Revision as of 03:36, 22 October 2019

Text

Rev 0 to Calculation SI-45, Max RCS Pressure for Csip Min Flow. W/Three Oversize Drawings
	ML18022A906
Person / Time
Site:	Harris
Issue date:	10/12/1992
From:	; CAROLINA POWER & LIGHT CO.
To:	;
Shared Package
ML18010A852	List: ML18010A851; ML18010A853; ML18010A854; ML18010A855; ML18010A856; ML18010A864; ML18010A865; ML18022A904; ML18022A905; ML18022A906; ML18022A907;
References
	SI-45, SI-45-R, SI-45-R00, NUDOCS 9210280208
	Download: ML18022A906 (115)
	v • d • e

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Description:
~
Mark each item yes, no, or not applicable and initial each item checked by you.
~~1. Were the inputs correctly selected and incorporated into design?~~
~~2. Are assumptions used in the design adequately described and reasonable?~~
~~NOTE: Revie~ shall include but is not limited to applicable inputs specified in NED Procedure 3.1.A, paragraph 3.1.A.4.~~
~~3. Are the apprcpriate quality and quality assurance requirements specified!~~
~~4. Are applicable codes, standards, and regulatory requirements including issue and addendum properly identified, and are their requirements for~~
~
design met?? QES
~~5. Has applicable construction and operating experience been considered?~~
~~6. Have design interface requirements been satisfied?~~
~~7. Was an appropriate design method used?~~
~~8. Is the output reasonable compared to inputs?~~
~~9. Are the specified parts, equipment, and processes suitable for the application?~~
~~10. Are the specified materials compatible with each other and the design environmental conditions to which the materials vill be exposed?~~
RED Proccdvre 3.3/Rev. 50
.DISCIPLINE DESIGN VERZPICATION RECORD Page 1 I. Inatrtatimm to Verificaticn Persorsa.L PLent ~Q (Class A)
Project PC Q ( ) Seismic (CLass 6)
File Ho. Level [ ) FP Q (Class 0)
Oocunent Ho. Qh L.<. SZ' 0 Rev ( ] Other Design verification should be done in accordance arith AHSI H45.2.11, Section 6, os amended by Regulatory Guide 1.64, Rev. 2.
Speci ~ I Instruct 1 one T Discipline Project Engineer s
II. Ver if[cation Oocammtaticn Appl i cabi l i ty D i sci l ine Disci line Hechani ca I Pf Civil Structural ()
HVAC () Seismic Equip. QuaL. ()
Electrical () Civil Stress ()
ICC () Fire Protection ()
Environeental Qualification (]
Human Factors ()
Hateriats ()
()
Other ()
Verification Hethods Used:
+Design Review ( ) Alternate Calculations ( ) Qualification Testing Design Docent Acceptable: ao [ ) - ccaments attached.
Design Verifiai Date 0 /I- Z Acknwledgeaent r < Vir ificat ton:
(OPE> Date III. Resolution of Caaaentst Ccmaents Resolved (See Attached):
(RE) Date Action taken aakes Design Documents Acceptable:
Design Verifier Date (OPE) Oat ~
HED Procedure 3.3/Rev. 50
Form 6 MOD NO. ~CR-6547 DRAWING REVISION SHEET FIELD REVISION NO. ~0 PAGE NO.
.g<'.Cc i <<g~cM h Q('PPAgg 1 i >v ).A
~j+RECORD,'OF,'",
~~UPDATEj~,'.BEFORE'~~~
Wg~j.REVIS
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BILITY.,'.~ ION)"'~'166-8-2020 LIMITORQUE WIRING DIAGRAM NO S28 2166-B-401, VALVE OVERLOAD 6 TORQUE SWITCH BYPASS RELAY NO S1789 CWD 2166-B-401, VALVE OVERLOAD & TORQUE SWITCH BYPASS RELAY NO S1790 CWD
+For later use in tracking completion of the revision.
NPMP - REV. 4
DISCIPLINE DESIGN VERIPICATION RECORD
]nstrLs:tierra Page 1
~~1. to Verification Peraomel Plant gl Q (Class A)~~
Project Q l ) Selsjalc (Class B)
File No. Level ( ] FP.Q (Class 0)
Oocujjent No. Rev I [ ] Other Design verification should be done in accordance arith ANS1 NC5.2. 11, Section 6, as EEjended by Regulatory Guide 1.64, Rev. 2.
Speci ~ l instructions:
Eleolpllne Project Engineer
11. Veri fication Ooaaentation Applicabi 1 i ty Oi ci line Disci line Hechanical () Civil Structural HVAC () Seisjsic Equip. Qual. ()
Electrical () Civil Stress ()
1% Cjg.f J4 Fire Protection ()
Environaental Qualification ()
Hman Factors ()
Haterials ()
(]
Other ()
Verification Hethods Used:
Pg Design Revieu ( ) Alternate Calculations ( ) Qualification lesting Design Docjsaent Ac"~~EEhLeA Yes E 1 Cj(] Ho [ ] - ccEjaEents attached.
Design Verifier Date Ackrxwledgeaent of Verification:
lllPEl Date 111. Resolution of C~st cojosents Resolved (see Attached):
(RE) Date Action taken aakes Design Doc+sents Acceptable:
Design Verifier Date (OPE) Date NEO Procedure 3.3/Rev. 50
Page 1 DESIGN REVIEW CHECK SHEET Plant Document Type Project Document No.
File No. Revision
==
Description:==
Mark each item yes, no, or not applicable and initial each item checked by you.
~~1. Were the inputs correctly selected and incorporated into design?~~
~~2. Are assumptions used in the design adequately described and reasonable?~~
~~NOTE: Review shall include but is not limited to applicable inputs specified in NED Procedure 3.1.A, paragraph 3.1.A.4.~~
~~3. Are the appropriate quality and quality assurance requirements specified?~~
~~4. Are applicable codes, standards, and regulatory requirements including issue and addendum properly identified, and are their requirements for design met? ~~~
~~5. Has applicable~~
~
construction and operating experience been considered?
~~6. Have design interface requirements been satisfied? ~B~~
~~7. Was an appropriate design method used? ~F-~~
~~8. Is the output reasonable compared to inputs?~~
~~9. Are the specified parts, equipment, and processes suitable for the application?~~
~~10. Are the specified materials compatible with each other and the design environmental conditions to which the materials will be exposed?~~
RED Procedure 3.3/Rev. 50
Page 2 Document Type Document No.
Revision
~~11. Have adequate maintenance features and requirements been specified?~~
~~12. Are accessibility and other provisions adequate for performance of maintenance, repair, and any expected in-service inspections?~~
~~13. Has the design properly considered radiation exposure to the public and to plant personnel (ALMA)?~~
14. Are acceptance criteria in the design documents sufficient to allow verification that design requirements have been satisfactorily accomplished? ~a
~~15. Have adequate preoperational and periodic test requirements been specified?~~
~~16. Are adequate storing, handling, cleaning, shipping, and identification requirements specified?~~
~
~~17. Are requirements for record preparation, review, approval, retention, etc., adequately specified?~~
~ ~
~
Have all problems with this design known from prior application
~
18.
been considered and resolved? gl For each question on the check list not answered yes, explain below. If "Not Applicable" give reason.
