MOV Data Detail,Limit Switch Settings & Torque Switch Settings for:HV-144F001

ML17157A878
Person / Time
Site:	Susquehanna
Issue date:	10/03/1991
From:	Hunt D PENNSYLVANIA POWER & LIGHT CO.
To:
Shared Package
ML17157A872	List: ML17157A871 ML17157A873 ML17157A874 ML17157A875 ML17157A876 ML17157A877 ML17157A878 ML17157A879 ML17157A880 ML17157A881 ML17157A882 ML17157A883 PLA-3660, Forwards Calculations to Support Available Valve Factors,Per Commitment Made During Insp of Generic Ltr 89-10,Suppl 3 During Wk of 910923
References
M-VLV-193, M-VLV-193-R02, M-VLV-193-R2, NUDOCS 9110100063
Download: ML17157A878 (51)
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CALCULATION COVER SHEET CALC. NO.-"=vL>

FILE NO R2-Ql SUPERSEDED BY SAFETY-RELATED 7k.

ASME III OR XI [

OTHER QUALITY I'

NON QUALITY PROJECT ER/CTN NO.

402288 DESIGN ACTIVITY/PMR NUMBER PAGE I OF I,'ITLE/DESCRIPTION Mpv Data Detail, Li;.i.t Switch Settings and Torque Switch Settings For:

flan-I NQ T-aa, l

'YSTEMS AFFECTED NRC (veneric Letter 89-10 re~:ed establishnint of a program to provide for the testingl inspection and maintenance of safety-related motor-operated valves.

This calculation

,'rovides the data details or the valve identified above which will be used to prepare the Data Detail Drawing Y/hich will support the testing, in~ion and maintenance activities.

I N

See Section 2.0 for.'methodology.

This calculation serves as the design inputs for drawing 0 Q-l 'l 9 %

See Section 3.0 for'nputs/Heferences.

See Section

6. 0 for results/Conclusions.

CS 233 C9 f78 ~l~r 2 net rr~rjc"C.CE j (ETO)

BINDER AFFECTED'..l. YES-If Yes enter:

a 9ii0i00063 9ii004 PDR ADOCK 050003S7-0 PDR ND

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Calc. File Vol.

Pgs.

REV.

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DATE PREPARED BY REV!EHED/CHECKED BY DATE APPROVEO BY DATE zo-(-'I(

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DESIGN INPUTS CHECKLIST Title 6 No.

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DESIGN INPUTS INPUTS Page Zof Pile R35

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APPLICABLE CODES Codes:

ASME, ASBl, AISI.

Standards:

ANSI, IEEE, AMS, ANS Regulatory Requirements.

2.

PERFORMANCE REQUIRBKRXS A.

Input Requirements

- For services such as air, vater, 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 structures systems and componenzs.

C.

Operational requirements under various conditions, such as plant startup, normal plant operation, plant shutdown, plant emergency operation, special oz infrequent operation and system abnormal or emergency operation.

This includes the overall effect on the plant (i.e., the potential lose of generation).

D.

Failure effects requirements of structures, systems and components, including a definition of those events and accidents Mhfch they must be designed to withstand.

3.

COMPATIBILITY A.

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 (TXEMS MAY APPLY TO ANY DISCIPLINE) h.

Transporting and Storfng - Includes environmental conditions anticfpated during storage, construction and operation and handling storage and shipping requirements.

B.

Civil - Plant layout and arrangement requirements, escape from enclosures, anchor bolts, penetrations, equipment foundations.

C.

Piping - Thermal expansion or heat restriction zequizements, vibration or dynamic loading considerations,

stress, shock, reaction forces and pipe supports.

D.

Electrical - Uoltage, source, grounding conduit/raceway requirements.

E.

Instrumentation - Instzumentatfon and control requirements including indicating instruments, control and alarms required for operation, testing and maintenance and calibration.

P.

Chemistry - Mater chemistry consfderatfons, including sampling provisions.

5.

MAINTAINABILITY APPLICABLE YES NO N

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Accessibility - Maintenance, ISI and ALARA accessibility requirements.

6.

TEST REQUIR1RElCS - Including pre&PS, ISI and LLKC testa.

7.

SAFETY - Personnel and public safety including special blocking, zadiation exposures, ALARA environmental concerns, effluents and noise.

8.

SECURIXY - Physical security plant considerations.

9.

DESIGN CONSIDERATIONS - Porm EPM+h-208BZ and B3.

10.

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DESIGN CPNSIDERAIIPNS INPUTS Page g of File %35 c(- ('f-'fr f-LI-9/

SBI 'ECZ l.

Dynamic Qualification 2.

Environmental ~lification 2.1 Relay Qualified Life APPLICABLE YS Np

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1 (xl EPM+h-222 EPMQA"222 NPE LEAD CIV Vernarr CIV Derkacs ELC Nudge ISSUED GUIDANCE GDG-03 SEA-EE-170 SEA-EE-171 3.

Electrical Separation 4.

II over I, Safety Impact 5.

Fire Protection 6.

Appendix R-6.1 SaEe Shutdovn Analysis 6.2 Combustible Loading Anal.

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(1 1A EPM+h-211 CIV Rose NDI+h-15. 3. 1 EP EPM+A-440 Kohn ELC Backenstoe CIV Dclgado E-1012 Fire Protection.

Manual EDS %1 CDS 03 &

Dwg. C-1929 7.

Flooding Protection 8.

Jet Impingement 9.

Missile Protection 10.

Radiation Exposure, ALARA U..

Physical Separation 12.

HVAC Requirements 13.

Electrical Load/Voltage Study 14.

