ML17345A996

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Rev 0 to Data Base Description for Qualified Safety Parameter Display Sys for Turkey Point Units 3 & 4.
ML17345A996
Person / Time
Site: Turkey Point  NextEra Energy icon.png
Issue date: 01/13/1983
From: Mathies B, Rohde K, Starkweather G
ABB COMBUSTION ENGINEERING NUCLEAR FUEL (FORMERLY
To:
Shared Package
ML17345A993 List:
References
16081-ICE-3219, 16081-ICE-3219-R, 16081-ICE-3219-R00, GL-82-28, NUDOCS 8303160295
Download: ML17345A996 (54)


Text

'I cn cn ~ M CI ICE"396C/(86ICE-I)/se

/ c cn V 4W CCC oc cce 47ywcwmeM~

cn CCO

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DATA BASE DESCRIPTION .oeoj cn ~ cce CC FOR THE C ~

C7 CC7 C CD C

coo QUALIFIED SAFETY PARAHETER DISPLAY SYSTEM CCC

'vr dl eo ~ cod f

FOR CV 0 cn co ~CCC 0de co eo TURKEY POINT, UNITS 3 & 4 C=

cn ee oc

~cn cn C CJ DATA BASE DESCRIPTION NUMBER 16081" ICE" 3219, REVISION 00 Nuclear Power Systems COMBUSTION EHGINEERIHG, IHC.

Windsor, Connecticut Prepared By~ Date J~

G. W. tarkweather (Lead Engineer, Safety Status Monitoring Systems) e Independent1y Reviewed By B. L. Mathies Safety Status Monitoring Systems)

Date -I/= /i,.

t

~

Approved By Date "lZ-8 K. . R de (Supervisor, Safety Status Monitoring Systems)

C I Approved By Date / 5 '~

J. L. Pucak (Section Manager, Instrumentation Systems Design Approved By W .

T. P. Gates

. A) v (Project Manager)

Date f J3 I

This document is the property of Combustion Engineering, Inc.

(C-E), Windsor, Connecticut, and is to be used only for the purposes of the agreement with C-E pursuant to which it is furnished.

Issue Date January 13, 1983 Page 1 of 28

( BS0S>eov95 8S03<0 PDR ADOCK 05000250 P PDR

C I

, ICE-396C/(861 CE- I ) /s e RECORD OF REVISIONS PAGES PREPARED INOEP ENDENTLY NO. DATE - INVOLVED BY REVIEWED BY APPROVALS 00 1-13-83 Al 1 .M.Starkweather B.L. Mathies K.R. Rohde J.L. Pucak Data Hase Descriotion No. 16081-ICE-3219, Rev. 00 Page 2 of 23

I (

I

ICE" 396C/(86I CE-I)/se ABSTRACT This document describes the data base for the qualified Safety Parameter Display System for Turkey Point, Units 3 5 4. This document has been quality

, assured according to the gADP, Revision 16.

Data Base .Description No. 16081-ICE-3219, Rev. 00 ~

Page 3 of 28

ICE" 396C/(86ICE- I)/se k

NOTES (1) The input range is from a Type K (chromel-alumel) thermocouple. Signal values are obtained from Reference 5.

'ata Base Description No. 16081-ICE-3219, Rev. 00 Page 4 of 28 ,.

I' D

ICE-396C/(86ICE"I)/se

References:

1) A. M. Milk, letter V-362 to T. P. Gates, November 12, 1982.
2) A. M. Milk, letter V-333 to T. P. Gates, (File F 22056) August 11, 1982.
3) A. M. Milk. letter V-341 to T. P. Gates, September 9, 1982.
4) B. L. Mathies, "HJTCS Reactor Vessel Level Constants for Turkey Point Units 3 and 4", Recorded Calculation 16081-ICE-36189, Revision 00, September 20, 1982.
5) ASTM Special Technical Publication 470, "Manual on the Use of Thermocouple in Temperature Measurement", August 1970.