Signature Date (Design Verifier)
"fH<5 fCI/tf<3 l5 Rk ZirC-XIVAIIHF ~. 45 MED Procedvre 3.3/Rev. 50
SYSTEMg CALC. TYPE CAROLINA POWER & LIGHT COMPANY HNP-c ST u l098 (CALCULATION I)
FOR Sl CHAPQlg& PL(V PS 4lkll FLOE/ ST lQINLP SHIEDlH&
(TITLE INCLUDING STRUCTURE/SYSTEM/COMPONENT)
FOR (PROJECT AND/OR PLANT NAME & APPLICABLE UNIT)
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REASON FOR GE-, $ 5gl QP Qg)~CQQ 5 REASON FOR CHANGE:
REASON FOR CHANGE:
CALCULATION NO. ~~+~ ~/+ +~4 +
PAGE g REV t
LIST OF EFFECTIVE PAGES PAGE PAGE REV PAGE REV
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l ATTACHMENTS A 0 8
C 0
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- CALCULATION NO.
PAGE t.l REV /
AP-C 5/M TABLE OF CONTENTS Page No.
List of Effective Pages Table of Contents Pu Ip 0 s e ~ ~ ~ ~ ~
List of References Body of Calculation Conclusions Attachments Page(s)
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GTI CES 3 ~ 38 92/10/09. 09.11.30. PAGE tttttltt**tt*1111t*ttttlttttt***t11111*tttt*t*t**ttttl****11**tttttttttt*ttt*ttttt*tt GEORGIA INSTITUTE OF TECHNOLOGY INTEGRATED CONPUTER ENGINEERING SYSTEN GTICES 3.38 - GEORGIA TECH PROPRIETARY PRODUCT GENERATED 88/02/16. 15.25.46.
DATE R 92/10/09.
= I HPUT, LIOUTPUT, I.E 'HNP-92.OUTAGE'TRUDL
'FILEHAMEIBOX UITH LEAD PL~, DPI SHIELDING'TICES KC, BF W, PDN, LT 158, S1*SDATA,OA,KC, P >>PP.
3.38 FIELD REV NO PAGE NO.
. J~
92/10/09. 09.11.30.
0/
PAGE
~~11<<1111*tlttttttttltlt*11*11111111*11****111*t*tltl*11111tttttt<<111~~
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~~11* *11<<1 11 11111* ** *I 11 tl 11 I 1111*11111 1>>111 'll 1111* 11 11 I* 'I* 11~~
~~<<1<<1 11 11 11 tl II I* 11 11 11 11 I~~
~~I***** ** 11 *I *1<<111 111*11 11<<111~~
~~11*11 *I 11 11 111* ***I* **<<It>> t~~
I OUNED BY AND PROPRIETART TO THE GEORGIA TECH RESEARCH CORPORATION RELEASE DATE VERSIOH IHm LEVEL CONPLETIOH NO I HARCH 1988 8701CDC 0 2180/85 *

~~~ II<<It<<It<<It<<It<<It<<It<<<<It<<It<<Ill<<It<<I<<I<<It<<It<<It<<It<<It<<It<<<<It<<It~~
~~IACTIVE UNITS - LENGTH MEIGHT ANGLE TEHPERATURE TINE~~
<<*I>> ASSUHED TO BE INCH POUND RADIAN FAHRENHEIT SECOND TYP SPA FRA UNIT IN LBS DEG JOI COO 1 00.00 00.00 00.00 S 2 00.00 6.00 00.00 3 00.00 46.00 00.00 4 00.00 00.00 12.00 S 5 00.00 6.00 12.00 6 00.00 46.00 12.00 7 12.00 00.00 12.00 S 8 12.00 6.00 12.00 9 12.00 46.00 12.00 10 12.00 00.00 00.00 S 11 12.00 6.00 00.00
"
12 12 F 00 46.00 00.00 HEN IHC I
112; 223;345;456 578; 689; 71011 81112 9 11 2 ; 10 2 5 I 11 5 8 ; 12 8 11 13 12 3 ; 14 3 6 ; 15 6 9 ; 16 9 12 MEN PROP 16 T 'TUBE80'TS2X2X4~
HNP-92-OUTAGE GTICES 3.3$ 92/10/09. 09.11.33. PAGE STANTS E 29.00E6 ALL PLANT Mpo. Np G 11.15E6 ALL DEN 0.283 ALL BETA 0. ALL PAGE NQ, POI 0.300 ALL
$
STEEL
<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
ACTIVE UNITS WEIGHT LB LENGTH INCH TOTAL LENG'TH, MEIGHT AND VOLWE FOR SPECIFED HEHBERS LENGTH ~ 2.8000E+02 lJEIGHT ~ 1.2592E+02 VOLUHE s 4.4493E+02
<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
T DEVICE PRINTER LEN 6 PLANE XT THRU 1
GT I CES 3.38 92/10/09. 09.11.35. PAGE HNP.92-OUTAGE T DEVICE PRINTER LEN 6 T PLANE XT THRU 4 PLANT h)OD. NQ. -6 FICLD REV. WO. c9
+q)C 5 O t
GTICES 3.3B 92/10/09. 09.11 35. PAGE HNP 92-mITAGE DEVICE PRINTER LEN 6
~~~> i<OD. No. ~~Cg-y T PLANE YZ THRU 1 I AGE NO.
P~J
GT I CES 3.38 92/10/09. 09. 11.36. PAGE HNP-92.OUTAGE W
T DEVICE PRINTER I.EN 6 "LA <T "IOD hQ Q OT PLANE YZ THRU 10 aELO RCV. r<O. ul PAGE NO,
HNP-92.OUTAGE GTICES 3.38 92/10/09. 09.11.37. PAGE 1'EOUENCY CHECK DEA LOA DIR X ALL JOI
+~~~p 1
HEH 1 TO 8 LOA FOR X GLO UMI M 3.42 Pl li<T MOO. t<O.
NEH 9 10 11 12 LOA FOR X GLO UMI M 1.71 NEH 13 14 15 16 LOA FOR X GLO UNI M 3.25 PAGE NO.
DEA LOA 2 DIR Y ALL JOI NEH 1 TO 8 LOA FOR Y GLO UMI M 3.42 HEll 9 10 11 12 LOA FOR Y GLO UNI M 1.71 NEH 13 14 15 16 LOA FOR Y GLO Ukl M 3.25
'
DEA LOA 3 DIR Z ALL JOI HEH 1 I'0 8 LOA FOR Z GLO UNI M 3.42 NEH 9 10 11 12 LOA FOR Z GLO UNI M 1.71 HEH 13 14 15 16 LOA FOR Z GLO UNI M 3.25 t
t DEADMEI GHT OEA LOA 4 DIR Y ALL HEH HEH 1 TO 8 LOA FOR Y GLO UNI M -3.42 HEH 9 10 11 12 LOA FOR Y GLO UHI M -1.71 HEH 13 14 15 16 LOA FOR Y GLO UNI M -3.25 t
t X SEISHIC OEA LOA 5 OIR X .60 ALL HEH HEH 1 TO 8 LOA FOR X GLO UNI M 2.1
~
HEH 9 10 11 12 LOA FOR X GLO UMI M 1.05 13 14 15 16 LOA FOR X GLO UMI 'M 1.95 ~
SEI SHIC DEA LOA 6 DIR Y .80 ~ ALL HEH HEH 1 TO 8 LOA FOR Y GLO UNI M 2.74 HEH 9 10 11 12 LOA FOR Y GLO UNI M 1.37 HEH 13 14 15 16 LOA FOR Y GLO UNI M 2.6 t
t Z SEISHIC DEA LOA 7 DIR Z .60 ALL NEH HEH 1 TO 8 LOA FOR Z GLO UNI M 2.1 HEH 9 10 11 12 LOA FOR Z GI.O UNI M 1.05 HEH 13 14 15 16 LOA FOR Z GLO UMI M 1.95 STIFFNESS ANALYSIS BANOMIDTH INFORHATION BEFORE RENUNBERING.
