ML17157A881
| ML17157A881 | |
| Person / Time | |
|---|---|
| Site: | Susquehanna  |
| Issue date: | 10/03/1991 |
| From: | Hunt D PENNSYLVANIA POWER & LIGHT CO. |
| To: | |
| Shared Package | |
| ML17157A872 | List: |
| References | |
| M-VLV-418, M-VLV-418-R02, M-VLV-418-R2, NUDOCS 9110100070 | |
| Download: ML17157A881 (53) | |
Text
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CALCULATION COVER SHEET CALC. NO.< vs FILE NO. R2. - lM SUPERSEOEO BYA)
SAFETY-RELATEO f ASNE III OR Xi (
OTHER QUALITY NON QUALITY PROJECT OESIGN ACTryiTY/PNR NUMBER TITLE/OESCRIPTION ypYJ Data Detail, Li..itSwitch HV ZSS-FOOS ER/CTN NO.
40228B I
PAGE 1
OF 1g I
Settings end Torque Seitoh Sett-ngs I
SYSTEMS AFFECTEO g2 I
I i.ene ic Letter 89-10 required establishment of a program to provide for the testing, inspection and:maintenance of safety-related rotoroperated valves.
This calculation provides the data details for the valve identified abave which will be used to prepare "the Data Detail Drau.ing >Rich will support the testing, inspection and maintenance activities.
N I
See Section 2.0 for.'Iethodology.
1
~n Pe%
FW-gga.+i~a 6-14 2-O I
See Section 3.0 for Inputs/References.
See.Section 6.0 for Results/Conclusions.
Ce~
z.
+JAN',j pg, zzc
! (ETO)
BINDER AFFECTED?
6
't YES-If Yes enter:
Binder 0
a-f,,
9110100070 911004 PDR ADOCK 05000387 Calc. File 9
PDR NO CD Yet.
Pgs.
REV.
NO.
DATE PREPARED BY REVIEMED/CHECKED BY DATE APPROVED BY DATE e.a k.~
r n~
a S I is I'~I lh
~//4~
lo mls/frb006i (12)
c'>
Calc I M-VLV-Rev.
Page 2 of gQ Calculation Contents gl J->
1.0 Purpose/Scope 2.0 Methodology 2.1 Actuator Sizing Calculation 2.2 VOTES Diagnostic Thrust Acceptance Criteria 2.3 Limit Switch Settings 2.4 Other Items 3.0 Inputs/References 4.0 Assumptions 5.0 Calculations 5.1 Actuator Sizing Calculation 5.2 VOTES Diagnostic Thrust Acceptance Criteria 5.3 Limit Switch Settings 5.4 Other Items 6.0 Results/Conclusions hkm~~Ji ii P~
Calc I M-VLV-Rev.
Page 2 of 2g The purpose of this calculation is to develope all of the information necessary to create a Motor Operated Valve Data Detail Drawing for the subject MOV.
In order to meet this end the following specific activities will be performed in this calculation to complete the MOV Detail Drawing for the subject MOV:
1.1 Research existing design documents and records for the MOV to determine best available configuration data.
This data will be used as input to the MOV Data Detail Drawing as well as to the calculations to be performed herein.
1.2 An actuator sizing calculation will be performed to determine the required actuator parameters (e.g.actuator
- size, motor size, spring pack, torque switch settings, etc.).
1e3 Using the results of Item 1.2, diagnostic test acceptance criteria will be established.
le4 Based on the design function of the MOV, geared limit switch settings will be determined.
For the purposes of this calculation, the limit switch functions to be considered will be limited to:
a.)
Torque switch bypass (open and close direction) b.)
Full open limit switch c.)
Valve position indication 1e5 A review of previously approved spring pack Replacement Item Equivalency Evaluations (RIEE's or RIE's) will be performed for the particular MOV being evaluated.
Changes to these RIE's will be processed as necessary based on the results of this calculation.
Calc I M-VLV-gV Page p of gQ Q, q'I(iI~1 y ).y'll Existing design documents, modifications and field work authorizing documents will be reviewed to identify required inputs to the MOV Data Detail Drawing.
Lists of the required inputs as well as a
cross reference to the data source are provided in Section 3.0 of this calculation.
2.1 Actuator ~Sizin calculations:
These will be performed usinq the software version of Mechanical Design Standard (MDS) Number 01 (Input a.).
The following methods will be used to compliment the techniques used in the software package:
a.)
The active valve stroke length is a required program input which allows the program to calculate a design valve stroke time.
The active stroke length will be calculated based on the following expression:
ACTIVE STROKE
=
Z
- FSL LENGTH Where:
Z
= The setpoint of the full open limit switch in percent open (typically 97%)
FSL = Full Valve Stroke Length from the closed position to the fully open (backseated) position. If FSL is not specifically known it can be calculated using the following expression:
HWT
- SL FSL HGR Where:
HWT = The number of handwheel turns required for the valve to travel from fully closed to fully
'pen.
Calc I M-VLV-0'lf k<v' Page s
of 2o'l 9(4 9( ~ ff>t/fI SL
= The valve stem lead.
HGR = The overall handwheel gear ratio.
b.)
Program overrides will be used to allow the calculation to reflect the current configuration of the MOV.
c.)
Once an expected motor run torque is calculated, a typical motor curve will be consulted to determine an estimated midstroke loaded motor speed (RPM).
The calculation will be rerun using this value as an override, the result being a
more representative design stroke time.
d.)
For gate valves the calculation will be run using a valve factor of.3.
e.)
The calculation will be run with various acceptable spring packs to allow for flexibilty in future replacement.
Only spring packs approved on spring pack equivalencies will be included on the MOV Data Detail Drawing.
the actuator sizing has been completed diagnostic test thrust acceptance criteria will be established using the following methodology:
a.)
The Minimum Allowable Thrust will be established as 1154 of the desiqn calculated required thrust.
This allows for at least 104 error in the diagnostic test results and 5% variation in torque switch repeatability.
b.)
The Maximum Allowable Running Thrust will be established as the Stuffing Box Friction load used in the actuator sizing calculations.
c.)
The Maximum Allowable Thrust will be established as the thrust corresponding to the minimum of the following:
Calc 4 M-VLV-V/F Rcv Page C
of ~g
~<II 0 ~ f/m/8 1.) Actuator thrust rating, 2.)
120% of the equivalent thrust at maximum allowable actuator output torque, 3.)
Maximum allowed valve thrust (if available).
d.)
The acceptance criteria at each torque switch setting will be specified as the expected thrust +/- 20%
e.)
In all cases items a.)
and c.) shall take precedence over item d.).
calculation will determine the appropriate geared limit switch settings for valve control and position indication.
The limit switch settings will be established per the requirements of'MDS-03 (Input b.).
The switch settings will be specified in percentages of physical stem travel from either full open or full closed.
2.4 Other Items
3.0 In ut References Calc 5 M-VLV-4[/
Page q of2$
@))el<i gl) V.hl 3.1 The principle design inputs for this calculation are:
a.)
MDS-Ol "Design Standard for the Sizing of Limitorque Actuators Including Thrust Calculation, Actuator Sizing, Spring Pack Selection and Torque Switch Setting Determination." Revision l.
b.)
MDS-03 "Design Standard for Determining and Setting Valve Motor Actuator Limit Switches."