Human Factors Engineering bQ (1

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1 Ql HDI-6.4. 2 NDI-15.3.12 CIV Reinsmith CIV Matchick CIV Rose ELC Slave/Hudge EP Patnaude Memo AM-151 DG-G 100 Dog. C-1804 EDG 02 EDS 02 Human Factors Specifications 6 Guidelines Manual 15.

Inservice Inspection Requirements 16.

Materials Compatibility 17.

ASME Code Compliance (See Note 1) 18.

Design Assessment 19.

Fuel/Core Effects

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Title 6E No.

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DESIGN CONSIDERATIONS INPUTS Page 4 of File R35 Qv QRR(

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EUEJECI 20.

Heavy Loads APPLICABLE YES NO

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M-1435 NPE LEAD MCH Kostelnick ISSUED GUIDANCE 21.

Radvaste Minimization 22.

Approved Materials 23.

Secondary Containment, Control Stzucturep Ventilation Zone Boundary Penetrations

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NDI+h-15e 3. 9 EP Morgan MCH Agnew ihDDPL85-003 Susq.

Approved.qf~tl's PLI-37573 of 1/10/85 PLI-45673 of 5/22/86 24.

Electrical Load Tracking 25.

Computer Program Change including Display Formats 26.

Environmental Protection ELC Sieve/Nudge t

1 bCL EPM-Qh-401 CPU

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t (anal NDI-Qh"6,3.2 (Nuc. Svcs.-

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EDS 02 27.

Station Blackout

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Fot sndifications to ANNE III systens/couponents (both papetuork only and physical changes) request in che installation instructions that Plant Etaif prepare tha required docunentacicn package per NDI-Qh 5.3.4 and AD-Qh-522.

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Calculation Contents Calc g M-VLV-~~>

Page

4. of 4'o g~ f if<<

1-)I 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

Calc N M-VLV-~PS 8. d Page')

of i/v 1.0 pur ose Sco e

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.

Xn 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.).

1.3 Using the results of Item 1.2, diagnostic test acceptance criteria will be established.

1.4 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 1.5 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 5 M-ULU-(g5 Z~

O Page p of go A~g Std 7/

qR 0/

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 ~eizin 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 974)

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

open.

Calc 4 M-VLV-if'.

Page g of,~,

d~ fry~r py v 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 we'll be included on the MOV Data Detail Drawing.

LJ!

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 11'54 of the design calculated required thrust.

Thxs allows for at least 10% 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 I M-ULU-rQ g.

Page ia of

~'y e-w.f/

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 +/-,204 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 2.4

~Othe Items

Xn ut References Calc 4 M-VLV-/'P3 8.

Page i( of ~!g

~ s>.e 3.1 The principle design inputs for this calculation are:

a.)

MDS-01 "Design Standard for the Sizing of Limitorque Actuators Including Thrust Calculation, Actuator Sizing, Spring Pack Selection and Torque Switch Setting Determination." Revision 1.

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

(>

through i ~

of this calculation.

Reference Numbers are provided for each of the entries.

A listing of all references is provided on Page

~

(Note:

Copies of references not readily available are provided as attachment to this calculation).

General Valve Design Data Value Calc Page g-pe l l3 7u.

~

Reference No.

Valve Manufacturer

+c%< >4auu c, Vendor Drawing Number Valve Serial Number Valve Quality Class Valve ASME Section IIIEdition and Class Valve Location (Inside/Outside Containment)

Valve Type Valve Pressure Class i&St~

Valve Size (Inches)

Valve Seat Area (Inches Squared)

Stem Information:

Stem Diameter (Inches):

AtStuffing Box Location AtThreaded Portion Thread Pitch/Lead Stem Material Original Design Stroke Time (Seconds)

General Valve Design (Cont.)

Data Value Calc 0 M-VLV-I'IQ Page

<y c(f q~

t I f fI q-zs-f/

'P~- Q Reference No.

Process Parameters:

Flow iMedium Design/Maximum Pressure (PSIG)

I LSc / t3 7 5'esign/Maximum Temperature ( F)

S(s / ~ay Design/Maximum Flow (GPM or LB/HR)

Throttled Flow (GPM or LB/HR)

Max. Operating Differential Press. (PSID):

Opening Direction Closing Direction 3ta Additional Physical Parameters:

Valve Max. Thrust Capability (LBS)

End Connections/Rating Body Material Disc Trim Material 5~- 5(:6. Ru W( Kt t ~j-Body Seat Trim Material Guide Rib Facing (Gate Valves Only)

Drain/Bypass Required (Y/N)

+ ( ~ t-L-tr K I

3

General:

Actuator Quality Class Safety Function (Open/Close)

Actuator Manufacturer

~C f,uarar ueSign Data Value t

t H '\\~gQQ+p Calc Page M-VLV-HS W. 0 of Reference Ho.~'t l9'll Main Unit ( e.g. SMB):

Actuator Order Number Actuator Serial Number Actuator Size

~~4 -Qa-td Gearing Information:

iYIotor Pinion Number of Teeth Worm Gear Number of Teeth Worm to Worm Gear Ratio Overall Actuator Ratio

'tC.c

. I Lost Motion Drive Sleeve (Y/N)

AuxilaryWorm/Bevel Gear Unit:

Unit Order Number Unit Serial Number Unit Type/Size Unit Gear Ratio Overall Handwheel Ratio Handwheel Orientation (Top or Side Mount) p ~g:(

5 ter Handwheel Efficiency

Electrical/Motor Design Information Data Value Calc I M-VLV-t13 Page I'a of q Reference No. f~ g Motor Class (1E/Non1E}