THE NAXINUH BANDMIDTH IS 6 AND OCCURS AT JOINT 1'I THE AVERAGE BANDMIDTH IS 2.625 THE STANDARD DEVIATIOM OF THE BANDMIDTH IS 2.058 4.683 rrrssrrsrs
HNP-92-OUTAGE GTICES 3.3B 92/10/09. 09.11.39. PAGE 1:
IDTH INFORMATION AFTER REMWBERING.
THE NAXIHUH BANDIJIDTH IS 4 AND OCCURS AT JOIHT 6 PLANT LCD I'g.
THE AVERAGE BAMDMIDTH IS 2.500 THE STANDARD DEVIATIOH OF THE BAMDMIDTH IS 1.323 3.823
~wc rp ~Kg, THE PSEUDO DIAMETER OF THE STRUCTURE IS 4 BETNEEN JOIN'IS 2 'ND 9 TINE FOR COHSISTEHCY CHECKS FOR 16 HEHBERS .32 SECONDS TINE FOR BAMDNIDTH REDUCTION .17 SECONDS TINE TO GENERATE 16 ELEMENT STIF. MATRICES .29 SECONDS TIHE TO PROCESS 176 MEMBER LOADS 2.04 SECONDS TINE TO ASSEMBLE THE STIFFNESS HATRIX .40 SECOHDS TINE TO PROCESS 12 JOINTS .22 SECONDS TINE TO SOLVE MITH 4 PARTITIOHS ,50 SECONDS TINE TO PROCESS 12 JOINT DISPLACEHEHTS .31 SECOMDS TINE TO PROCESS 16 ELEMENT DISTORTIONS ~ 95 SECONDS TINE FOR STATICS CHECK .39 SECONDS S
UNITS CYC LIST RAY FREQ LOAD 1 2 3
HNP-92.OUTAGE GTI CES 3.3B 92/10/09. 09.11.43. PAGE 1 IIII<< IIIIIIIIIII**IIIIIIII***
<<RESULTS OF RAYLEIGH ANALYSIS>>
1111*11111111111<<11*11**111<<II PLi:lT L',r ,r~
PfFLD Rcy
.An~
go PAee No.
JOB 10 -FILENANAHE JOB TITLE - HONE GIVEH ACTIVE UNITS - LENGTH lJEIGHT ANGLE TEHPERATURE TIHE P Pc Pg o&QJ INCH LB CYC DEGF SEC
** * ** NOTE THE FOLLOMIHG ASQQPTIOHS 1111111>>s>>11*1111*')
~~COHPUTATIOHS ARE BASED OH TRANSLATIOHAL JOINT DISPLACEHENTS AHD TRANSLATIONAL JOINT FORCES ONLY~~
~~2) JOINT ROTATIONS AHD JOINT HOHENTS ARE IGNORED~~
3) APPLIED HEHBER AND ELEHENT LOADS ARE ALSO IGNORED 1111111111111111111111<<11*1111111111111*11*11111111111111111<<111*1*
~~LOADING RAYLEIGH NATURAL FREQUENCY~~
~~15.207 290.857 15.207 UHITS DEG S~~
S SRSS SEISHIC CREATE LOA 8 TYPE RHS SPEC 5 1.0 6 1.0 7. 1.0 S
S Dll + SRSS SEISHIC CREATE LOA 9 TYPE ALG SPEC 4 1.0 8 1.0 S
S DIJ - SRSS SEISHIC CREATE LOA 10 TYPE ALG SPEC 4 1.0 8 -1.0 S
LOAD LIST 9 10 QJTPUT DEC 1 IJTPUT BY HEH LIST FOR, REA ALL ~
HHP-92-OUTAGE GTICES 3.3B 92/10/09. 09.11.45. PAGE " 14 Pl>NT t,~D NP~~~
~ <<*<<*<<<<<<<<<<<<<<<<<<<<<<<<<<*<<<<<<<<<<<<*<<*
<<RESULTS OF LATEST ANALYSES PAG"- NO.
<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<
PROBLEH - FILEHAHE TITLE - NOHE GIVEN ACTIVE UNITS INCH LB DEG DEGF SEC HEHBER FORCES HEHSER LOADING JOINT /- -FORCE- .- -------- - //- -HOHENT- -/
AXIAL SHEAR-Y SHEAR-2 TORSIOHAL SENDlHG Y .BENDING-2 1 9 910.8 149.5 153.4 4.1 1145.4 1145.4 432.1 139.2 135.3 4.1 269.8 269.8
-414.2 -153.4 -149.5 -4.1 -1147.6'291.0
-1147.6
-882.3 -135.3 -139.2 -4.1 -291.0 518.1 120.7 122.1 .6 1779.3 1779.3 234.0 27.3 25.9 .6 1154.3 1154.3 10 -119.7 -122.1 -120.7 -.6 -1800.4 -1800.4
-322.8 -25.9 -27.3 -.6 -1188.9 -1188.9 9 4 910.8 149.5 149.5 4.1 '1147.6 1145.4 5 432.1 139.2 139.2 4.1 291.0 269.8 10 4 -414.2 -153.4 -153.4 -4.1 -1145.4 -1147.6 5 -882.3 -135.3 -135.3 -4.1 -269.8 -291.0 518.1 120.7 120.7 .6" 1800.4 1779.3 23C.O 27.3 27.3 .6 11M.9 1154.3 10 -119.7 -122.1 -122.1 -.6 -1779.3 -1800.4
-322.8 -25.9 .25.9 -.6 .1154.3 -11M.9 910.8 153.4 149.5 4.1 1147.6 1147.6 432.1 135.3 139.2 4.1 291.0 291.0 10 -414.2 -149.5 -153.4 -4.1 -1145.'4 -1145.4
-882.3 -139.2 -135.3 -4.1 .269.8 -269.8 518.1 122.1 120.7 .6 1800.4 1800.4 23C.O 25.9 27.3 .6 1188.9 1188.9 10 -119.7 -120.7 -122.1 -.6 -1779.3 -1779.3
-322.8 -27.3 -25.9 -.6 -1154.3 -1154.3 10 910.8 153.4 153.4 4.1 1147.6
FiELD REV. I~0.