Revision 0.
3.2 Information required for entry on the MOV Data Detail Drawing and as input to this calculation is provided on pages p
thtough (l
of this calculation.
Reference Numbers are provided for each of the entries.
A listing of all references is provided on Page gJ (Note: Copies of references not readily available are provided as attachment to this calculation).
CAt t 4 4-<<t/-~~
P~ge.9 cI'M Wgelo General Valve Design Data Value Reference l4o Valve Manufacturer pvlchw o~l <>
Vendor Drawing Number Valve Serial Number qs C38o2 Valve Quality Class Valve ASME Section IIIEdition and Class I tel 44'n
'72 M)~1 Valve Location (Inside/Outside Containment)
Valve Type Valve Pressure Class OuT &~bf=
Valve Size (Inches)
Valve Seat Area (Inches Squared)
Stem Information:
Stem Diameter (Inches):
At Stuffing Box Location k(o S3 AtThreaded Portion Thread Pitch/Lead ossa o ~<7 Stem Materml P,Zgt',
halo Original Design Stroke Time (Seconds)
Process Parameters:
t p,i.c g g ULv- ~~.
Ker t
p ge + a('~
~ g~'till General Valve Design (Cont.)
Data Value Refer nee No'.
Flow Medium DesigNMaximum Pressure (PSIG)
Design/Maximum Temperature ( F)
Design/Maximum Flow (SR Mr LB/HR)
Throttled Flow (GPM or LB/HR)
Max. Operating Differential Press, (PSID):
Opening Direction Closing Direction Additional Physical Parameters:
Valve Max. Thrust Capability (LBS) n/tr i AVAIL)CL,E.
End Connections/Rating Body Material Disc Trim Material SW L LITE Body Seat Trim Material Guide Rib Facing (Gate Valves Only)
Drain/Bypass Required (Y/N)
(TC LL<TQ
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Motor Class (1E/Non 1E)
Power Supply Type (AC/DC)
Power Source Voltage Supply/Phase/Frequency Motor Manufacturer Motor Serial Number Design Motor Speed (RPM)
Motor Start/Run Torque (ft-lbs)
Motor Horsepower Service Factor j l iaak Motor Type/Frame Size Motor Frame Design/Enclosure Type Winding Type (DC Motors)
Motor Duty Rating Insulation Class Temp. Rise/Ambient Temp. ( C)
Full Load/Locked Rotor Current (Amps) or KVACode (LRIC)at Supply Voltage (See Note 3)
CALCy M.'IfLV- ~+
~ ~c" Electrical/Motor Design Information
~a< ~L 'f 0))tj~>
Data Value Referettce No.
lE
~ vi 9-a-9
+ t/it/:
g p art/02/
Olz.
2.5'<
NA/NA P.Z LlhMC.E.
O Oll l'IOO Oll QQ 8
2.'l 1.0 OsOO 5
8 Os ar. a DC Motor Field Current (Amps)
LimitSwitch Comp/Motor Spaceheaters (Y/N)
Calc No:
M-VLV-4-$
Page f~f2/
+girls)
<5%<.g.~
NHJ.>'~
REFERENCES:
1.
VALVE VENDOR DRAWING NO:
~~-~~
R F
(FF I (0) OO Gl Of
)
2.
VALVE VENDOR DESIGN REPORT NO: ~E+~
~
~DA ~~zREV:
f (A44ek4}
(FF I 0 Ql 02.0 3.. VALVE SPEC.NO:
'te5 g -P (0
PAGE I
OF Ih REV:
GRATA Q 4.
DESIGN BASIS DEVELOPMENT PRIORITY g MOVS:SEA-233eREV: 0 (9rlgl~)l 5
~
MOTOR OPERATOR'S INFORMATION SHEET FOR ORDER NO: 381264-H 0&44 6.
DESIGN STROKE TIME CALC NO: M-VLV-~0'ee, REV.
Q 7 ~
SEIS PIPE INDEX ~4 8-9.
10
'&ID NO:
M-2l55 REV NO: 9.3
- ~
,IN SERVICE TESTING OF PUMPS AND VALVES M-3437.REV.
NO:QgORgSD)
LIMITORQUE STANDARD HANDWHEEL RATIO CHART
( SEL-ll). (4~~~
WORK AUTHORIZATION NC8 tr'gOOGQ CL'nl V 40338 1
~
I P,.mI~Z i.g. ~W G.-~-i<eO (At~~)
C~de'bi g~~ E'52- ~ 3[ R<< ii A,J b
je~
Vile~~
ZAN 7/zr/3 (oyp 4e~,J) t -<AA- (lR i3~ 5 ggtpi ~q SkeW A(g,jg
4.0 possum tions Calc g M-VLV-918'r I Page I3 of ZG 4 o~'t.>l'3 Pvl'/i//i'I 1.
For the purposes of this calculation, attempts have been made to verify design information against actual as-installed information as documented in Plant Work Authorizations.
Where actual as-installed information is unavailable the original design information will be used.
Upon completion of field as-built verification, any'iscrepencies will be reconciled and this calculation shall be revised as appropriate.
2.
Stuffing box friction values will be consistent with the empirical values listed in MDS-01 unless otherwise noted herein.
3.
Unless noted otherwise, the stem factor used herein will be based on a coefficient of friction of 0.15 (Reference
/5
).
This is consistent with the original design seismic analysis.
The SSES MOV preventative maintenance and trending program will ensure the valve stems/stem nuts are maintained in a manner which supports this assumption.
4.
The minimum voltage available will be assumed to be 80% unless noted otherwise.
If the electrical voltage drop calculations show this to be unconservatzve a lower value will be used.
If the use of 80% initially produces unacceptable results the electrical voltage drop calcs will be consulted in an attempt to remove some of the conservatism.
5.
Gate valve sizing calculations will be run using a
valve factor of.3.
6.
During the initial preparation of this calculation, the valve maximum thrust capability may not yet be available.
In these
- cases, the maximum thrust/torque shall be based on the following:
~Maximu Tuxque The maximum allowed torque shall be the lesser of the maximum torque calculated by the MDS01 software or the torque corresponding to the original design maximum torque switch setting.
~acim~u
+rust The maximum allowed thrust shall be the lesser of the actuator thrust ratinq or 120% of the equivalent thrust at the maximum allowable actuator output torque.
Calc I M-VLV-$ f ~
Page
($ of 2'Ca 5.1 Actuator Sizing Calculation The results of the actuator sizing calculations are provided as follows:
Run f Conditions
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Pa<<aes Rl -2I fl 2.
Ag,fil& Pf,c.
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5.2 VOTES Diagnostic Thrust Acceptance Criteria The calculation of the thrust acceptance criteria was performed per the method outlined in 2.2.
Pge I7 5 '
Limit Sltitch Settings P~g ts'
Geared LimitSwitch Settings Data Value pat.elf g VLV ~,
p~, jf,p.
Q, fttl t)
Reference Vo.
Electrical Schematic Sc Cotmection Diagram No.
~-(5Z Q9/
c.~go-lg Full Stroke Length 8c Number of Handwheel Turns LimitSwitch Number Function Set point See Note 4
Equivalent No. of Handwheel Turns ZS-2 ZS-3 p...