Power Supply Type (AC/DC)

Power Source t 92366+

Voltage Supply/Phase/Frequency Motor Manufacturer

/3 /da Wpt.I~a~

Motor Serial Number Design Motor Speed (RPM}

Motor Start/Run Torque (ft-lbs}

Motor Horsepower Service Factor Motor Type/Frame Size Motor Frame Design/Enclosure Type Winding Type (DC Motors)

Motor Duty Rating (ttig,)

Insulation Class Temp. Rise/Ambient Temp. ( C)

Full Load/Locked Rotor Current (Amps) or KVACode (LRIC)at Supply Voltage (See Note 3)

DC Motor Field Current (Amps)

LimitSwitch Comp/Motor Spaceheaters (Y/N)

References:

l. Anchor Darling Valve Drawing 93-13748 (FF 110100 5001),

Rev 7

Calc I M-VLV-JV Rer 2-Page 14 of,~~

dillg-/. g(

ollN Ip.l.~

Q~ >s.i~t

2. Anchor Darling Letter dated 2/20/90 (copy attached)

3. Valve Specification Data Sheet P10 Sh t

(copy attached)

4. Work Authorization 8 8/177 (copy attached)

5. Motor Operator Information Sheet for 38126tX (copy attached)

6. SEL-11, Limitorque Standard Handwheel Ratios (copy attached) 7.

SEIS Pipeline Index, Rev 6

8. Anchor Darling Design Report E5853-23D (FF 110101 ~),

Rev 1 (copy of referenced page attached) 9.

P

& I D M-144 RWCU Sht 1

Rev 28 10.

P'pr uS =$

11.

SEA-ME-238 Design Basis Development Priority 2 Motor Operated Valves, Rev 0 (copy of data sheet attached)

12. Electrical Schematic Dwg.

E-/45 Sh 6 Rev

/t'3.

Induction Motor Data Sheet 8856-PlOA-l3I (q)-9

14. Anchor Darling Telecopy dated 3/28/91 (copy attached) geli<<a 1-C A p~rlv

<<4> 't + <+ (>g +44')

I<.

Pl'g L Gv(cul&iim. H-A4$ -@g g,~gg g~

Assum tions Calc 0 M-VLV-//g3Q D Page z~ of ~

< P/ff/

v //-H/

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 discrepencies 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 i4

).

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 unconservatxve 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:

M~aximu Torgue 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.

gg g~ust The maximum allowed thrust shall be the lesser of the actuator thrust rating or 120% of the equivalent thrust at the maximum allowable actuator output torque.

Calc I M-VLV-)'I'3 p, 6 Page

]7 of po

)~A. g.<g ~(

5. 1 Actuator Sizing Calculation The results of the actuator sizing calculations are provided as follows:

Run g Conditions Calc.

Pacaes SRixX~ 'pAgg: gag2 VWUF QA~g,:

p i+

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~

~Zinc, 74za VAL-VF'Ae~i 3

~

4.

5.2 VOTES Diagnostic Thrust Acceptance Criteria 5 '

The calculation of the thrust acceptance criteria was performed per the method outlined in 2.2.

QR

'2@v,c~

Liait Smitch Settings F4< wet Page 1 of 2 Calculated 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.

PXPE LINE I.D.):

MAXIMUMDesign THRUST:

ANCHOR DARLING GATE 6

HV144 F0 0 1 93-13748 VALVE Data (Input)

(TABLE 5 2

)

FILE: 144F001A ANCHOR DARLING GATE Tag:

HV144F001 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):

Valve INLET PRESSURE (PSIG):

Valve PRESSURE DROP (PSIG):

Valve Factor (.2 or.3=Gate 1.1=Globe):

Valve STUFFING BOX FRICTION (Default =

0 Lbs):

V lve STEM/NUT Coeff.

FRICTION (0.15 or.2):

Manual ACTUATOR RATIO Selected:

94.29 1

Manual ACTUATOR Selected:

6 Manual SPRING PAC CURVE Selected:

23 1.5

.333

.333 25.43 1.76715 0

0 0

(

0 Min.)

1053 1053

~ 3 1500

.15 MOTOR Data (Input)

(TABLE 5 3

)

FILE: 144F001A ANCHOR DARLING GATE Tag:

HV144F001 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:

5 AC 3600

.8 N

N N

N N

N N

Pap+

p~

o (

PP&L REVISION

1. 90226 DATED 08-14-90 TODAY IS 09-20-1991 15: 27: 20 DPx~g w.g C lculation RESULTS (TABLE 5 4

)

FILE: 144F001A Page 2 of 2 Calculated by:

Checked by:

ANCHOR DARLING GATE Tag:

HV144F001 Valve STEM FACTOR:

STUFFING BOX FRICTION:

THRUST:

STEM TORQUE:

STEM SPEED:

UNIT RPM:

Design STROKE TIME:

OVERALL ACTUATOR RATIO:

0.0132 1500 Lbs 11394.15 Lhs 150.2606 Ft-Lhs 12.00764 Inches/Min.

36.05897 RPM 0

Seconds 94.29

• SMB-00 ACTUATOR selected haying a 43.6 109 Ratio RANGE (IACT= 6

)

• SMB-00 43.6 109 UNIT Efficiencies:

PULLOUT= 40 RUN= 55 STALL= 60

• USER Selected ACTUATOR

• USER Selected ACTUATOR Ratio used 3600 Rpm 'AC'otor APPLICATION FACTOR'alc.

MOTOR START TORQUE:

MIDSTROKE RUN THRUST:

Calc.