NNP.92-OUTAGE GTICES 3. pAGqyq ff7+c'v(~ ~
11 432.1 135.3 135.3 4.1 269.8 291.0 10 414.2 -149.5 -149.5 -4.1 -1147.6 -1145.4 11 882.3 -139.2 -139.2 .4.1 -291.0 269.8 11 518.1 122.1 122.1 .6 1779.3 1800.4 12 234.0 25.9 25.9 .6 1154.3 1188.9 10 11 -119.7 .120.7 -120.7 ..6 1800.4 .1779.3 12 .322.8. -27.3 .27.3 -..6 -1188.9 -1154.3 11 9.4 264.8 8.1 .0 14.8 1530.9 2 6.9 264.8 8.1 .0 14.8 1488.5 10 11 .6.9 -238.9 -B.l .0 -14.8 -1488.5 2 .9.4 -238.9 .8.1 .0 -14.8 1530.9 10 9 9.4 264.8 8.1 .0 14.8 1530.9 6.9 264.8 8.1 .0 14.8 1488.5 10 .6.9 -238.9 -8.1 .0 -14.8 -1488.5
.9.4 -238.9 .8.1 .0 -14.8 -1530.9 9.4. 264.8 8.1 .0 14.8 1530.9 6.9 264.8 8.1 .0 14.8 1488.5 10 .6.9 -238.9 -8.1 .0 -14.8 -1488.5
.9.4 -238.9 -8.1 .0 .14.8 -1530.9 12 8 9.4 264.8 8.1 .0 14.8 1530.9 11 6.9 264.8 8.1 .0 14.8 148S.S 10 8 -6.9 .238.9 .8.1 .0 -14.8 -1488.5 11 -9.4 -238.9 -8.1 .0 -14.8 1530.9 12 218.3 ~13'.7- .0 25.7 1188.9 3 13.0 218.3 13.7 .0 25.7 . 1154.3 10 12 -13.0 -173.9 -13.7 .0 -25.7 -1154.3 3 -1C.4 -173.9 -13.7 .0 .25.7 -1188.9 14 9 14.4 218.3 13.7 .0 25.7 1188.9 13.0 218.3 13.7 .0 25.7 1154.3 10 -13.0 -173.9 -13.7 .0 .25.7 -1154.3
.14.4 .173.9 -13.7 .0 -25.7 -1188.9 15 9 14.4 218.3 13.7 .0 25.7 1188.9 13.0 218.3 13.7 .0 25.7 1154.3 10 -13.0 -173.9 -13.7 .0 -25.7 .1154.3
-14.4 -173.9 -13.7 .0 -25.7 -1188.9 16 9 9 14.4 218.3 13.7 .0 25.7 1188.9 12 13.0 218.3 13.7 .0 25.7 1154.3 10 9 .13.0 -173.9 .13.7 .0 -25.7 -1154.3 12 -1C.4 -173.9 -13.7 .0 -25.7 -1188.9 RESULTANT JOINT LOADS SUPPORTS JOINT LOADING /- ------FORCE- ------------ HOHENT-X FORCE Y FORCE 2 FORCE X HOHENT Y HOHENT 2 HOHENT GLOBAL 153.4 910.8 153.4 1147.6 4.1 1145.4
HHP-92-OUTAGE GTICES 3.3B 92/10/09. 09.11.45. PAGE 1
-149.5 -414.2 .149.5 -1145.4 .4.1 -1147.6 10 GLOBAL 910.8 149.5 1145.4 4.1 1145.4 9 153.4
-149.5 -414.2 -153.4 -1147.6
' '.4.1 -1147.6 10 GLOBAL 910.8 149.5 1145.4 4.1 1147.6 9 149.5
.414.2 -153.4 -1147.6 -4.1 -1145.4 10 -153.4 10 GLOBAL 910.8 153.4 1147.6 4.1 114?.6 9 149.5
-153.4 -414.2 .149.5 .1145.4 .4.1 -1145.4 10 PLAiNT MOD. NO.
FIELO REV NO Ol PAGE NO.
Pcyg o
1 t
11 '
N NNP-92-OUTAGE GTICES 3.38 92/10/09. 09.11.45. PAGE 1 PLANT MCG. NO.
>>>>>>*>>>>>>>>>>I>>>>>>>>>>>>>>>>>>*>>*>>*>>*>>*
~~RESULTS OF LATEST ANALYSES>>~~
>>>>>>>>>>>>>>>>>>>>>>>>1>>>>>>**>>>>>>>>*>>>>>>>>>> PAGE NO.
Sc zi.
PROBLEN - FILENANE TITLE NONE GIVEH ACTIVE UNITS INCH LB DEG DEGF SEC RESULTANT JOINT DISPLACEHEHTS SUPPORTS JOINT LOADING ----- D ISPLACENENT-----------------//------------------ROTATION-----------" /
X DISP. Y DISP. Z DISPEL X ROT. Y ROT ~ 2 ROT ~
GLOBAL 9 .000 .000 .000 .000 .000 .000 10 .000 .000 .000 .000 .000 .000
. GLOBAI.
9 .000 .000 .000 .000 .000 .000 10 .000 .000 .000 .000 .000 .000 GLOBAL 9 .000 .000 .000 .000 .000 .000 10 .000 .000 .000 .000 .000 .000 10 GLOBAL 9 .000 .000 .000 .000 .000 .000 10 .000 .000 .000 .000 .000 .000 RESULTANT JOINT DISPLACENEHTS FREE JOINTS JOINT LDAD ING . / -DISPLACEHEHT D ----------------// ----------------- ROTATION ---------- ---"--/
X DISP. Y DISP. 2 DISP. X ROT. Y ROT. . 2 ROT'.
GLOBAL 9 .001 .000 .001 .011 .000 .011 10 -.001 .000 -.001 -.011 .000 -.011 GLOBAL 9 .027 .000 .027 .011 .000 .010 10 -.027 .000 -.027 -.010 .000 ..011 GLOBAL 9 .001 .000 .001 .011 .000 .011 10 -.001 F 000 -.001 -.011 .000 -.011 GLOBAL 9 .027 .000 .027 .010 .000 .010 10 -.027 .000 ..027. -.011 .000 -.011 GLOBAL 9 .001 .000 .001 .011 .000 .011 10 -.001 .000 -.001 -.011 .000 -.011
HNP-92-OUTAGE GT1CES 3.3B 92/10/09. 09.11 45.
~ PAGE GLOBAL
.027 .000 .027 .010 .000 .011 10 -.027 .000 -.027 -.011 .000 ..010 GLOBAL 9 .001 .000 .001 .011 .000 ~ 011 10 -.001 .000 -.001 -.011 .000 ..011 12 GLOBAL 9 .027 .000 .027 .011 .000 .011 10 -.027 .000 -.027 .010 .000 ..010 PAGE NO. g/~A~~
Hg> ~go~~
t P.
~ !
'P I
HNP-92-OUTAGE GTICES 3.38 92/10/09. 09.11,45. PAGE TPUT DEC 1 LIST HAX STR ALL HEM SEC FRA HS 3 0.0 0.5 1.0 PLANT MOD. NO.
FIELD HEI/. NO.
PAGE NO.