I C'>>
~ ~
ZS-4 o~;.,
'-i-o-; l'3 ZS-5 ZS-6 ZS-8
~1 9/. ~ c tg <, <los'm ZS-9 ZS-10 ZS-11 ZS-12 ZS-13 ZS-14 ZS-15 ZS-16
1" putt 0-ULV p~,~
I.u 'll Q $/
Reference VD.
Data Value Spring Pack/Torque Switch Settings Minimum Required Torque (ft-lbs)
Maximum Allowable Torque (ft-lbs)
Original Design Replacement 1
Replacement 2 Spring Pack Number (0 ~x- '."..'-f do - &~- ooGZ.-I Limitorque B/M Number o7ol 2r" Lowest Allowed Torque Switch Setting Corresponding Expected
.ctuator Output Torque (ft-lbs)
Highest Allowed Torque Switch Setting 875'orresponding Expected Actuator Output Torque (ft-Ibs)
RIE Number 4-o/5't/
w uscb P~<-
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~..., C,l~c en g.e Z75 ir vrcJ m
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P 2 W~b<<l Reference Vo.
P~c 'If, Data Value I,/5 32 7'f 0 VOTES Thrust Acceptance Criteria Maximum Total Thrust Allowable (lbs)
Maximum Allowable Running Thrust (lbs) gazoo Torque Switch Setting 1.0 Acceptable Thrust Range at Torque Switch Trip (lbs)
Original Design Replacement I Replacement 2
Spring Pack Spring Pack Spring Pack Installed Installed Installed 1.25 1.5 1.75 P
2.p 2,25 3~7'f0 - 77550 2.50 enyo
- 'fg)2g 2.75 37030 -
$5yog 3.0
~ 4l 32.7q o 3 tPt0 3.25 lP) 3?7'fP
'flclio 3.50 32tLlO t5ooo 3.75 3330'-'t 95oo 0
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CALCULATIONSHEET SPRING PAC SELECTION MOTOR SIZE SH ECTION Qys e4>
Pli')ql PP&LCALC NO. z-vs-e)t'~
~
PAGE gjOF2.
MDS<1<3 Rev.1 [7OF7]
Valve tag number I-IV2,55-Foo >
MOTOR SIZE SELECTION:
t N5%LLKD Galsl:ted MOTOR SIZE MOTOR SIZE CHECK:
gO I=T-t 8 p~ gy I((venom>)
Selected Motor Size Criteria
'QQ FT-LBS FT-LBS Calc, MOTOR START torque
~7. l Revised MOTOR START torque FT-LBS' x Calc. MOTOR RUN torque MOTOR STALL:
Stall Torque (ft-Ibs)
= Selected Motor Size (ft-Ibs) x Overall actuator ratio x Stall Efficienc x1.1 FT-LBS I'eqn. 191 40~ ~SX0,4.~ xl 1
q le<4 4 Stall Thrust stall Ibs
= Stall Tor ue/FS a"4 -7/o7$
[eqn 18]
Q,OZONE MOTOR STALLCHECK:
Stall Thrust stal gt',O7)
CRITERIA ll2 ~ ~G 2.5 x Actuator Thrust Ratin
4-VC.V-cia Z<v I
~pc )I iF 2.6 bNfe-illi ~Sf>r r(
PPGL REVXSION
- 1.90226 DATED 08-14-90 TODAY IS 09-16-1991 12:13:42 t
VALVE Info (Input)
Calculated by:
(TABLE 8 1
)
FILE: 155F003 Page 1 of 2 Checked by:
Valve Valve Valve Valve Valve Valve Valve Valve Valve Valve MANUFACTURER:
TYPE (GATE or GLOBE):
SIZE:
TAG Number:
VENDOR DRAWING number:
PP&L Drawing number:
LOCATION:
SYSTEM:
LINE (ie.
PIPE LINE I.D.):
MAXIMUMDesign THRUST:
ANCHOR DARLING GATE 10 HV255F003 93-13802 VALVE Data (Input)
(TABLE 4 2
)
FILE: 155F003 ANCHOR DARLING GATE Tag:
HV255F003 Valve STEM DIAMETER (Inches):
Valve STEM PITCH:
Valve STEM LEAD (Inches):
Valve SEAT AREA (Sq-Inches):
Valve STEM AREA (Default =
0 Sq-Inches):
Req'd STEM SPEED (0 or 3-6=Globe or 12-14=Gate):
Valve STROKE LENGTH (Inches):
Req'd STROKE TIME (Seconds):
ve INLET PRESSURE (PSXG):
ve PRESSURE DROP (PSIG):
Valve Factor (.2 or.3=Gate 1.1=Globe):
Valve STUFFING BOX FRICTION (Default = 0 Lbs):
Valve STEM/NUT Coeff.
FRXCTION (0.15 or.2):
Manual ACTUATOR RATIO Selected:
92.4 1
Manual ACTUATOR Selected:
18 Manual SPRING PAC CURVE Selected:
27
- 1. 875
.333
.667 66.33 2 '61172 0
0 0
1146 1146
~ 3 2500
.15
(
0 Min.)
MOTOR Data (Input)
(TABLE 5 3
)
FILE: 155F003 ANCHOR DARLING GATE Tag:
HV255F003 Motor TYPE (AC or DC):
Motor RPM (900 1800 or 3600):
Motor REDUCED VOLTAGE Percent (Default=0.8):
HIgh TEMPerature application (Y or N):
COMPound motor GEAR application (Y or N):
AIR MoToRs (Y or N):
MODULTRONIC MoToRs (Y or N):
HILO Applications (Y or N):
Non-Rising Stem OPERator thrust (Y or N):
Non-Rising Stem VaLVe thrust (Y or N):
Manual MOTOR Selected:
16 DC 1800
.8 N
N N
N N
N N
M-Vc.V-e>F QJ DlN1 I.I'0
/pe f/h'ff/
PP&L REVISION
- 1. 90226 DATED 08-14-90 TODAY IS 09-16-1991 12: 13: 42 culation RESULTS Calculated by:
(TABLE 8 4
)
FILE: 155F003 Page 2 of 2 Checked by:
ANCHOR DARLING GATE Tag:
HV255F003 Valve STEM FACTOR:
STUFFING BOX FRICTION THRUST:
STEM TORQUE:
STEM SPEED:
UNIT RPM:
Design STROKE TIME:
OVERALL ACTUATOR RATIO:
- 0. 0203 2500 Lbs 28468.56 Lbs 576.943 Ft-Lbs
-13.71537 InchesfHin-.
20.5627~%PM 0
Seconds 92'$ C I l>0
'I +Z'
- SMB-1 ACTUATOR selected having a 92.4 171.6 Ratio RANGE (IACT= 18
)
- SMB-1 92.4 171.6 UNIT Efficiencies:
PULLOUT= 35 RUN= 45 STALL= 45
- USER Selected ACTUATOR
- USER Selected ACTUATOR Ratio used 1800 Rpm 'DC'ot OPERATIN at 1900 Rpm APPLICATION FACTOR:
Calc.
MOTOR START TORQUE:
19.
13 Ft-Lbs MIDSTROKE RUN THRUST:
5 4.303 Lbs Calc.