MOTOR RUN TORQUE:

OPERATING at 3400 Rpm

.9 4.426667 Ft-Lhs 3360.809 Lhs

.8546311 Ft-Lhs (5

X RUN= 4.273155

)

• 10 Ft-Lhs SMB-00 MOTOR with 102 Maximum Ratio Selected (IMTR= 5

)

• USER Selected MOTOR evised MOTOR START TORQUE:

6.916667 Ft-Lhs STALL TORQUE:

622.314 Ft-Lhs STALL THRUST:

47189.61 Lhs (2.5 X Rated=

35000

)

• USER Selected Motor SIZE

'PRING PAC Curve:

SMB-00 OBSOL Selected (ISPG=

23

)

• USER Selected SPRING PAC Curve SPRING PAC No: 60-600-0022-1 BILL of Materials No:

NONE

• Calc.

SPRING PAC SETTING:

1.730234 Set SPRING PAC to:

1.75 Max.

SPRING PAC SETTING:

2 Normal TORQUE:

152 Ft-Lbs Max.

TORQUE:

174 Ft-Lhs MOTOR SIZE Checks:

10 Ft-Lbs vs 4.426667 Ft-Lbs Calc. Start TORQUE 10 Ft-Lbs vs 6.916667 Ft-Lhs Revised Start TORQUE 10 Ft-Lbs vs 4.273155 Ft-Lhs 5 X RUN TORQUE MOTOR STALL Check:

47189.61 Lbs vs 35000 Lhs 2.5 X Actuator THRUST TORQUE SWITCH Checks:

174 Ft-lbs vs 250 Ft-Lbs Actuator RATING 13194 Lhs vs 14000 Lhs Max. Actuator THRUST 174 Ft-Lbs vs 622 Ft-Lbs Stall TORQUE 2

SETTING vs 3.315 Max.

SPRING PAC Setting

• WARNING 47189.61 Lbs EXCEEDS 2.5 X Actuator THRUST

)J; V( U - lg g g Pop< I(

PP&L REVISION 1.90226 DATED 08-14-90 TODAY IS 09-20-1991 15:26:22 Q~ $.Z~.q VALVE Info (Input)

(TABLE

()

1

)

FILE: 144F001 Page 1 of 2 Calculated by:

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 6

HV144F001 93-13748 VALVE Data (Input)

(TABLE g 2

)

FILE: 144F001 ANCHOR DARLING GATE Tag:

HV144F001 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):

Valve INLET PRESSURE (PSIGf:

Valve PRESSURE DROP (PSIG):

Valve Factor (.2 or.3=Gate 1.1=Globe):

Valve STUFFING BOX FRICTION (Default =

0 Lbs):

ve STEM/NUT Coeff.

FRICTION (0.15 or.2):

Manual ACTUATOR RATIO Selected:

94.29 1

Manual ACTUATOR Selected:

6 1.5

.333

.333 25.43 1.76715 0

0 0

(

0 Min.)

1053 1053

.3 1500

.15 MOTOR Data (Input)

(TABLE N

3

)

FILE: 144F001 ANCHOR DARLING GATE Tag:

HV144F001 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:

5 AC3600

.8 N

N N

N N

N N

Calculation RESULTS Calculated by:

(TABLE 5 4

)

FILE: 144F001 Page 2 of Checked by:

ANCHOR DARLING GATE Tag:

HV144F001 PP&L REVISION

1. 90226 DATED 08-14-90 TODAY IS 09-20-1991 V.- l/Ll/-(Q3

'j2~

Q

~~pe 22-a 15:26:22 ~t' -e-2 Valve STEM FACTOR:

STUFFING BOX FRICTION:

THRUST STEM TORQUE:

STEM SPEED:

UNIT RPM'esign STROKE TIME:

OVERALL ACTUATOR RATIO:

0.0132 1500 Lbs 11394.15 Lbs 150.2606 Ft-Lbs 12.00764 Inches/Min.

36.05897 RPM 0

Seconds 94.29

• SMB-00 ACTUATOR selected having a 43.6 109 Ratio RANGE (IACT= 6

)

• SMB-00 43.6 109 UNIT Efficiencies:

PULLOUT= 40 RUN= 55 STALL= 60

• USER Selected ACTUATOR

• USER Selected ACTUATOR Ratio used 3600 Rpm 'AC'otor OPERATING at 3400 Rpm APPLICATION FACTOR:

.9 Calc.

MOTOR START TORQUE:

4.426667 Ft-Lbs MIDSTROKE RUN THRUST:

3360.809 Lbs Calc.

MOTOR RUN TORQUE:

.8546311 Ft-Lbs (5

X RUN= 4.273155

)

• 10 Ft-Lbs SMB-00 MOTOR with 102 Maximum Ratio Selected (IMTR= 5

)

• USER Selected MOTOR evised MOTOR START TORQUE:

6.916667 Ft-Lbs STALL TORQUE:

622.314 Ft-Lbs STALL THRUST:

47189.61 Lbs (2.5 X Rated=

35000

)

• USER Selected Motor SIZE SPRING PAC Curve:

SMB-00 MEDUM Selected (ISPG=

7

)

SPRING PAC No: 60-600-0049-1 BILL of Materials No: 0301-112

• Calc.