P
~ I
~ - ~
HNP.92-OUl'AGE GT I CES 3.3B 92/10/09. 09.11.45. PAGE 2
<<<<*<<<<<<<<1<<<<<<<<<<1<<<<<<<<<<<<<<<<<<<<<<<<<<<<
e~xsT uco. No. cZ-C.
<<RESULTS OF LATEST ANALYSES<<
<<<<*<<<<<<<<<<<<<<<<<<<<<<<<*<<<<<<<<<<<<<<<<<<*<<<<
PAGE NO.
PROBLEH - FILENAHE TITLE - NONE GIVEN ACTIVE UNITS INCH LB DEG DEGF SEC INTERNAL HEHBER RESULTS HEHBER HAXIHUH STRESS
/- STRESS e /
EHBER HAX NORHAL AT SECTION LOAD HIN NORHAL AT SECTION LOAD 3256.2 000 FR 9 -3563.0 .000 FR 10 4775.0 .000 FR 9 .4970.5 .000 FR 10 3253.3 000 FR 9 -3565.9 .000 FR 10 4 4747.4 F 000 FR 9 -4998.1 .000 FR 10 5 3250.4 .000 FR 9 -3568.7 .000 FR 10 6 4719.8 .000 FR 9 .5025.7 .000 FR 10 7 3253.3 000 FR 9 -3565.9 .000 FR 10 8 4747.4 .000 FR 9 4998.1 .000 FR 10 9 2011.5 1 000 FR 10 -2023.3 1.000 FR 10 10 2011.5 1.000 FR 10 .2023.3 1.000 FR 10 11 2011.5 .000 FR 10 -2023.3 .000 FR 10 12 2011.5 .000 FR 10 -2023.3 .000 FR 10 13 1576.2 .000 FR 10 -1594.3 .000 FR 10 14 1576.2 .000 FR 10 1594.3 .000 FR 10 15 1576.2 1.000 FR 10 -1594.3 1.000 FR ,10 16 1576.2 1.000 FR 10 1594.3 1.000 FR 10
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HHP-92.OUTAGE lSH PLANT MOD. NO.. Y7 PAGE NO.
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4
HNP-92.OUTAGE GTI CES 3.3B 92/10/09. 09.11 46.
~ PAGE DYNANIC AREA SINHARY STATISTICS.
INITIAL POOL SIZE 4091 POOL SIZE INCRENENT 4091 PLANT typo. Np
~>~
NUHBER OF DATA POOL NOVES 292 DATA CONPACT IONS 3 FlELD Ray Np LOM RELEASEO 0 PAGE Np.
HIGH RELEASED 0 LOM UNRELEASED 0 LOM NODULES 2 a~ gy HIGH MODULES 0 BLOCKS READ FRON DISK 86 BLOCKS READ FROH ECS 7 SEQUENTIAL READ.AHEADS I Nl T IATED 0 BLOCKS READ AHEAD DISCARDED 0 ONE-PRU READ COUNT 0 ONE.PRU MRITE COUNT 4 BLOCKS MRITTEN TO DISK 0 ONE-MORO UPDATES IN ECS 0 BLOCKS REMRITTEN TO ECS 0 NAXINUH NLNBER OF ALLOCATED lORDS 265276 NAXIHUN FIELD LENGTH ATTAINED 363200 NUHBER OF CRASHES 61 NUHBER OF FIELD LENGTH INCREASES 55 NUHBER OF FIELD LENGTH DECREASES 9 NUNBER OF OVERFLOM.ACTION CALLS 5
-
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Plant Modification Mod. No. PCR-6547 Installation Instructions Field Rev. No. Ol Page No. E5 modification, extreme caution should be taken when performing wiring additions.
5.2 Install the P&B rotary relays into the K711 designated area of SSPS output relay cabinet 2, train "A" and "B". The relays shall be mounted with g6-32 machine screws and helical spring lock washers (B.O.M. f 6A & 7A) and tightened snug tight.
5.3 Install wiring per "ADD-DELETE" sheets for SSPS output bay 2. All wiring shall be made with 14 AWG 600V switchboard wire.
NOTE: When routing internal wiring, SSPS wiring separation standards shall be observed. Additionally, note that the "N.C." contact P4 of the K711 relay and the "N.C." contact f18 of the K740 relay shall be wired.
5.4 For relays with P5 terminal screws, the use of g6 lugs/studs is acceptable.
6.0 IMITOR UE V VE T SWITC 6.1 Various wiring changes are being made to the limit switches of 2CS-V757SA>>1 and 2CS-V759SB-1. These changes shall be in accordance with SK-6547-2-001, SK-6547-2-002, and SK-6547-2-038 utilizing 12 AWG SIS wire.
7.0 480V CC-1A21-S & 1B21-SB 7.1 This modification spares valve overload and torque switch bypass relay contacts located in 480V MCC compartments. Determinate and spare relay contacts as shown SK-6547-Z-039 and SK-6547-Z-040.
1 MOD NCL Shearon Harris Nuclear Poser Plant PAQEM.
Cabinet 04 Card Frame 26 DELETE DELETE ADD ADD Comments From To From To 26-083-01 26-108-01 26-083-02 26-108-02 h'a7E cnBL.E PA-o83 / o9-oo9 rs ro de Bllda5 8Y rH($ Mob(P)c'artoN.
MOD N).
FfELD f%VfQOH HO PAGE NL Shearon Harris Nuclear Power Plant Cabinet SSPS OUTPUT BAY 2 TRAIN h, f B DELETE DELETE ADD ADD Comments From To From To TB711-2 K711-6 TB711-6 TB711-10 TB711-10 TB702-2 K711-5 TB702-1 TB702-3 K711-3 K711-4 K740-13 K740-14 TB702-4 TB702-5 K711-1 K711-2 K740-11 K740-12 TB702-6 K740-15 TB702-7 K740-16 TB702-8 K740-17 TB702-9 K740-18 TB702-10
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PLANT MODIFICATION MOD NO. PCR-6547 TESTING REQUIRMENTS PIELD REV+ NO ~ 1 PAGE NO ~ F2 TESTING OF FLOW PERFORMANCE OF RESTRICTION ORIFZCES WILL BE PERFORMED JOINTLY BY THE PLANT (TECH. SUPPORT) AND NED.
FLOW TESTING OF RESTRICTIVE ORZFZCES WILL BE PERFORMED USING ULTRASONIC FLOW METER. THE TYPE OF METER XS A TRANSIT-TIME UNIT DESXGNED FOR USE WITH CLEAN WATER.
ESTABLISH SEAL INJECTION <31 GPM WHILE FLOW TESTING OF ORIFICES.
TEST FLOW OF ORIFICES 60 GPM -4/+30 9>6000'EAD.
PIPING WILL BE OBSERVED BY EXPERIENCED NED PERSONNEL DURING TESTING OF ORIFZCES AND A QUALITATIVE ASSESSMENT OF ABNORMAL PIPING MOVEMENT OR VIBRATION WILL BE MADE. INSTALLATION/TESTING PACKAGE SHALL PROVIDE SIGNOFF FOR NED.
HYDROTEST PIPING USING APPROPRIATE PLANT PROCEDURES.