MOTOR RUN TORQUE:
.76076~Ft-Lbs (5
X RUN= 13.80382
)
40 Ft-Lbs SMB-1 MOTOR with 106 Maximum Ratio Selected (IMTR= 16
)
- USER Selected MOTOR Revised MOTOR START TORQUE:
2 77 Ft-Lbs STALL TORQUE:
182 Ft-Lbs STALL THRUST:
9 75.46 s
(2.5 X Rated=
112500
)
- USER Selected Motor SIZE SPRING PAC Curve:
SMB-1 OBSOL Selected (ISPG= 27
)
- USER Selected SPRING PAC Curve SPRING PAC No: 60-600-0007-1 BILL of Materials No:
NONE
- Calc.
SPRING PAC SETTING:
2.764496 Set SPRING PAC to:
3 Max.
SPRING PAC SETTING:
3.75 Normal TORQUE:
641 Ft-Lbs Max.
TORQUE:
845 Ft-Lbs MOTOR SIZE Checks:
40 Ft-Lbs vs 19.82213 Ft-Lbs Calc. Start TORQUE 40 Ft-Lbs vs 24.77767 Ft-Lbs Revised Start TORQUE 40 Ft-Lbs vs 13.80382 Ft-Lbs 5
X RUN TORQUE MOTOR STALL Check:
90275.46 Lbs vs 112500 Lbs 2.5 X Actuator THRUST TORQUE SWITCH Checks:
845 Ft-lbs vs 850 Ft-Lbs Actuator RATING t
41695 Lbs vs 45000 Lbs Max. Actuator THRUST 845 Ft-Lbs vs 1829 Ft-Lbs Stall TORQUE
.3.75 SETTING vs 5
Max.
SPRING PAC Setting
- CAUTION Check MDS-01 if this application operates at 340 DEG.F
> ~~-'D~ Re~
l P, u,<~g 0u~ o-lg.es ~ fhg/g PP&L REVISXON
- 1. 90226 DATED 08-14-90 TODAY IS 09-16-1991 12: 12: 36 VALVE Info (Input)
Calculated by:
(TABLE g 1
)
FILE: 155F003 Page 1 of 2 Checked by:
Valve MANUFACTURER:
Valve TYPE (GATE or GLOBE):
Valve SIZE:
Valve TAG Number:
Valve VENDOR DRAWING number:
Valve PP&L Drawing number:
Valve LOCATION:
Valve SYSTEM:
Valve LINE (ie.
PIPE LINE I.D.):
Valve MAXIMUMDesign THRUST:
ANCHOR DARLING GATE 10 HV255F003 93-13802 VALVE Data (Input)
(TABLE 5 2
)
FILE: 155F003 ANCHOR DARLING GATE Tag:
HV255F003 Valve STEM DIAMETER (Xnches):
Valve STEM PITCH:
Valve STEM LEAD (Inches):
Valve SEAT AREA (Sq-Inches):
Valve STEM AREA (Default =
0 Sq-Inches):
Req'd STEM SPEED (0 or 3-6=Globe or 12-14=Gate):
Valve STROKE LENGTH (Xnches):
Req'd STROKE TIME (Seconds):
ve XNLET PRESSURE (PSIG):
ve PRESSURE DROP (PSIG):
Valve Factor (.2 or.3=Gate 1.1=Globe):
Valve STUFFING BOX FRXCTION (Default =
0 Lbs):
Valve STEM/NUT Coeff.
FRICTION (0.15 or.2):
Manual ACTUATOR RATIO Selected:
92.4 1
Manual ACTUATOR Selected:
18 MOTOR Data (Input)
(TABLE 5 3
)
FILE: 155F003 1.875
.333
.667 66.33 2 '61172 0
0 0
(
0 Min.)
1146 1146
.3 2500
.15 ANCHOR DARLING GATE Tag:
HV255F003 Motor TYPE (AC or DC):
Motor RPM (900 1800 or 3600):
Motor REDUCED VOLTAGE Percent (Default=0.8):
HIgh TEMPerature application (Y or N):
COMPound motor GEAR application (Y or N):
AIR MoToRs (Y or N):
MODULTRONIC MoToRs (Y or N):
HILO Applications (Y or N):
Non-Rising Stem OPERator thrust (Y or N):
Non-Rising Stem VaLVe thrust (Y or N):
Manual MOTOR Selected:
16 DC 1800
.8 N
N N
N N
N N
4-vN'- vis'.cv I
I~pl"4f ~6 rrr q >.< e Pgpd 0/w/Ir PP&L REVISION 1.90226 DATED 08-14-90 TODAY IS 09-16-1991 12:12:37 culation RESULTS Calculated by:
(TABLE 8 4
)
FILE 155F003 Page 2 of 2 Checked by:
ANCHOR DARLING GATE Tag:
HV255F003 Valve STEM FACTOR:
STUFFING BOX FRICTION:
THRUST:
STEM TORQUE:
STEM SPEED:
UNIT RPM Design STROKE TIME:
OVERALL ACTUATOR RATIO 0.0203 2500 Lbs 28468.56 Lbs 576.943 Ft-Lbs
~~537 Inehes7EHin-.
~
RPM 0
Seconds 92
~ 4
~CrPA
'I 7G',0
- SMB-1 ACTUATOR selected having a 92.4 171.6 Ratio RANGE (IACT= 18
)
- SMB-1 92.4 171.6 UNIT Efficiencies:
PULLOUT= 35 RUN= 45 STALL= 45
- USER Selected ACTUATOR
- USER Selected ACTUATOR Ratio used 1800 Rpm 'DC'ct OFERAT N6 at 1900 Rpm APPLICATION FACTOR:
9 Calc.
MOTOR START TORQUE:
1 2213 Ft-Lbs MIDSTROKE RUN THRUST:
5664';303 Lbs Cele.
MOTOR RUN TORQUE~2.760765 Ft-Lbs (5
X RUN= 13.80382
)
40 Ft-Lbs SMB-1 MOTOR with 106 Maximum Ratio Selected (IMTR= 16
)
- USER Selected MOTOR Revised MOTOR START TORQUE:
4.777 Ft-Lbs STALL TORQUE:
18 2
Ft-Lbs STALL THRUST:
9 7
6 Lbs
- USER Selected Motor SIZ (2.5 X Rated=
112500
)
SPRING PAC Curve:
SMB-1 HEAVY Selected (ISPG=
12
)
SPRING PAC No 60-600-0068-1 BILL of Materials No: 0701-212
- Calc.
SPRING PAC SETTING:
2.076543 Set SPRING PAC to:
2.25 Max.
SPRING PAC SETTING:
2.75 MOTOR SIZE Checks:
40 Ft-Lbs vs 19.82213 40 Ft-Lbs vs 24.77767 40 Ft-Lbs vs 13.80382 Normal TORQUE:
638 Ft-Lbs Max.
TORQUE:
838 Ft-Lbs Ft-Lhs Calc. Start TORQUE Ft-Lbs Revised Start TORQUE Ft-Lbs 5
X RUN TORQUE MOTOR STALL Check:
90275.46 Lbs vs 112500 Lbs 2.5 X Actuator THRUST TORQUE SWITCH Checks:
838 Ft-lbs vs 850 Ft-Lbs Actuator RATING 41350 Lbs vs 45000 Lbs Max. Actuator THRUST t
838 Ft-Lbs vs 1829 Ft-Lbs Stall TORQUE 2.75 SETTING vs 2.75 Max.
SPRING PAC Setting
- CAUTION Check MDS-Ol if this application operates at 340 DEG.F
0
Dept.
