBDCtZ AREA OP BODY BOLTSLENGZH ACBOSS GUSSETS~CKNESS OP GUSSZZS
OF FLANGE BOSSESS OF ELASTICITY
4cSAMs
d OO0
XlX2X3X4X5WlW2
W4
TlT2T3T4T9TO13DiDlDElE2L2Y2NlAlX6N2A2X7X8T5R5R6
ck)dlR7RS
B9M4N3XOA4LTBE
XlX2X3X4X5W4TiT5
W3
TlT2T3T4T9TODoBSDlDElE2L2Y2NlAlX6N2A2X7X8T5B5R6T7D5DSR7R8B9M4N3XOA4LTBE
~9V I V
POS X —SEAL INTEPHA t 3." OhtAt y X NC-
12 CLASS 150 VALVE ASSEMBLY
\ CUSTONFR:HlACARA NOt(AMK~~99" "»99SPEC NO :NNP2-P304DREFT NOl 19157
C
REFERENCE DMCS.~ o c r
8 ~ BODY DMC.HO.: 1112-302 REV.AC.DISC DMC.NO.: 11 -301 REV.A
~ZEKSN~f PIN DMG NO. :2600-060 REV,AF ~ BRACHET DMG.N0.8000-075 REV.B
DESICN CONDITIOttSPRESSURE(PSIG)r 150
XB(QQEQ ~a»
ALLOWABLE STRESSES (PSI)~llC
B.STEH: 54300C PIN: 54300Ct~E.BOLTING: 37500
(i ~t f.
VALVE TORQUE(IN-LBS)I 99 99
SEAL. TORQUE» 1183HYDROSTATIC TOROUE 1515
C LOADIHCST lC
VERT ICAL»LONCITUDINAL» 3
Xi~ 2. 5 X2» 6. 563DINEHSIONAL DATAX3» 2.813 X4» 6 XS» 2.665
a < 0'7Mlr 171
» 9:
WOr 25C a lnil
d3» 0L2» .305
!Xa 65La 0
0 I ~ I.755Y2» 1.557
dpr .309Ta 0
Dir 1.247Nlr 4
dlr 16Br 0
0» ll 703Ala ~ 1416
R7» 12,062Ea 30000000
El ~ 1.625Xb» 4 ~ 5
E2» .938H2» 4r
RB» 12.75 R9» 11.938
HATURAL FREOUEHCIES (HZ ~ )LONGITUDINAL(Z) ACT./VALVE» 101 VS ~ 33HZ ~
»TRANSVERSE(X) ACT./VALVE 155 VS 33HZLATERAL DISC/STEH» 887 VS.33HZ
ACTUATOR BOLT STRESSESSHEAR» 5871 PSI
CONBIHED» 10324 PSI VS.ALLOW:~ 37500
BRACKET BOLT STRESSES DRAGNET STRESSES(; SHEAR» 5928 PSI SHEAR» 401 PSIr C» 'l '1 C
COttBIN Da 17430 PSI VS ALLOM» 37500 CONBINED» 2393 PSI VS.A'OM~ 189009 T
SHEAR» 966 PSI SHEAR» 9071 PSI0 TENSILE 2063 PSI TENSILE» 19148 PSIr nr On 4 Mr 4 00
0 DISC PIH STRESS SECTION NODULUSt nor Vite
PIPIHC» 47 09 It(%3
4 TUAT 0 F T HLDNCITUDINAL» 2 67500000E-03 INCHFSVERTICAL 9. 10000000E"05 INCHES
SIGNED.
NOT APPLICABLEBODY BOLTIHC
. ~ ..DATEDe. ~ ~ ./ .
NUCL~~ SEISYIC ANALYSIS Pege 1
VALVE SiZZ:
VALV" CLASS:
ACTUATOR:
CUSTOM%:
P.O. NO.:
SPEC. NO.:
REFERENCE NO.:
ITEM NO.:
A. ASS'Y DWG. NO. / lREFERENCE DWGS.
3. BODY DWG. NO. / 0 4 IC. DISC DWG. NO. 2. 0- 0 /D. STE4 DWG. NO.
E. PIN DWG. NO.
F. BRACKET DWG. NO.
REV.
RM. 4azv. A.