HYDROTEST BOUNDARIES HYDROTEST BOUNDARIES DEFINED BY CLOSING THE FOLLOWING VALVES: 1CS-745/ 1CS 753'CS 752'CS 746'CS 194'CS 180'CS 182~ 1CS 196'CS 195~ 1CS 181'ND 1CS 214 'PEN VALVES 1CS 747'CS210'CS 748'CS 749'CS 750~ AND 1CS 751 'RESSURIZE THROUGH 1CS 209 AND 208.
NOTE: LOCATION TO MOUNT PERMANENT ULTRASONIC FLOW METER TRACKS WILL BE DETERMINED DURING ACCEPTANCE TESTING OF THE MODXFICATION. CIVIL EVALUATIONWILL BE DOCUMENTED AT THAT TXME.
ENCLOSURE 2 SCALING,CALCULATZONS
CAROLINA POWER & LIGHT COMPANY SHEARON HARRIS NUCLEAR POWER PLANT PROCESS ZNSTRUMENTATZON CONTROL SCALING CALCULATIONS CALCULATION TYPE: NUCLEAR STEAM SUPPLY SYSTEM (NSSS)
CALCULATION NUMBER: SC-N-062 TITLE: RCS WIDE RANGE PRESSURE LOOP 3 P-402 REVISION 5 PREPARED BY TITLE Eu? DATE lO 8 'FP
'REVIEWED BY TITLE S S C~ DATE I'+ ~
APPROVED BY TITLE ~L. DATE ~/0
lj TABLE OF CONTENTS SECTION PAGE 1.0 PURPOSE ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 3
~~2.0 REFERENCES~~
. . . . . . . . . . . . . . . . . . . , . . . . . . . 3 3.0 GENERAL SCALING CALCULATIONS AND REVISION COMMENTS . . . . . , . 3 4.0 SPECIFIC SCALING CALCULATIONS 4.1 PT-01RC-0402-ZW 4 4.2 PQY-402 ~ ~ ~ 6 4.3 PY-402C ~ ~ ~ 6 4.4 PY/402B 7 4.5 PY-402D 7 4.6 PY-402A ~ ~ 8 4.7 PI-01RC-0402-.1SAW 9 4.8 PI-01RC-0402-.2SA 9 4.9 PR-01RC-0402-SV 10 4.10 PS-01RC-0402-W ~ ~ 11 4.11 PS-01RC-0402-AV 12 4.12 PS-01RC-0402-A1 13 4.13 PY-402 14 4.14 PZ-01RC-0402-AW' ~ ~ 15 5.0 ATTACHMENTS ~ ~ ~ ~ e NOTle SC-N-062 Rev. 5 Page 2 of 15
1~ 0 PURPOSE This document provides the Scaling necessary to calibrate the containment RCS Wide Range Pressure loop P-402, which includes inputs to the Main Control Board (MCB), Auxiliary Control Panel (ACP), and the Solid State Protection System (SSPS).
2 ' REPERENCES
~~1. MOD-110~~
~~2. MST-I0080~~
~~3. NSSS EQUIPMENT REFERENCE MANUAL (VM-PYC)~~
~~4. NSSS BLOCK DIAGRAMS 1364-1328 SH 29~~
~~5. PL&S pg 49 (1364-53872 SH 56)~~
~~6. CAR-2166-B-432~~
~~7. CAR-2166-B-508~~
~~8. CAR-'2166-S-3015~~
~~9. FCR-I-2229~~
~~10. TECH SPEC pg 3/4 5-5, 3/4 3-65, 3/4 3-70~~
~~11. IS/1-RC-490 SH2~~
~~12. CAR-2166-G-452~~
~~13. CAR-2166-B-431 SH L-75~~
~~14. FSAR pg 5.4.7-4, 5.4.7-8, 5.4.7-13, 5.4.7-14, 7.4.1-12, 7.4.1-13, 7.6.1-X~~
~~15. CWD CAR-2166-B-401 SH's 325 thru 328~~
~~16. IR-85-1066~~
~~17. SC-N-178, SC-N-179~~
~~18. 1364-46574 SH 22~~
~~29. 1364-46578 SH 7~~
~~20. 1364-92079 SH 11~~
~~21. Calculation HNP-I/INST-1044~~
~~21. PCR-2898~~
~~22. PCR-5322~~
~~23. PCR-6547 3~0 GENERAL SCALING CALCULATIONS AND REVISION COMMENTS 3 1 TOLERANCE - Most process cards are assigned a tolerance of +0.50%~~
or +0.050 VDC. This is obtained by +0.508 ~ 10 VDC +0.050 VDC.
Computer points are +0.75$ of the span. All indicators and recorders are +2.0% of the span.
3 2 ROV9.s3.on 5 incorporates PCR-5322 and PCR-6547. PCR-5322 upgrades the transmitter to an ITT Barton 763. PCR-6547 adds a bistable for the CSIP Alternate Miniflov Permissive.
SC-N-062 Rev. 5 Page 3 of 15
4 ' SPECZFZC SCALZNG CALCULATZONS 4 1 PT-01RC-0402 ZP
~
~~Description:~~
~~Pressure Transmitter Location: Al-R45A Model: ITT Barton 763 Known:~~
~~1. Input: 0.0 to 3000.0 PSIG.~~
~~2. Output: 4.0 to 20.0 mA (1.0 to 5.0 VDC Q input to NLP)~~
3. The following drawings were used to determine that the transmitter taps into the Reactor Coolant Hot Leg at elevation 252'-64"; IS/1-RC-490, CAR-2166-G-452, CAR-2166-B-431 Sheet L-75 and CAR-2166-B-431 Sheet L-78. The transmitter is mounted in rack Al-R45A, which is located on elevation 236'. Per PCR-5322, the transmitter is 5'-7.844" from the floor.
~~4. Per ASME Steam Tables, the specific volume of water at 90.0'F is 0.016099 FT3/LB.~~
Determine the transmitter head correction by Determine the distance between the centerline of the transmitter and the centerline of where the transmitter impulse line taps into the, Reactor Coolant System by ~
252.0' 6.25" -
0' 5.0' 7,844" 252.5208'236 241.6537'0.8671'.
Convert the 10.8671'nto PSI by (0.016099 FT /LB) ~ (10.8671') / (144.0 IN /FT ) 4.688 PSI NOTE: It it assumed the transmitter impulse line is at 90.0'F the above calculation.
for 3 ~ For calibration purposes the head corrections will be 4.7 PSIG.