Date I.I~
19"I Designed by Approved by PENNSYLVANIAPOWER 5 l.lGHT COMPANY CALCULATIONSHEET PROJECT MOV Data Detail, Limit Switch Settings, and Torque Switch Settings for HV-AS'FOc 2 ER No.
M-VLV-Rig'i@
Sht. No. 4"-~
of ~
PULLOUT TORQUE CALCULATION:(100% Voltage)
Pullout Torque (ft-Ibs)
Pullout Torque (ft-Ibs)
Motor Start Torque x Overall Actuator Ratio x Pullout Efficiency x Application Factor fE 9o
~ 7t'
.35'ullout Torque (ft-Ibs)
Equivalent Thrust (Ibs)
=
qS qiV 9Q.v'ZONE TORQUE SWITCH SETTING CHECK (cont'd);
Torque (ft-Ibs) at Max Torque Switch Setting VS.
Voltage Pullout Torque (ff-Ibs)
VS.
b+Ct, egrm teEe,tQ'83)
"et e973aOt Dept.
Date~ tg~
Designed by~
PROJECT Approved by PENNSYLVANIAPOWER 8I LIGHTCOMPANY CALCULATIONSHEET ER No.
4-I'~1K A< 2-Sht. No. ~-'<
of GbH ld.2 RI Yl.c F~cf AbS'-0/ 6v 2.
+. az k/lgv<..
ALJ Vying,
=
/39o 13 fg 6'S'y g
.PZ03
.g3
6.0 Resu Conclusi.ons Calc 4 M-VLV-8 ~8 Page + of~(p y g) Lfl~ll ox~'"
6.1 All available MOV Data Detail Drawing input has been,researched and documented herein.
Where it was determined that information was unavailable from existing records, the field has been left blank.
This information will be determined during the as-built walkdown.
6.2 The results of the actuator sizing calculations, VOTES diagnostic acceptance criteria calculations and limit switch setting determination are provided within the body of the calculation.
6.3 The following anomolies have been identified through the performance of this calculation:
c
~ ~~<(r ~
coy.osap-(
45(
$,0 T/s Scl4+
[<<~
g gf g,p gg> ~i~R cieNdD kf Limihrrpu LTGRII'q q-~.~ is~ +~~~
~.
~ ~.~,g v<"'p~
wss~4g p 3 0 p~ ~%'~ ~ Hl" 5+pl(~~ cf 5>.41 ~~
I%
~gp.
~ (>> ~Qn')~)esker
~,~ <~ m-vs-b 29.+"
)l ',g issi Q~o ~~ 6-vLv 02g.i aQ +e. ~ye-Qrck&lp~y)4 ag
+vc g Pjp(( Pp~ 4l"clv04cl II"Il~
ce.in l,gA d
DESIGN IÃPDZS CHE(XIJSX Title & No.
4-y/-V-A.
DESIGN INPUTS Chica i'LU INPUTS Page graf t4 File U5 y,qg<e RS ).a-<I l.
APPLICABLE CODES Codes:
Standards:
ANSI, IEEE,
- AQS, ANS Regulatory Requirements.
2.
PERFORMANCE REQUIREMENTS A.
Tnput Requirements
- For services such as air, water, electricity, lube oil, etc.
B.
Output Requirements
- Physical output such as:
- capacity, pressure, temperature, voltage, velocities of fluids, pressure drops separation and isolation both system and unit, and redundancy requirements of structuzes systems and components.
C.
Operational requirements under various conditions, such as plant startup, normal plant operation, plant shutdown, plant emergency operation, special or infrequent operation and system abnormal or emergency operation.
Thi.s includes the overall effect on the plant (i.e., the potential loss of generation).
D.
Failure effects requirements of structures, systems and components, including a definition of those events and accidents which they must be designed to withstand.
3.
COMPATIBILITY h.
Compatibility and suitability of material selection, such as chemical and physical characteristics, radiation and heat resistance protective coatings and corrosion resistance.
B.
Operational interface requirements including definition of the functional interface involving structures, systems and components.
4.
INSTALLATION (IXBS MAY APPLY TO ANY DISCIPLINE)
A.
Transporting and Storing - Includes environmental conditions anticipated during storage, construction and operation and handling storage and shipping requirements.
B.
Ci.vil - Plant layout and arzangemcnt requirements, escape from enclosures, anchor bolts, penetzations, equipment foundations.
C.
Piping - Thermal expansion or heat restriction requizements, vibration or dynamic loading considerations,
- stress, shock, reaction forces and pipe supports.
D.
Electzical - Voltage, source, grounding conduit/raceway requirements.
E.
Instrumentation - Instrumentation aad control requirements including indicating instruments, control and alarms required for operation, testing and maiatenaacc and calibration.
F.
Chemistry - Mater chemistry considerations, including sampling provisions.
5.
MAINXAINABZIJTY APPLICABLE MS NO b<1
[
1 baal
[
1
[xl
[
1 (X]
[
1
(
1 (x}
(1 Nl
[
1 baal
[
1 b(l
(
I (xl
(
1 bcl baal
(
1 Wl (1
(1 Ml h.
Accessibility - Maintenance, ISI and ALARh accessibility rcquiremcnts.
6.
TEST REQUIRKBlXS - Including pre&PS, ISI and LLRX tests.
7.
SAFEXY - Personnel and public safety including special blocking, zadiatioa exposures, ALARh environmental concerns," efflucnts and noise.
8.
SECURIXY - Physical security plant conaideratioas.
9.
DESIGN CONSIDERATIONS - Form EPM+h-208B2 and B3.
10.
OXHER-(
1 baal
(
1 (xl
(
1 foal
(
I N
Rl (1
(1 Xl dhc/lie007i(11)
Form EPN+h-208B, Rcv.
5 (1 of 3)
attic & No, B.
DESIGN CONSIDERATIONS CALC0 M VLV INPUTS+
Page +of 2(g Pile R35
~ >)lt(4l
~) g.cl SUBJECT 1.
Dynamic Qualification 2.
Environmental Qualification 2 ~ 1 ReLay Qualified Life APPLICABLE YES itO
(
1 bc)
P)
()
(
1 fx)
EPM+A-222 EPM+h-222 NPE LEAD CIV Vcrnarr CIV Dcrk cs ELC Nudge ISSUED GUIDANCE GDG-03 SEA-EE-170 SEA EE-171 3.
Electrical Separation 4 ~
ZI over I, Safety pact 5.
Fire Protection 6 ~
Appendix R-6.1 Safe Shutdown Analysis 6 '
Combustible Loading Anal',
Flaoding Protection 8 ~
Jct Impingement 9 ~
Missile Protection
(
3
()~)
()
W)
(1 W)
(
1 (1
(A
(
1
(
)
(
3 M
EPM+h-211 CIV Rose CIU Rcinsmith NDI+h-15.3.1 EP EPM+h-440 Kahn ELC Backcnstoe CIV Delgado E 1012 Fire Protection Manual EBS &1 CDS-03 &
Deb. --i929 10.
Radiation Exposure, ALARA 11.
Physical Separation 12.
HVAC Requirements 13.
Electrical Load/Voltage Study 14.
Human Factors Engineering 15.
Inservice Ineyectfon Requirements 16.