SPRING PAC SETTING:

2.070642 Set SPRING PAC to:

2.25 Max.

SPRING PAC SETTING:

2.75 MOTOR SIZE Checks:

10 Ft-Lbs vs 4.426667 10 Ft-Lbs vs 6.916667 10 Ft-Lbs vs 4.273155 MOTOR STALL Check:

47189.61 Lbs vs 35000 TORQUE SWITCH Checks:

175 Ft-lbs vs 250 13270 Lbs vs 14000 175 Ft-Lbs vs 622 2.75 SETTING vs 3

Normal TORQUE:

156 Ft-Lbs Max.

TORQUE:

175 Ft-Lbs Ft-Lbs Calc. Start TORQUE Ft-Lbs Revised Start TORQUE Ft-Lbs 5

X RUN TORQUE Lbs 2.5 X Actuator THRUST Ft-Lbs Actuator RATING Lbs Max. Actuator THRUST Ft-Lbs Stall TORQUE Max.

SPRING PAC Setting

• WARNING 47189.61 Lbs EXCEEDS 2.5 X Actuator THRUST

prr4L Form 2a$ 4 rr0<S3l Chr. H'T340l Dept.

Date 9: k4 19~

Designed by Approved by M-VLV-tqg Sht. No.

~ ~

of PROJECT MOV Data Detail, Limit Switch Settings, and Torque Switch Settings for HV-PENNSYLVANIAPOWER & LIGHTCOMPANY ER No.

CALCULATIONSHEET IIItS ex~~

Q l%kJ PULLOUT TORQUE CALCULATION:(1009o Voltage)

SA&r=rg t-u Q <Tta Q Pullout Torque (ft-Ibs)

Motor Start Torque x Overall Actuator Ratio x Stall Efficiency Pullout Torque (ft-Ibs)

Pullout Torque (ft-Ibs)

Equivalent Thrust (Ibs) zaraz (4.

TORQUE SWITCH SETTING CHECK (cont'd):

Torque (ft-Ibs) at Max Torque Switch Setting Vs.

Voltage Pullout Torque (ft-Ibs)

Vs.

Tt\\r O )4 ( Cq IQht QKgl(g+ +4+

~u.~~

w~~-c Rig c~

~A~ k ~-u,<mQ 84~</

Hi>bo I Co~W~R g~

L-\\ MhwLwCj c.Ri~g )g (og '~i~ wc,=

i'd%

>>LL Form 2e54.N83)

Cae WT3woe Dept.

Dare~l 193!

Designed by Approved by PENNSYLVANIAPOWER & LIGHTCOMPANY ER No.

CALCULATIONSHEET a~I-vLv'-

k<v 2.

PROJECT Sht. No.~ of ~>

9 ~(o-c.'tf V

ae C4Q gr gi,ti '~ tf /ve F~cf~ 'xi~

8 V7 re l/ f- (A~x p)

LVP

=

~n"~f'bS-ol 6v 4

+. zz ttl@c-.

F = /Soo 4= /77 Aq~ "- 25.'/)

P

=

/os3 a p= /052 4*,/ jrr/ig

= 8<.gg (Rir ri) 4(va( ~Ar sf~rP 5r~e

=

/2.<

lt-/Ir

(@I. Is)

Ptt KL Form 2454 t $0<at)

Cat e97S40t Dept.

Date~19~

Designed by Approved by PENNSYLVANIAPOWER & LIGHTCOMPANY CALCULATIONSHEET PROJECT ER No.

Sht. No. ~+of~

~~ Io.t.-'fI 7'

Idge<<g CrJculafitee vjrj ~va( ~f~ Jj1rf $gvt (file re~Q Ae rr+i kyat iqrggg yevtr-8&tjVi+

JM/ 7i7ue (84<)

38O I

3879(- l5'oo - (~17 ~S~O)

/o 57

Geared LimitSwitch Settings Data Value Calc 0 MVLV-Ig /tv C

~

Page dg of c/>

+> E l>1I g~

~ q-is+/

Reference No.

Electrical Schematic &Connection Diagram No.

E-g5 sx 4 8 -37/- //

fP s Full Stroke Length & Number of Handwheel Turns LimitSwitch Number ZS-1 Function Setpoint See Note 4

Equivalent No. of Handwheel Turns ZS-2 ZS-3 c/e~ ver ZS-4 OPIA/ LZ, I7g o ZS-5 ZS-6 e

ZS-7 ZS-8 OPEN P6r Zgi o ZS-9 ZS-10 ZS-11 ZS-12 ZS-13 Z-S-14 ZS-15 ZS-16

Spring Pack/Torque Switch Settings Data Value t alt" g M-VLV-It'2 W 6 Page a5 of Ltto g ~

q.tqOl Pgfl xf -Zr-r(f Reference Ho.

Minimum Required Torque (ft-lbs)

Maximum Allowable Torque (ft-lbs)

Original Design Replacement 1

Replacement 2

Spring PaCk Number LO-4oe'-Oo u-l Q -taOO-6OQ't - I Limitorque B/M Number WoQ F

~go (-ItW Lowest Allowed Torque Switch Setting i.1 S Corresponding Expected Actuator Output Torque (ft-lbsl Highest Allowed Torque Switch Setting Corresponding Expected Actuator Output Torque (ft-Ibs)

RIE Number q(C f~/

~

~ I

~

~

~

~

t

~

~

~

~

~ ~

~

E

~

~

~

4 g ~

~ 4

6.0 Results Conclusi.ons Calc I M-VLV- ('tE

~"'age Qg of gq 8-~s <<~

~

0 >-I 9l

+ NH I.sf-'ll 6.1 All available MOU 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 anomolieshave been identified through the performance of this calculation:

~ H Lc.H 7~&Am 1.)