SC-N-062 Rev. 5 Page 4 of 15
~~4. 1 PT-01RC-0402-I (continued)~~
Determine any 1~5 VDC output from any PSIG input to transmitter by ~
(1~5 VDC Output) [(PSIG Input)-(4.7 PSIG)] (4 VDC)/(3000 PSIG) +
~
1 VDC Tolerance - +0.50% - +0.02 VDC Percent RCS Pressure Input Pressure Output Q NCTl of Input Represented to Transmitter TPl CAB 17-0846 PSIG PSIG VDC (mA) 0.18$ 5.3 10.0 1.007 (4.028)
~~24. 84% 745.3 750.0 1.994 (7.976) 49.84@ 1495.3 1500.0 2.994 (11.976) 2245.3 2250.0 ~~~
~~3. 994 (15. 976) 74.84'9.84@~~
2995.3 3000.0 4.994 (19.976)
SC-N-062 Rev. 5 Page 5 of 15
4 ' PQY-402
~~Description:~~
Loop Power Supply (Isolated & Non-Isolated)
Location: CAB 17-0533 Model: Westinghouse NLP2 Known:
~~l. INPUT: 1.0 to 5.0 VDC 2~ OUTPUT: 0.0 to 10.0 VDC Determine any 0 10 VDC output from any 1~5 VDC input by ~~~
(0 10 VDC Output) - [(1~5 VDC Input)-1] ~ (10 VDC)/(4 VDC)
Tolerance - +0.50% - +0.05 VDC Note: 1. See Section 4.6 for data table.
~~2. Both Isolated and Non-Isolated outputs must be tested.~~
4 ' PY-402C
==
Description:==
Isolator Location: CAB 17-0534 Model: Westinghouse NLP3 Known:
~~1. INPUT: 0.0 to 10.0 or 1.0 to 5.0 VDC from input of PQY-402~~
~~2. OUTPUT: 0.00 to 10.00 VDC Determine any 0~10 VDC output from any 1~5 VDC input by ~~~
(0 10 VDC Output) [(1>>5 VDC Input)-1] ~ (10 VDC)/(4 VDC)
Tolerance +0,50% +0.05 VDC "
Note: See Section 4.6 for data table.
SC-N-062 Rev. 5 Page 6 of 15
4 4 PY/402B
~~Description:~~
~~Isolator Location: CAB 17-0535 Model: Vestinghouse NLP3 Known:~~
~~1. INPUT: 0.0 to 10.0 or 1.0 to 5.0 VDC from input of PQY-402~~
~~2. OUTPUT: 0.0 to 10.0 VDC Determine any 0~10 VDC output from any 1 5 VDC input by ~~~
(0~10 VDC Output) >> [(1~5 VDC Input)-1] ~ (10 VDC)/(4 VDC)
Tolerance +0.50% - +0.05 VDC Note: See Section 4.6 for data table.
4 ' PY-402D
==
Description:==
Isolator Location: CAB 01-0533 Model: Westinghouse NLP3 Known:
1.~ INPUT: 0.0 to 10.0 or 1.0 to 5.0
~ ~ ~ ~ VDC from input of PQY-402
~~2. OUTPUT: 0.00 to 10.00 VDC Determine any 0 10 VDC output from any 1~5 VDC input by ~~~
(0 10 VDC .Output) - [(1~5 VDC Input)-1] (10 VDC)/(4
~ VDC)
Tolerance - +0.50% - +0.05 VDC Note: See Section 4.6 for data table.
SC-N-062 Rev. 5 Page 7 of 15
~~4. 6 PY 402A~~
~~Description:~~
~~Isolator Location: CAB 01-0535 Model: Westinghouse NLP3 Known:~~
~~1. INPUT: 0.0 to 10.0 VDC or 1~0 to 5.0 VDC from input of PQY-402 2 ~ OUTPUT: 0.0 to 10.0 VDC Determine any 0~10 VDC output from any 1~5 VDC input by ~~~
(0 10 VDC Output) - [(1 5 VDC 'Input)-1] (10 VDC)/(4
~ VDC)
Tolerance - +0.50% - +0.05 VDC Percent Q TJ Q Output Output Output Output Output of Input CAB 17-0846 PQY-402 PY-402C PY/402B PY-402D PY-402A 1~5 VDC VDC VDC VDC VDC VDC Os 1.000 0.000 0.000 0.000 0.000 0.000 25'0'5'nput 2.000 '2.500 2.500 2.500 2.500 2.500 ~
3.000 5.000 5.000 5.000 F 000 5.000 4.000 7.500 7 &00 7.500 7.500 7.500 100@ 5.000 10.000 10.000 10.000 10.000 10.000 Note: 1. Both Isolated and Non-Isolated outputs of PQY-402 must be tested.
SC-N-062 Rev. 5 Page 8 of 15
4~7 PI-01RC-0402-. 1SAR
~~Description:~~
~~Pressure Indicator Location: MCB 1A2 Model: Westinghouse VX-252 Known:~~
~~l. INPUT: 0.0 to 10.0 VDC or 1,0 to 5.0 VDC from input of PQY-402~~
~~2. OUTPUT: 0.0 to 3000.0 PSIG Determine any W3000 PSIG output from any 1~5 VDC input by ~~~
(0 3000 PSIG Output) [(1~5 VDC Input)-1] ~ (3000 PSIG)/(4 VDC)
Tolerance +2.00% +60 PSIG Vote: See Section 4,8 for data table.
4 ' PI-01RC-0402- 2SA ~
~~Description:~~
Pressure Indicator Location:
Model:
ACP II Westinghouse VX-252
~~1. INPUT: 0.0 to 10.0 VDC or 1.0 to 5.0 VDC from input of PQY-402~~
~~2. ~ OUTPUT: 0.0 to 3000.0 PSIG Determine any 0+3000 PSIG output from any 1~5 VDC input by ~~~
(0+3000 PSIG Output) [(1~5 VDC Input)-1] ~ (3000 PSIG)/(4 VDC)
Tolerance +2.00$ +60 PSIG Percent of Input Q TJ Q Output Output Input CAB 17-0846 PI-01RC-0402-.1SAW PI-OlRC-0402-.2SA a~s VDC PSIG PSIG Oa 1.000 0 0
~ 0.0 25% 2.000 750.0 750.0 50@ 3.000 1500.0 1500.0 4.000 2250:0 2250.0 1008 5.000 '000.0 3000.0 SC-N-062 Rev. 5 Page 9 of 15
4~9 PR-01RC-04 02-SW
~~Description:~~
~~Pressure Recorder, Pen 1 Location: Recorder Panel Model: Hagan 17450 Known:~~
~~l. INPUT: 0.0 to 10.0 VDC or 1.0 to 5.0 VDC from input of PQY-402~~
~~2. OUTPUT'.0 to 3000.0 PSIG Determine any 0~3000 PSIG output from any 1~5 VDC input by ~~~
(0 3000 PSIG Output) [(1~5 VDC Input)-1] (3000 PSIG)/(4
~
VDC)
Tolerance +2.00% - +60 PSIG Percent of Input Input Q TJ Q Output, Pen 1 C~ 17-0846 PR-01RC-0402-SV 1~5 VDC PSIG Os 1.000 0.0 2.000 750.0 3.000 1500.0 25'0'5'00%
4.000 2250.0 5.000 3000.0 SC-N-062 Rev. 5 Page 10 of 15
4 ~ 3.0 PS OLRC 04 02
~~Description:~~
Dual Comparator Output 1: Open Permissive for RHR valve 1RH-40 Output 2: RCS High Pressure Alarm for RHR valve 1RH-40 Location: CAB 17-0532