Haterials Coapatibility 17 ~
ASHE Code Compliance (See Nate 1) 18.
Design Assessment 19.
Fuel/Core Effects t
1 K)
(
1 (xl
(
1 (x)
()s:)
(
1
(
3 M
(
)
N
()
N) t 1
M
(
)
M
(
1 bC)
NDI 6 ' '
NDI 15 ~ 3,12 NDI+h 15 ' '
ND!gh 7.2.2 CIV Hatchick CIV Rose ELC Slave/Nudge EP Patnaude EP Lindberg EPMillerts HCH Setter SE Detasore NFE Kulick Memo AM.151 DG G 100 D g. C-1804 EDG-02 EDS-02 Human Factors Speci fications 6 Guidelines Manual ISI Manuals PLI-59437 dared 3/31/89 Form EPHQA-2088, Rev.
5 (2 of 3)
CALCU M Vill-~~
INPUTS Page ~f~
File R35 Ck/sdfd(
OHs J.u-~i
&tie & No.
B.
DESIGN CONSIDERATIONS EUEIECI 20.
Heavy Loads APPLICABLE YES NO
(
(
tx)
REFERENCE PROCEDURE M-1435 NPE LEAD MCH Kostelnick ISSUED GUIDANCE 21.
Radwaste Minlmi,sation 22.
Approved Materials 23.
Secondary Containment, Control StxuctureP Ventilation Zone Boundary Penetrations
(
(
bc(
(
(
baal
((
b4 NDI+A-15.3. 9 EP Morgan MCH Agnev NDPL85-003 Susq.
Approved Matl's PLI-37573 of 1/10/85 PLI-456>3 oi 5/22/86 24.
Electrical Load Tracking 25.
Computer Program Change including Display Formats 26.
Environmental Protection
(
)
(X)
ELC Sieve/Nudge
(
)
'(7C)
EPM+h-401 CPU
(
t (X]
NDI-QA-6.3.2 (Nuc. Svcs.-
J.
S. Fields)
EDS 02 27.
Station Blackout
(
I bO ELC Sieve GDS-08 l
NOTE 1:
For modifications to ASME III systems/components (hoth paperwork only and physical changes) request in the installation instructions that Plant Staff prepare the required documentation package per NDI-Qh-5.3.4 and AD-Qh-522.
dc/al86i(11)
Form EPM-QA-208B, Rav.
5 (3 of 3)
~
0 C+3<~-5/
sam -ii-~i QES1QN INPUTS
( con '
)
i.o*nz ar 1
- 2. TZTI E F'It.E NQ.
R35
- 4. ITEN
- 5. 0 ISCU$S ION
- 3. NO IlcAIC 0Jtf
~
Gv(crfrdie~ lhall itllrery ve7 vcr e~eWi rf 4 ftC 6pntr>c 4ggr Q (~
A,g,C PQ 6l'M~ct R(7iicrtmtMS e Elte5'se
~1 ij f vt)wr+e+l'eye y+e~ Q
~.tr pre 4~ Xr(et
Sk/~A(E -237 4
o '4 4>E-Of 7r f~
ra al ~nif'crf~im.
O'BpH flg~'it~Hi A Eit~vNir art gleam Cjr C &dfcl-MmQ~.
O(erW~J ~)~rt~tPr al4tw AC &vair ci ptgrcigJ
)0 AN~> i.Jvai~
4'are g~
m
'~Ag-477 2ccglA//Wl~ ~ g/LWI ~ 4+4 Ele/j q'gg w4pp ~re~ ~ acct t ytgvcyt~eJf ~ fice'e i~
Cc Mcu/A~
C+>lee eediiM/Iupaf-bey MH A~).
Xitgyr~ga7 Wi~ a A~] 6'
.fd J]g~~ ~(
y(-
~ ~lrr i~ g Mc /~i~,
5
Customer:.
Prepared by:
S.Q. No.
Vlv.Size,Press.
5 Type No.Req'd 5 (Item No.)
ANCHOR/DARLING VALVE MOTOR OPERATOR DATA SHEET 5
P.O.
No.
g ESC-
-Jo-Approved by:
04/~
~
Sht 2 of E SS'SS l0'oo
~
e-ZJ 2Z 2
Seat Mean Dta.In.
a Area In.
~ A ~
.7854 ad2
=.7<S9( 0 Ie)
System Design Press.
PSI Design D)ff. Press.
PSI D)sc Thrust LBS Stem Thrust Tent.
LBS Stem End Thrust Stu<<Box Load LBS Total Stem Thrust LBS L)ne Pressure p
aa 4P
~ Td
~ A x P (Lfne 1 x L)ne 3) aa T aa T x f (Line 4 x Coeff Friction)*
~ T
.7854 x D
x Pl (stem area x Line 2 e
s a
s F
Tt + Te + T (Stem of. L)nes 5,6 5 7)
Ds= l-",O, ~
lOOO g (o3o I '7 F~
I f500 25,~~5
- Coefficient of Fact)on:
Double 0)sc Flex Medge
.2 Globe Valve 1.1
I l(
a3II f
a
~IKEMCXI~~
0 r
IRKIW~IBKMWCW ul~~&al~~aRL~~~eka~
KXkRHLHF~la~4%IPas~alee
~BKEKa N.
8REWF
~~ KRIW~
.I(
~ o gr y l mmr.
wr r FAPKtKW a~
~1%5RBHKIBK~CEII S
esw~ araw~aa ammmn
~WaRW~~~~aa~~aW~
Kaf-'%kg~~~>o~~>>. >~i~~
~i~~c~i~
F'i
~~:am<~
I%BI%~~~~~~~
au~
EKWRF~~
RKYA~M5%~
.'gt I
~g g VLVWV es MOTOR OPERATOR INFORMATION SHEET Attachment A
Page 4 of 11 ITEM:.
2o55$ 5 s-5 "g OPERATOR SERIAL NOS.:
LIMITORQUE ORDER NO.:
3S ~@V OPERATOR SIZE:
SPRINS PACK NUHBSR:
~0 QOD - 000 l-)
2 ~2.
NORMAL TORQUE SWITCH SETTING:
CORRESPONDING INPUT TORQUE (LB-FT):
(SEE NOTE 1)
ORRESPONDING OPERATOR OUTPUT TORQUE (LB-.-T) t QPERATQR TYPE)
DESIGN UNIT RPM (AS DEFINED IN LIMITORQUE SEL-3):
'/- PT. ~Sr.
5/4 r
~is CORRESPONDING OPERATOR OUTPUT THRUST (LBS):
g lg MAXIMUM TORQUE SWITCH SETTING:
25 490 qs.
/
CORRESPONDING INPUT TORQUE (LB-FT):
H 7 FJ ~0~
(SEE NOTE 1)
CORRESPQNOINS OPERATOR OUTPUT TORQUE (LENT))
CORRKSPONDING OPERATOR OUTPUT THRUST (LBS)t 38 126 SI.
GEAR RATIO INFORMATION g
MOTOR PINION NURSER OF TEETH) ~~
HORN SHAFT SEAR NO.
QF TESTIQ~)
HORN TQ NOAH SEAR RATIO)
)ES OVERAl L ACTUATOR RATIOF-
~
p~ I7, 'J:~),,
NOTE 1:
INPUT TORQUE IS TORQUE FROM WORMSHAFT ON SMB 00 5 000 AND FROM HANDWHEEL ON SMR-0 AND LARGER.