L Als cAL-c, G'~gQ<<~g~

~>~

~<~@AC

&<pch4 6 ~iWcgg

~Ra~ ~K C>Ri Q<wA~

Anchor/Darling Valve Company 701 FIRST STREET P O. SQX 3428 WILLIAMSPORT. PA (717) 327 4800 TELEX." 759953 February 20, t990 PENNSYLVANIA POWER 8 LIGHT COMPANY Two North Ninth Street Allentown, PA 18$ 0t 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/DARLING VALVE COMPANY r

R. W. Dommers Director - Marketing 8 Safes

/cff CC:

J, J. Chappell R. J. SIout encl.

Ref Z Pt-VLV-Igg gO,O P, Cjy,t.

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Motor T e

Sl ZE COaakOOI TY OKSION/NAX. PRESS.

P OESI CN/NAx, TfMP.

F rLov orma1 Max.

A t'it NC TYPE KNOSrkATINO ROOY MATERIAL CRIM ilATE RIAL 5EAT fACINCS PACX INC TYPt IONNfT TYPf Of SEATS TYPE Of OISC RY>ASS SIZE k TYPE TI14K TO CLOSE fULL LOAO CURREXTIAAOV,Sl.SOC)

STAI.LEO ROTOR CURRENT NOtbk ~fkATOR xfIONT COS T

~

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rURN

~

INSTALL Ltvlt SRS.

~ KSTS

~

IIAONAPLUX TK57$

~

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REOJ I R Eb TOTAL COST V

I4ANufACTURE R VOOEL Ok fl0.

NO ~

VENDOR P/0 t ~ Ittv) NO.

rOREION PRINT IIO, rfLO Kxb bkt, RtrfkfNCK P

~ cl 01 ACRAN Rfr.8856-M-LOCATION OVC. Rfr, Sr f.slkic Class 1

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Act. Op. birr. Pkts, Max.

~ORT bt Axtttk SCA

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VELOCITY tfPS)

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~ 5'0

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2.OPSIA PNI now s// E Pyf'a vn PAL

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01

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-1 79K Arr/A/

gr /

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WOIFCN 0IV'I510tt CII~llKCaei VALVE OATA MEET gc).g.~ R~

mtbk OPKkATtb A/D)

SUSQUEHANNA STEAM ELECTRIC STATION UNITS 1 AND 2 PENNSYLVANZA VOMER t LZGHT COMPANY go SS56 ATTACHMENT NO. 2.

8 856-P-I0 EET '7 Or lW NEV.

0

Y SUSQUEHANNA W Rye 3I I. PROBLEM ~CRIPTICN INSPECT AND REWORK THE MOTOR ACTUATOR AS NECESSARY.

UNT ~

~

RESt.

WOR)C O~

am fusacc+

gp A

PatN))er 9/19/88 MODIFICATION RELATED 0 YES NO PMA>

II. WORK CLASSIFICATION LIMITORgUE EQU(P YES ACTUATOR AUTY TECH Ee r AELIA6LITY 0 YES

EPEC, NO '"

AELATEO ASMECDDE g YES ACCT<<ER~

L(X;<<Cma.

/09 4

~ Q ccc

~\\r, cd'h!

gg III. WORK PLANNING A. INVESTIGATION P/3%I B. WOAK PLAN PER ATTACHED WORK INSTRUCTIONS IQ-jthO

~lAIe

~cc PRCMTY COOEc', g COO%

cc.-

cg

~ ~

Cz. '0N C <.

EAP AEO.

ET YES Q HO EST.

lees Hrl HP Oc IvNc ccfacc fNNhel (0M~a

!cij cs C. POST NAINTKNANCLTMTINORKOUIRENENTS STROKE VALVEi OBSERVE PROPER OPERATION AHQ INICATION C<<(col hev4w

~ Oe( ~

': jp I

Cpereeone A(anonaaon

,'c IV. ACTION TAKEN EOVIPMENT HIBTOAYsLI 7..(..

(

.I:.

iJ 4.%

('up cccccc I

~ Gqka~l W. gr GcE.<

c)o Oacc(cs LYH I IIYSICS

'~P' PHYSI~

AO HP g ~ Cg, Pg./g+g JIB R

)gy RL 0

Q-.R IBV 0 ccc.cS 9$

RECEIVEO K 4 8 CONST'.

Lccccd: (I)

())

(F)

IT ro,

. PROSLKM CODm Te (Cher AO4lrCO Ic hee( ~

W I ~ ONli4, Nf4a IN6~ Pf

~ ll

~

~

,p qp g 5'/l77 4'V"-.3 ~HV ~ydl 5

P h

\\.'h'.d Actus t, Rtaoval t

Wr.g Coute:ou s.a.:

5.3.4.a 5.9.7. f orget 5ee< tch "OPKH" setting

~ orqua Swttch "CLOSE" setting p

Valve Posit)on

.,C St(,) St0()

ape-

"';.@':0 ER 5.9 SN 000/QS 00 Overhaul prove sleave parts replaced YES ( )

NO

~NA r

Pares Replace:

t' I

pt' 5.9.9.0 5.9.9,c 5.9.9.a 5.9o9 3

O ot hutho /+~8 FiuW eAo, 9/5 s QorlW "AS FQQNO"

~uh t

~Nut gL 3

5 5

1I 47 9

I4II I2 I3 yorsleoheue oeoIey teeleoee Y~

Parce Reolacedi I5 14 I7II 10 21 22 23 24 252i

()

'w/otetuu

~0 I

<<ou

~t~~'L 0

~ ewe%

e",('

~

~uu< ht

'It ~

~

SEP 24 I

I 8:

I 8 F ROt4 PP L

t'IA I NTE IIAIICE

~ ALVE ID Bb

/ ydI

.A NO.