~ Model: Vestinghouse NAL2 Known.'nput 1: 0 to 10 VDC or 1.0 to 5.0 VDC from input of PQY-402 Input 2: 0 to 10 VDC or 1.0 to 5.0 VDC from input of PQY-402
~~2. Output 1: Off/On Energizes on DECR Output 2: Off/On Energizes on INCR~~
~~3. Setpoint 1: 363.0 PSIG Open Permissive for valve 1RH-40 Reset 1: 393.0 PSIG~~
~~4. Setpoint 2: 425.0 PSIG High Pressure Alarm for valve 1RH-40 Reset 2: 410.0 PSIG Determine any 1~5 VDC input from any PSIG setpoint by ~~~
(1~5 VDC Input) - [(PSIG Setpoint) (4 UDC)/(3000 PSIG)] +
~ 1 VDC Tolerance 1 +0.50% +0.02 VDC (1~5 VDC) 15 PSIG Tolerance 2 +0.25% +0.01 VDC (1~5 VDC) 7.5 PSIG Setpoint ¹1 Input Q TJ Actuation 1 Open Permissive for Q CAB 17-0846 valve 1RH-40 (1~5 VDC) 363.0 PSIG 1.484 DECR Ener ize Reset 393.0 PSIG 1.524 INCR De-ener ize Setpoint ¹2 Input Q TJ Actuation ¹2 High RCS Pressure Q CAB 17-0846 Alarm for valve 1RH-40 (1~5 VDC) 425.0 PSIG 1.567 INCR Ener ize Reset . 410.0 PSIG 1.547 DECR De-ener ize SC-N-062 Rev. 5 Page 11 of 15
4 11 PS-01RC-0402-AR
~
==
Description:==
Dual Comparator Output 1: Open Permissive for RHR valve 1RH-2 Output 2: RCS High Pressure Alarm for RHR valve 1RH-2 Location: CAB 01-0534 Model: Westinghouse NAL2 Known:
Input 1: 0 to 10 VDC or 1.0 to 5.0 VDC from input of PQY-402 Input 2: 0 to 10 VDC or 1.0 to 5.0 VDC from input of PQY-402
~~2. Output 1: On/Off De-energizes on DECR Output 2: Off/On Energizes on INCR~~
3. Setpoint 1: 363.0 PSIG Open Permissive for valve 1RH-2 Reset 1: 393.0 PSIG Setpoint 2: 425.0 PSIG High Pressure Alarm for valve 1RH-2 Reset 2: 410.0 PSIG Determine any 1~5 VDC input from any PSIG setpoint by ~
(1~5 VDC Input) [(PSIG Setpoint) (4 VDC)/(3000 PSIG))
~ + 1 VDC Tolerance +0.02 Tolerance 1
2 - +0.50%
+0.25% - +0.01 VDC VDC (1~5 VDC)
(1~5 VDC) - 15 PSIG 7.5 PSIG Setpoint ¹1 Input Q TJ Actuation ¹1 Open Permissive for Q CAB 17-0846 valve 1RH-2 (1~5 VDC) 363.0 PSIG 1.484 DECR De-ener ize Reset 393.0 PSIG 1. 524 INCR Ener ize Setpoint ¹2 Input Q TJ Actuation ¹2 High RCS Pressure Q CAB 17-0846 Alarm for valve 1RH-2 (1~5 VDC) 425.0 PSIG 1.567 INCR Ener ize Reset- 410.0 PSIG 1.547 DECR De-ener ize SC-N-062 Rev. 5 Page 12 of 15
4 ~ 12 PS-0 XRC-4 02-AX
~~Description:~~
Comparator, Open/Close Permissive for the CSIP Model'ingle Location:
Alternate Miniflow MOV CAB 01-0531 Vestinghouse NAL1 2CS-V757SA1 Known'. Input: 0 to 10 VDC or 1.0 to 5.0 VDC from input of PQY-402 Output: Off/On Energizes on INCR
~~3. Setpoint: 2300 PSIG Open Permissive Alt Miniflow MOV Reset: 1750 PSIG Close Permissive Alt Miniflow MOV Determine any 1~5 VDC input from any PSIG setpoint by ~~~
(1~5 VDC Input) [(PSIG Setpoint) (4 VDC)/(3000 PSIG)) +
~ 1 VDC Tolerance - +0.50% - +0.02 VDC (1~5 VDC) - +15 PSIG Setpoint Input Q TJ Actuation Open/Close Permissive 8 C~ 17-OS46 for Alt Miniflow MOV (1~5 VDC) 2300 PSIG 4.067 INCR Ener ize Reset 1750 PSIG 3.333 DECK De-energize SC-N-062 Rev. 5 Page 13 of 15
4 ~ 13 PY-402
~~Description:~~
Summing Amplifier Location: CAB 05-0244 Model: Westinghouse NSA2 Known.'.
INPUT: 0.0 to 10.0 VDC or 1.0 to 5.0 VDC from input of PQY-402
~~2. OUTPUT: 0.0 to 10.0 VDC~~
~~3. Gain: 4.2857 Bias: 0.0 VDC Hi Limit: 10.0 VDC Lo Limit: 0.0 VDC~~
5. An input of 0~10 VDC corresponds to 0-3000 PSIG An output of 0 10 VDC corresponds to 0-700 PSIG Determine Gain for 700 PSIG to correspond to 10 VDC output by (10 VDC INPUT) (10 VDC OUTPUT)
Gain 4.2857 - (3000 PSIG)/(700 PSIG)
Determine any 0 10 VDC output from any 0 10 VDC input by ~
(0 10 VDC Output) (0 10 VDC Input) ~ (4 2857 GAIN)
~
Determine any 0 10 VDC output from any 1~5. VDC input by ~
(0+10 VDC Output) [(1~5 VDC Input)-1] ~ (10 VDC) (4.2857)/(4 VDC)
Tolerance >> +0.50% +0.05 VDC Percent of Input 6
Input CAB Q TJ 17-0846 Input Q PY-402 Output I PY-402 1~5 VDC W10 VDC W10 VDC Oa 1.000 0.000 0.000 1.233 0.583 2.500 25'0'5%
1.467 1 '67 5.000 1.700 1.750 7,500 100% 1.933 2.333 10.000 SC-N-062 Rev. 5 Page .14 of 15
P 4 '.4 PI-01RC-0402-AW
==
Description:==
Narrow Range Indicator Location: HCB 1A2 Model'estinghouse VX-252 Known:
~~1. INPUT: 0.0 to 10.0 VDC or 1.0 to 1.933 VDC from input of PQY-402~~
~~2. ~~~
~~OUTPUT: 0.0 to 700.0 PSIG~~
~~3. See Section 4.13 for understanding of 1.0 1.933 VDC input Determine any 0 700 PSIG output from any 1~5 VDC input by ~~~
(0 700 PSIG Output) [(1~5 VDC Input)-1] ~ (700 PSIG)/(0.933 VDC)
Tolerance +2.00% +14.0 PSIG Percent of Input Input Q TJ Input (t Output 6 Q CAB 17-0846 PI-01RC-0402-AW PI-01RC-0402-AW 1~5 VDC 5+10 VDC 0 700 PSIG
.Oa 1.000 0.000 0.0 1.233 0.583 175.0 1.467 1.167 350.0 25'0'5'008 1.700 1.750 525.0 1.933 2.333 700.0 SC-N-062 Re~. 5 Page 15 of 15
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