LIMITORQUE SIGNATUREt 8 ~ii~!ss ~~.~~
I. l~
4f(
LIMITORQUE MOTOR NAMEPLATE ORDER NUMBER( 3> ~~<~ 8 DATA SHEET SERIAL NUMBER: gO I<+>
C MOTOR NAME PLATE DATA IDENTIFICATION NUMBER:
START TORQUE (LB-F. ) (
( ~
MORSEPQWER(
~'
Cfm RUN TORQUE (LB-FT):
@ P S. F.:
TYPES'RAME:
MOTOR SPEED (RPM):
I 9 0 +
VOLTS VOLTS<
CODE 0
AMB.
C:
~
INSULATION CLASS: Q DUTY: 5 tNZIU a LINITORQUE SISNATVRE!
p<c.e PaMSed.
jt14tt 4~ = ~
g~>%
l4+<
STANDARD HANlNHEEL RATIOS POR SNB C HNB UNITS UNIT SISB HAHDWHBEL RATIO UNIT RATIO EPP,%
UNI'T SIKE HANlNHEEL RATIO UNIT RATIO EPP SlS-000 SNB-00 Sl&-0 SB-Q SMB-1 SB-l SNB-3
$0-3 SNB-4 SNL-4T SB-4 SNB-5 SNB-ST lel lsl
+4 38sl 8.93sl 2l.lsl 33sl 54.1s 1 10.75sl 25.3sl 9.0sl 66.7sl 9sl
- 22. 3s1 40.5sl
- 57. is 1
- 7. 15s 1 11 ~ 07! 1 28.37sl 39.4sl SS.36sl 8.7s1 13.06sl 33.69sl 39.87sl 59.13sl 86 s 1) 163. 5s 1) 142.0sl) 269. 8s 1) hll hll hll ll-2-26. 1 26.4-96.2 102. 6-150. 8 158. 3-247
- 11. 6-25. 6
- 27. 2-88. 4 92.4-171.6 191.7-234 10.6-25.5 26.2-82.5 84.8-150 153-212.5 11.1-24.1 25.7-37.3 43.9-95.5 98.6-132.8 138. 4-186. 4
- 13. 4-32. 3 33.6-48.4 51.8-124.9
. 131. 8-147. 9 152.1-219.3 61.4-93.4 101.4-230.2 100 100 95 60 30 25 25 60 30 25 25 60 30 25 25 6Q 60 30 25 25 60 60 30 25 25 25 25 HNB-00 HNB-0 HNB-1 HNB-3 HNB-4 HMB-4T 19s 1 45s 1 15.7sl 37sl 58sl 95sl 14.5s1 34sl 66sl 90sl
- 13. 3s1 33sl 60sl 85sl
- 10. 3s1 16s 1 ilsl 57sl Sosl 12.7 s 1 50sl 58 1
9.7-22.0 23.0-109.0 11.2-26.1 26.4-96.2 102.6-150.8 158. 3-247 11.6-25.6 27.2-88.4 92.4-171.6 191. 7-234 10.6-27.2 26.2-82.5 84.8-150.0 153-212. 5 ll.1-24. 1 25.7-37.3 35.9-95.5 98;6-132.8 138.4-186-4
- 10. 1-32. 3 40.0-124.9 131.8-147 9
~This ratio supplied ashen torque required exceeds 65 ft/1bs ~
Q Por SMB-5 and SIP-5T unit, this ratio provided as standard.
Alternate ratio shcwn provided only on request.
60 30 60 30 25 25 6Q 30 25 25 60 30 25 25 60 60 30 25 25 60 30 25 SEL ll Section 9
Page 2 of 2
'I lf li
63'r4/ut
~9'Q~i BM SYSTEM 5e12 Actuator SECTION I NAMEPLATE/REFERENCE THi~ Ik inc,Crr&e.t. Th~ oydee8-5&olAL')e'$R-"gu H pe~
Trouble Shoo t ing'~r ~ c ~q y I+p/
(Y/N)
Ia.S PE IO Schematic E~~~ cv Rl Lec. Area LLRT (r/R)
>~a Number of handwheel turns to ( I) stroke Max Thrust Pitch Lead 7S'D Motor Motor Motor Motor Motor Motor Motor Motor Start torque Run torque Mfgr Hp Vol cage Run Current Star t Current RPM Actuator Order No, Actuator Serial No.
Actuator Size M~ <<Z3s
~~r~
~//. 0 SECTION I (TORQU SW TCH ATA)
MIMITORQUE OPEN SETTING "CLOSE" SETTING A'5 FOUNO 3
AS LEFT CONF.Z" Norma'etting Maximum Setting gs s(~/~
As Found Setti"g Corresponding ft-lbs Normal Se ting Corresponding ft-lbs Max Setting Correspondcng
.".-lbs Torque Switch Caiibration Chart SECTION I.'(SPRING PAC)
$ 5 J.(7+
// 4 Washers,~S)~hici.ness
/r~ Da'~ 8ac
~~a res~
0 6O-+Ca-GOO ) /r Part No.
No. of Washers ThiCkneSS Of WaSherS Soring PAC Gap Spring PAC Preload
(/
~e/rr5'4v FORM MT-GM-050-7, Rev.
0, Page I of 2 (File R7 I)
WA NQ FI VALVE jo Fo~Z SECTIOR ry RATIOS/EFFICIENCIES
~CIMITeR UE AS FEUNE AS LEFT Actuator Overall Ratio Pinion Gear to Wormshaft Gear Ratio Worm to Worm Gear Ratio Worm to Worm Gear Efficiency Hand~heel to Stem Ratio Hand~heel to Stem Efficiency N Motor Pinion Gear Teeth 0 Wormshaft Gear Teeth
~7.A'7 S'E'.
- 12. 12 Actuator operates satisfactorily, Comments:
5.12.13 This comoleted data sheet has been forwarded to Maintenance
- Engineer, on irm evi a
e FGRH MT-GN-050-7, Rev. 0, Page 2 of 2 (File R7-1)
~
~
+4+
lip 8
beTR
',e D~I~I~P~-tO LC tIt VLV-02$
MOVATS TEST DATA SHEET SSCTlON l Reoord Operaoor Tnrornaoton Type'M Serial.>o.:
Order No:
S tea Orientation:~~
Jat:all Record Valve Znfonaation I,D. e:
Type:
Stre:
o of Yandvbeel turns:
o of turns to open liait:
Orifice size:
Stea diaaeter:
n Record Volta:
te Rated haps:
Speed:
Horsepover:
AC or DC:
Orientation:
Inforaation Actual o
de hot V~ntrol Circuit Volta; AC or DC Control Circuit:
Open Control:
Close Control:
breaker e:
Record Syatea Znfotaation Syatea:
SR flov:
Teap:
Press:
Record Torque Svitch Infonaation Open Torque Sutroh SerrtnS:
3' close Torque sutroh serrtns:
ro LLaiter Plate Size'.