Data Base Description No. 16081-ICE-3219, Rev. 00 .Page 5 of 28

0 ICE-396C/(86ICE- I)/se DATA CONSTANTS (FOR BOTH CHANNELS UNLESS NOTED)

CONSTANT ID DESCRIPTION VALUE UNITS REF CINV " Percent liquid inventory for sensor 1 67 1

CINV2 2 33 CINV3 3 19 CINV4 4 23 CINV5 5 18 CINV6 6 12 CINY7 7 12 INV8 8 16

'm Maximus power to %eater s 100 Breakpoint heated junction temperatur e 1100 oF THB for controllers 1 and 2 HM Minimum heated junction temperature 1400 QF for controllers 1 and 2 DTUB Breakpoint differential temperature for 500 oF controllers 1 and 2 "UM Minimum differential temperature for 700 oF control 1ers 1 and 2

" Sensors 1-2 in Head; 3-8 in Plenum.

Data Base Description No. 16081-ICE-3219, Rev. 00 Page 6 of 28

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AE S tAE-(r -q)-CEr I2 B> 2 CoA((E Ex>T 7 Em/A 23o p Dl ~go 5't+ I,2 I

LO

~ 5"/D gdF I(E Itr:ig) ckri38h3 ( oAPE Ex IZ 7 Emi III 23+ P DF 5o. qg ~ 65'o 5'ol= t 2. 3

~ 5'/D LO D

<E 2oE(r-2o) CE rIIBI5 CoAQE Ex IT 7 Emp 430& + 6' 5'F O

g.-5 LO 5'/0 TE ue(r-a) cEre8ktt cogk Exi7 p'E~ p IIl 23P o > 65o g (PE 4 $ 'l/o '

pop LO A

TE- ) - Z3E (v.-~~) CC7 /6Zntf Co/I E ExiT 7-Emp <o.fg 6$ 'o S'F J 2 3

-g 3 3- ~ s.vo gOF p) LO I 7E 2'/E(r-ay) cE YlV/A/4 Co~E ~xir renAP Ill l 8 oa DIO. 5'o. q~ 0 65'0 ] 2 3 h(-(, LO 3 2.

c 5'JD

' E-3-25 E(y-)5) 8788PS CoRE E~ir re.p I(l  ?-3 p u DAA- . QD.g~j z 8Xo 5 op ] 2 3 LO 5'/D +OF 7;E-3 -266(T-26) cd'lggl(,7 COA.'E E-y il 7 En~ PpQ Eo. qy > 6$ a $ 'F I 2, )

p'-7 0 + S'ID gDIt LO ~

l E-3 -3/E(7=3I) cd>'2oppg CORE EX'EmP  ? 3d~ +0 Cjg Z 650 +DP I, l, 3

+ PID ln 3 2.

I 3 4 3 I /0&'I - tc E - 3 2 I g g g~ yg

'-:.S DATA BASE: AttALOG lllPUTS PLAIIT 7iPP JcE)'3thlr 3 R'j Page of 2.P RAIIGE I:;STRUHEHT SEHS III UNITS SET- DQIID EIIGINEERING UtllTS UHITS DISPLAY

~G IIItlIBER P ID VARIABLE HAHE TVPE R ELECTRICAL TONE POIHTS REFERENCE

. TE 3-39$ (T-3') ur~tstt') CogZ emir rsvp .2 gO0 5o, 9 Ett -'6 5D )a2 3 I ~ 5'3/0 5'Op LO 32. 0 Exsr TEntP <O ~65'o 2.,3 7E 3 Vi E-(7-II),- c6rx>8tl 33 COTE 2 3c3D Ett J 533'Op I

c. 3/D H-I3 LO 3 2. g

! 7E 3 3-3E-(7-3g c8 ran t-8 go. qg ~><0 I 2,3 I

LO

~ C'/0 5 0F

'7E

3 VIE(7--Q-) cErz gelt coze Emir rEn3P 2.3oo OP z5 Co pop I 2,g m-)I LO c.

g 3/D go+

'E

~ ~~

3 NE(7--'Bg- c~r2yan 9 CENCE~ EXIT T'EmP L 3cfv 9 (tt

+ 8Ko 5 33P )~2, 3 cV- I/ LO Z g3/y g Op.