'STEM 5.13 Acutator TroubLe Shooting

.IAMEPLATE/REFERENCE DATA PAGNE.883 8-V<V-I%3 gtq I RIF W

P~< Za SP VV

.'6 ID L'A I.LEV ilANONREEL TURNS / I STROKE 7 L

SCAl:FOLD NEEDED (Y/N)

MOTOR =

ACTUATOR: ORDER NO SERIAL NO-SIZE ID NO

'MANUFACTURER HORSE POMER VOLTAGE START TORQUE RUN TORQUE START CURRENT RUN CURRENT INSUL CLASS FRAME SIZE OPERATING TEMP DUTY

/.

'<3<

Co

/Wm.~ ~

I'OPAQUE SMITCH LIMITORQUE DESIGN INFO AS FOUND AS LEFT INITIALS/DATE e

PEN SETTING

';LOSE SETTING NORMAL (MIN) r1AXIMUM I.XHITER PLATE i'.AL CHART INSTALLED SPRING PACK LIMXTORQUE DESIGN INFO Q0I JO IR Ng ~~u-

'2 pj 2.~5 z~<q

/.v~ /~z. ~

z / ~ ~<97~

AS FOUND AS LEFT

<<BIO.

10 g-(Z $(y0 INITIALS/DATE I'ART NO aO OF MASHERS AVG. THICKNESS SPRING PACK GAP SPRING PACK PRELOAD

,877

, o7+

. 425 80 d>> -C'~-I 6- -"-"'-"-" ~-I oM(- (i2

/o /8-5' 'To o-/o. 9o Jo-lo -~0

-/o-Vo

panic',

S ~~~77 VALVG 10

~~~rrrrvv~I 3

CT ON TV RAT?

S

~, '

% ~ g e,,

Actuator Overall Ratio

'7RVr

P)n)on Gear to Nrashaft

'1rl brC' ware ea ware Gean Gaala

'iors to Mora Gear ffl'fc$ency Hanchfheel to Staa Ratio f

Hanraraaal ea sees Gff1clency g Notor P 3 n fon QIar Teeth 4 Worashaft Gear Teeth

5. 13.1Z Actuator operates satfsfaqio

$y.

Coments:

a>

J hLEm

~7~ n:

I ci

~. Ma

) gv e

~

5e

~I g~l5f f

~~3 REEK 0 Her Spr )ny PAC 0 Kev 41nga l NTNI g~(

NN As L,ett, Ave Run Stat1t: Currea4! OPII Zi ~

CLOU~X

~'I v

S.13e13 Thfs coeyletid data shoo% hIN boon fonerded

~ to Nafntenance Ingfneei G

e

~ ~ v

~

r, r

r ~

I

)\\

L

~

~

l if l uH45.

I fGGK WHGG fr Gar. Ir faGG g af gr '(flic If~i) a ~

r ~

MOTOR OPERATOR INFORMATION SHEET H-vwI-l9 '3 p

. p

'RR'I=~Rm~~~ ~

PT.u LIMITORQUE ORDER NO.:

ITEM:

OPERATOR SERIAL NQS.:

S'v 8 OPERATOR TYPE:

OPERATOR SIZE:

DESIGN UNIT RPM

( AS DEF INED IN LIMITORQUE SEL-3):

39.3 SPR INS PACK NUMBER:

NORMAL TORQUE SWITCH SETTING:

CORRESPONDING INPUT TORQUE (LB-FT):

(SEE NOTE 1)

CORRESPONDING OPERATOR OUTPUT TORQUE (LB-FT):

CORRESPONDING OPERATOR OUTPUT THRUST'LBS):

199 ~.

~ <<.

Io.'79$ ~ ss MAXIMUM TORQUE SWITCH SETT INS:

CORRESPONDING INPUT TORQUE (LB-FT):

(SEE NOTE 1)

CORRESPONDING OPERATOR OUTPUT TORQUE (LB-FT):

l3,=-,.

Z3r F'r.

CORRESPONDING QPERATOR OUTPUT THRUST'LBS):

[4 wr.

X4C RITZ'NQ oF gv'T SEAR RATIO INFORMATION MOTOR PINION NUMBER OF TEETH: +I NORM SHAFT SEAR NO.

OF TEETH:

WORM TQ WORM SEAR RATIO:

OVERALL ACTUATOR RATIO:

9g.o:

l NOTE 1:

INPUT TORQUE IS TORQUE FROM WORMSHAFT ON SMB-00

~( 000 AND FROM HANDWHEEL ON SM&-0 AND LARGER.

LIMITORQUE S ISNATURE:

0,

ORDER NUMBER:

LIMITORQUE MOTOR NAMEPLATE DATA SHEET 4-v~f-t e3 P.0

'i2FF ~ ~

))~~

, ( -p (.

SERIAL NURSER: 2f 3'Qf 7 ~ !59 MOTOR NAME PLATE DATA IDENTIFICATION NUMBER:

1 I 500 ~

START TORC!UE <LB-FT):

~O

< Q~ ~

HORSEPONER:

'5 RUN TORCIUE <LB Fl.),

g PT j.P.C.

S. F.:

l.o TYPE:

FRAME:

PHASE:

P +

ROTOR SPEED

<RPH):

~ ~ C 0 VOLTS: WO gC CODE AMB.

C:

4o'NSULATION CLASS: 8 BUTT.-5 Yl ZM.

n LIMZTORQUE SlGNATURE:

WW 'Q'

STANDARD HANDHHEEL RATIOS FOR SHB 4

HHB UNITS UNIT SIRE HANDWHEEL RATIO UNIT RATl0 EFF. ~

UNIT SIZE HANlWHEEL RATIO UNIT RATIO EFF.a SMB-000 Sm-00 SHB-0 SB-0 SICB-1 Ss-l SNB-2 SB-2 SHB-3 SB-3 SHB-4 SHB-4T SB-4 SNB-5 SHB-5T lal oi. 30' 8.93: 1

21. le 1 33:1 54.1:l 10.75:1

25. 3a 1 49.0:1 66.7:1 9:1

22. 3:1 40.5al 57.4:1

7. 15$ 1 11.07al

28. 37: 1 39.4:1

55. 36: 1 8.7:1 13.06:1