ALLOWABLE SWZSSES
A. BODY
3. STZ4
C. PIN
D. 3RACiKT
E; BOLTING
r cF Pt
r SO 07
PSI
oO 'SId 5 ~ PSI
d0 ~ PSI
8B 'SI
DESI'ONDITIONS
PRESSURE:
TElG'%%TUBE:
PSIoF
VALVE TORQUE
PACKING TORQUE:
SEAL TORQU":
HYDROSTATiC TORQUE:
IN-LBS
IN-LBS
IN-LBS
G-LOADINGS
TRANSVERSE:
VERTICAL:
LONGITUDINAL:
1
Page 2
SIZE~ CLASS ~ODL~~SZCNAL DATA ACTUA'IOR C-S D-
DESCRIPTION OF VARIABLECOHP~
NASL
TRANSVERSE DIST. ACZUATOR C.G. TO Q VALVELONGITUDZVZ DIST. ACTUATOR C.G. TO +VALVEVERTICAL DIST. ACZUATOR C.G. TO BRACKETHEZCHZ BRACKEZHEIGH'ALVE NECKACTiJATOP. Wr IGHTBRACDKT WEZGHZDISC Wr.ZGRZTHIQQKSS OF BRACKET IlXvER PLATEWIDTH OP BK~WIDTH OF VALVE NECKTiIZ~~iSS OP VALVE NECKTHICKNESS OF BRACZKT SIDE PLATES
~ THICKNESS OP BRAC%(ET TOP PLATEVALVE NECK O.D.PACKING BORE I.D.STZ4 DIA.GAGE DIA. OF DISC
SMALL DIA. BACK OF DISCZARGE DIA. OF DISC
AUST WASHER THZ~SSDIST. Q ~r TO FRONT OF DISCNO. OF ACZUATOR BOLTS
S2LE STRESS AIBA OF ACTUATOR BOLTSDBC OP ACZUATOR BOLTS-NO. OF BRACKE."Z/VALVEBQLTSTENSILE STRESS AREA OF BRACKET/VALVEBOLTSTRANSVERSE DIST. BEZEL~ BRACKEZ BOLTSLONGITUDINALDIST. B~~ BRACKEZ BOLTSLENGZH OP BRACKETDISTANCE BED~r VALVE BCDY BOLT HOLESDIA. OP VALVE BODY BOLT HOLESt TORQUE ON DISC PINDISC PZN DIA.VALVE BODY O.D.VALV" BODY WAZKE5K DIA.AD3ACENZ PIPING O.D.ADJACENZ PIPING I.D.MAXIMUMPIPING BENDING
N2KMX'O.
OF BODY BQLTSDBC OF BODY BOLTSROOD AREA OF BCOY BOLTSLENGZH ACROSS GUS~THICKNESS OF GUSSr~
. OF FLANM BOSSESS OF ELASTICITY
z,X-
~ 7
r 7
XlX2X3X4X5WlW2W4
TlT2T3T4T9'IOd3DiDlDEl,E2L2Y2NlAlX6N2A2X7X8T5RSR6
dDcG.
R7R8R9M4N3XOA4LTBE
XlX2X3X4X5W4'5W3
Tlr2T3T4T9TODoB5DlDElE2L2Y2NlAlX6N2A2X7X8T5R5R6T7D5D8R7R8R9M4N3XOA4
T~ B
1
( CUSTONER:NIAGARA t(OHAMV.~~O ~»~~i-P ~4
. SPEC. NO.: HNP2-P304O( REF, HO,: 19157
POSX SE AL X htTt F)HATX QHALv X AC=AF. ~t= Sht 3 C AHA( YS X S
10 CLASS 150 VALVE ASSENGLYi A R
( REFFRENCE DWGS ~
4 A +'Y M N ' 7- tl n R V8 BODY OWG NO.: 1110-301 RFV AC. DISC DMG. HO.: 2110-301 REV. A
~QLP~GQtQ '~E. PIN DWC. HO.: 2600-046 RF V. A
( t F.GRACHET DMG.HO. 8000-075 REV.G
DESIGN CONDITIONSf'RESSURE(PSIC)r 150
ALLOI)ABLE STRESSES (PSI)A Y'
STEH: 54300C. PIN: 54300
E ~ GOLTINC: 37500
VALVE TORQUE(Itt-LGS)»n
SEAL TORQUE% 839HYDROSTATIC TORQUE> 966
C LOAOIHCSr
VERT ICAI.~ 4LONGITUDINAL% 3
Xlr 2.5i
X2% 6.563DIt'ENSIONAI. OA.AX3% 2.813 X4% 6
lX5% 2.25 W 1 % 171 M2% 25
~ Id3% 2.875L2% .337
D i% 1 ~ 63Y2% 1.5
l
Dlr 1.125Hlr 4
Or 9.85Alr .1416
Elr 1.625X6% 4.5
52% .813tPr 4
.(t . Xr 65 dpr ~ 309 dlr 13 R7% 10. 187 R8% 10. 75 R9% 10.02Lr 0 Tr 0 Gr 1 Er 30000000»3I
NATURAL FREQUENCIES (HZ.) ACTUATOR BOLT STRESSESLONCITUDIHAL(Z) ACT./VALVE% 82 VS. 33HZ. SHEAR% 4988 PSI
(I
t
TRAt(SVFRSt;(X) ACT./VALVE% 91 VS 3 NZLATERAL DISC/STEtl 993 VS.33HZ.
GRACVET BOLT STRESSESSHEAR> 5456 PSI—~BSJJS-CONBINED 14398 f SI VS. ALLOW 37500
VALVE N I; STR»:ErSHEAR% 1731 1'SITENSILE% 6040 PSI
r» % 0 P Urn%0DISC PIN STRESS
P V A ltr
ACTUATOR DFFLECTIONSLONGITUDIt(AL% 4. 02800000E-03 INCHESVERTICAL 1 36000000E 04» INCHES
RANSV R r 3.200C'000 -03 NCHES
CONG»INEDr 9582 f'SI VS ~ ALLOW.% 37500
BRACVET STRESSESSHEAR% 370 PSI
COtIGINED% 2164 PSI VS ALLOW% 18900
»:T H TRSHEAR% 8280 PSITENSILE% 18591 PSI
N N % r 74 P V .AI Wr 54300
SECTION MODULUSVA V r 4 ( NrPIPING% 29.9 IN%3
BODY BOLTIHCNOT APPLICABLE
."»7S
SIGNED.. ~ . e DATED . ~'7