TS balancing Capability:
I
~pe4IVJ w f'55 7 4.94 I oat 4 o7VIC Record Test Equipaont Nuabera and Calibration Due Dates Hainfraao:
Znitial Position of Valve:
0 Load CeLL.
Final Position of Valve:
Tl:
Safety Related:
e Ho hip Probe:
Cable Length:
~ 00 ~ 0 ~ 00000000000000
~ 000000 ~ 0000000 ~ 00000101 10000 00001 1 ~ ~ 0100001 100 ~ 0 bhIAHCIHC ualuuu ha found DSP at TST 0 ~~
TSS <<,gt<<kpnal DSP at TST 0 As Found Dsp ss TNT c
~SSh
~l'tF "P'FthPll Dsp ar Tst c ~I'ls 1 ~ 0 0 ~ ~ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ~ 0 0 0 0 0 0 0 0 0 0 0 0 0 A'0 1 0 0 0 1 0 1 0 0 1 0 0 1 0 0 1 1 ~ 1 0 ~ ~ 1 1 0 0 S
Pht& CAXZbRATIOtl nulnlII Spring Pack, Constant:
a/V Pre load 0110 ~ 0000000100101000100100010100001100000000000010110100110011010
Anchor/Darling Valve Company 701 FIRST STREET P,O. BOX 3428 WILL1AMSPORT. PA 177014428 (717) 327 4800 TELEX: 789953 February 20, 1990 PENNSYLVANIA POWER & LIGHT COMPANY Two North Ninth Street Allentown, PA 18101 Attn:
Mr. Ken Anderson, Engineering
SUBJECT:
VALVE DATA
Dear Ken,
The valve data you requested at our recent meeting is enclosed.
Please advise if you need further information.
Yours sincerely, ANCHOR/OARLIN6 VALVE COMPANY r
'?
~ /I R. W. Dommers Director - Marketing & Sales
/cll CC:
J. J. Chappell R. J. Shut encl.
l
~
4 I<<
~
I
~95 3CI I
I I
~
I I
.:3I6 i
gs I
~
I
~
II:
~
(C I; I
l I
I I
I I
I:i' I
I I
I L-,gl
~
I I
I
~
i IISt I=,>
i I
I'>0 F k>6 I -
39
~':I 37'Q
'/ st8 t
I Ili 5
i I I C 5 I. 5:
I
~
I I
I I/
,i,l il ll
<<II Adrr lO<<S ~ COOP<<<<f OSSOS OWCCII OTSOTC COVCOI,CSS ICAOC III U.S A
PENNSYLVANIA POWER &,LIGHT Susauehana Steam Eleqtric.$tation MOV Des1gn Basxs Review VALVE TAG NUMBER:HV-255F003 UNIT 2
PRIORITY:
2 VALVE DWG NO.FF110100-6101 MFG.
ANCHOR DARLING DESIGN DATA Valve Type Valve Size Pressure Class Valve Code GT
- 10. 00 600 SR 3
Stroke Time (sec) 3 Orifice Diameter (in) 50 9.187 6
Stem Diameter (in)
- 1. 875 REF NO MATERIAL DIMENSIONAL DATA 3
Stroke Length (in) 10.625 REF NO 22 22 Area/Room 33/II202 5,16 Stem Pitch (in) 0'3 Elevation Line No.
708
BA-202 5
Stem Lead (in) 1 Stem Material 0'6 A276-410T Normal Valve Pos 0
Actuator Size SMB-1-40 Valve Orientation Stem Orientation Power Supply 2D264031 1
Stem Mod of Elasticity 29.200 3
Stem Mod of Rigidity 11.300 5
Valve Thrust Capability 5
Dsk Guide Fac Mat SA216-WCB 6
Dsk Seat Surf Mat STELLITE 21 21 Rework Window OC-1, 2
& 3 - 14 DAYS (3 ' '
HV-255F003 A NORMA ISOLA ILLY OPEN VALVE IS THE HPCI STEAM SUPPLY LINE INBOARD S
SAFETY FUNCTION IS TO CLOSE TO 0 PREVENT TURBINE EXHAUST RESSURE AND PROVIDES CONTAINMENT ING IS NOT REQUIRED SINCE THE VALVE BLE.
CONTAINMENT'SOLATE H OVERPRESS ISOLATION IS NOT C T ON VALVE. THIS VALVE PCI ON A STEAM LINE BREAK T
URE AND ON LOW STEAM LINR P RECOVERY FROM MISPOSITION LASSIFIED AS POSITION CHANGEA DEFINITION OF SAFETY RELATED FUNCTION VALVE OPERATIONAL DATA Lrae Brk LOCA Smal Brk Station LOCA Blackout HELB LOOP Fire Inadvert Oper Max Diff Press Dir Diff Press Flow Rate Line Press(psig Fluid Process Temp(F)
Duty Cycle Time Line (sec)
Envr Profile(F)
Initiate Signal Valve Cycle Normal Cond 1030 216K 1040 551 139 P4 1030 216K 1040 551 139 P4 O,C NA NA NA NA NA NA NA NA NA NA NA 1146 648K 1146 563 130 DP1 NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA
Pennsylvania Power S Light Company MOY Voltage Drop ATTACHMENT B Calc.
No. E-AAA-619 Revision 3
Page 14 of 100 VALVE TAG NUMBERS HV 255F003 GB ID NOs HV-E41-2F003 otor Control Center M
Motor Rated Voltage (Vdc)
Motor Locked Rotor Amps (amps)
Motor Accident Temperature
('C) 2D264031 240 85.40 59 '
Conductor Scheme Conductor Type Conductor Size Conductor Resistance/1000 ft at 50 'C Number of Conductors per Leg/Phase Circuit Length (one-way distance from ohms )
~ ~ ~
~
~ ~ ~
~
~ ~ ~ ~ ~
~
~
~
~
~ ~ ~ ~
~ ~
~
~ ~ ~ ~
(
~
~ ~ ~
~
~ ~
~ ~ ~
~
~
~ ~ ~
~
~
~ ~ ~ ~ ~ ~
starter to mtr) (ft)...
FP2Q4012A D21 2
- 0. 185 1
233 Starting Resistor (ohms)
Overload Heater Catalog Number Overload Heater Resistance/Heater (ohms)
Motor Control Center Minimum Voltage (Vdc)
~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ t ~ ~ ~ ~ ~ ~ ~ ~
~
~
0.52 L135B 0.011 210. 0 CULATE DATA INP Motor Resistance at 59.4 4C (ohms)
Motor Reactance
(
PU
)
Cable Resistance at 59.4
'C/50 'C (ohms)
Overload Heater Resistance (ohms)
Total Circuit Resistance (ohms)
Total Circuit Reactance
(
PU
)
- 3. 135 0.000 0.175 0.022 3.852 0.000 AVAI OI TS Motor Inrush Current Draw (ampa)
Motor Terminal Voltage (Vdc)
TCaoc.
< Fr-t.gg)
S C
54.5 170. 9 dn.G Electrical Schematics Set Point Drawinga Set Point Calculationc Valve Design Baaiac Cable Codes and Deacriptionac Conductor Resistance:
Overload Heater Resistance~
'CARTS'-152 SHT 31 REV 11 E-618 SHT 5
REV 0
E-AFS-004 04/18/83 SEA-ME 238 REV 0
E-1001 REV 2 Attachment F
Attachments C,D or E REMARK:
Motor ia assumed to be same aa Unit 1 (WA V10195)
LRA & torque obtained from motor performance curve (Attachment H).