33. 69:1 39.87:1 59.13:1 86:1) 163. 5: 1) 142.0:1) 269. 8: 1)

All All hll 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. 1-234 10.6-25.5 26.2-82.5 84.8-150 153-212.5 1l. 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 ~ 8-14 I. 9 152. 1-219. 3 61.4-93.4 101.4-230.2 100'00 95 60 30 25 25 60 30 25 25 60 30 25 25 60 60 30 25 25 60 60 30 25 25 25 25 HHB-00 HHB-0 HHB-1 19:1 45 1

15.7:1 37:1 58:1 95:1 14.5:1 34:1 66:1 90:1 9.1-22.0 2 3. 0-109. 0 11.2-26.1 26.4-96.2 102.6-150 8

158. 3-247 11-6-25.6 27.2-$ 8.4

92. 4-111.6 191.7-234 HHB-2 13.3:1 33:1 60:1 85.1 10.6-27.2 26.2-82.5

84. 8-150. 0 153-212. 5 HHB-3 HHB-4 HHB-4T

10. 3:1 16 1

41:1 51 1

80:1 12.7:1 50:1 58:1

11. 1-24. 1

25. 7-37. 3

35. 9-95. 5

98. 6-132. 8 138 '-186-4

10. 1-32. 3 40.0-124.9 131.8-147.9

<<This ratio supplied when torque required exceeds 65 ft/lbs.

Q For SNB-5 and SHB-5T unit, this ratio provided as standard.

Alternate ratio shcnm provided only on request, 60 30 60 30 25 25 60 30 25 25 60 30 25 25 60 60 30 25 25 60 30 25 SEL 11 Section 9

Page 2 of 2

ANCHOR/DARLING VALVE CO.

g vLV 19~

~u. tl Vt=w ~

'3 cl o $ V3 Customer:

Prepared by:

S.O. No.

Vlv.Sfze,Press.

h Type No.Req'd 5 (Item No.)

MOTOR OPERATOR DATA SHEET S F P.O.

No.

5

- 1O-Approved by: D< I(

I> -~ Sht~of

$ 53 Seat Hean Dfa.In. 5 Area In, System Desfgn Press.

PSI Design Diff. Press.

PSI

~ A ~.7B54 x J2

~

77 Line Pressure P,

s gP Use

Use, 2

~ 93 l60O gao Disc Thrust LBS Stem Thrust Tent.

LBS Stem End Thrust Stuff Box Load LBS Total Stem Thrust LBS Td A x P (Line 1 x Line 3)

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$leqtric ftation MO - Design 5asxs Rev eW VALVE TAG NUMBER HV-144F001 UNIT 1

PRIORITY:

2 VALVE DWG NO-FF110100-5001 MFG.

ANCHOR DARLING DESIGN DATA REF NO MATERIAL DIMENSIONAL DATA REF NO Valve Type Valve Size

6. 00 Stroke Length

( in)

Stroke Time (sec) 6.000 28 25 Pressure Class Valve Code 600 3

Orifice Diameter (in) 5.375 Stem Diameter (in) 1.5oo 24 24 Elevation Line No.

750'-7" DBA-101 Area/Room 26/I-400 5,10 Stem Pitch (in)

Stem Lead (in)

Stem Material 0.33 0.33 A276-4 10 24 24 Normal Valve Pos Actuator Size SMB-00-10 Valve Orientation H

Stem Mod of Elasticity 29.200 3

Stem Mod of Rigidity 11.300 Valve Thrust Capability 26 26 Stem Orientation Power Supply 18236053 Dsk Guide Fac Mat Dsk Seat Surf Mat sA105II STELLITE Revork Window SEE TS 4.4.4 DEF1NITZON OF SAFETY RELATED FUNCTION HV-144F001 IS THE REACTOR WATER CLEANUP SYSTEM INBOARD CONTAINMENT ISOLATION VALVE. THIS VALVE IS NORMALLY OPEN AND WILL CLOSE ON REACTOR LOW LEVEL OR ON IND CATION F AN RWCU LINE BREAK. THE VALVES SAFETY FUNCTION IS TO CLO ON RE CTOR LOW

VEL, UPON INDICATION OF AN RWCU LINE BREAK.

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+S f05jl'I~ cha~qeai4te VALVE OPERATIONAL DATA Lrcre Brk Smal Brk LOCA LOCh Max Diff Press o

BBckoQ~t NA LOOP Fire Znadvert Oper Dir Diff Press Flov Rate Line Press(psig p

.Fluid Process Temp(F)

',Duty Cycle Ti.me Line (sec)

Envr Profile(F)

Initiate Signal Valve Cycle Normal Cond 310 542 340 310 558 340 L2 NA NA NA NA NA NA NA NA,

.NA 436 to$3 ~M 563 15o Fl NA 551 150 O,C 310

]esp 3%85 551 150

Ancher(Darling Vatw Company 701 WAST STRAIT 1.0. SOX 44+

WILLJAlNPOAT, JIA 17701@i&

(717) 547~

TARQ 75004$

FAX: (717) 3274805 To ocs1 or xerox reiecoaier 7410

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