LO

~ p~

~-

HI LO LO LO

\ ~

IO 3.,

I I t)SPOS DATA BASE: CAI.CULATEO VARIABLES IHADElgATK CORE COOI.ING INPUTS PLANT (continued) 0 0 ~

Page P2 Ll I of '

Chhllhrh 0

~

SET-IO VARIABLE HAHE EHG IHEERIHG RANGE UNITS DEADBAHO POIHIS 00.0'he I

Upper Head Temperature 2300 'F Satu ation ma (lg"bete gin rang s are th maximum difference I eii 'the I putC and satbl'at~on tIH azure VI

~IIEAO satu ation pr ssure. or calculation. { ) indicates supe heat and (4)~n 'ates tub dole .

Re p resentatlve Core Exit 2300 op 65'0 TRCET Temperature 32 I ~5"/D <o F 2 100 u perheat

..TifARIIEAD Saturatfon (IarrllII 700 Subcooled Upper. Ilead PreASurp Srr Q erheat PST 0

I .. PifARIIEAIL Saturatfon.Harrffn Saturn'lon.

Subcoo'Ied RCS Temperature.. Superheat C io I ,. TeyRCS )Iarrf in . Subcool ed I

I I

RCS Pressure .... Superheat PSI 0

0 0

..PHARRCS . Saturation Harg(n. Subcoo1 ed 0I'h00t oF I Core,EIII).Jempgrature (CE~T 2~100 SU

.+

.. JHAJCET Saturation Harrlfn 700 Subcooled I

CET Pressure Sufrerheat PSI

~"

.PHARCET . Saturation Hargln Subcooled 2100 Superheat oF RCS/Upper Ifead Temperature Har I 700 Subcooled s Lye 100

( Iuo /y I

Above RLEVH //dc,rt 0 ~lr c op'u Rep.cger Vr.A'C/ geI e/ JOo

( /IIO lrh

I rR

~

o ~

INADEQUATE CORE COOLING INPUTS (continued) gSPDS DATA BASE: CALCULATED VARIADLES PLANT Page Pa e of CIIRiIIIEL B SET-PID VARIABLE NAHE 'NGINEERING RA!(GE UNITS POINTS DEADBAND Reactor Vessel Level (RVL] Covered LEVELI Indlcatlon - Level I Uncovered RVL Indication Covered LEVEL2 Level 2 Uncovered RVL Indkcatlon Covered LEVEL3 Level .3 Uncovered RVL Indi ca tloD Covered LEVEL4 Le>el,.4 ... ~Ucovered ljVL IIIdlcat<on Covered LEVEL5 Leyel 5 ~ Uncovered i

RVL Iodcoocdoo Covo cod LEVEL6 Level.. II Uncovered Covered Level 7 Uncovered LEVEL7'EVEL8 RVL Indfcatlon Covered Level 8 Uncovered OIfferen)lal lIJTC Temperature 42268 ~ ~ Bo OTI Level I -2268 OiffqrentIal l)JTC Temperature ~2268 0F 2200 OT2 Level 2 B, -2268 c 2b O'$v v v

I

~

I

I

~ I

~ ~ ~

~

IKAOEQUATE CORE COOLIHG INPUTS (continued)

QSPDS DATA BASE: CALCULATED YARIAOLES PLANT Page of CF' IIEL I SET-PIO VARIABLE HAHE EHGIHEERIHG 'RANGE .. UHITS- POIHTS OEAOON(D Ol fferentlal HJTC Temperature +2268 'F OT3 Level 3 -2268 5~5 Dlfferentlal HJTC Temperature +2268 " Of ~~0 I OT4 Level 4 -2268 Ol f ferentlal HJTC Temperature 62268 . ) 1@70

.. 9JS. Level 5 -2268 0 I f ferentlal LUC.ggmpqra <ME ~<268 Of ) Zoo Level.6 =22%8 C 25

! BT5. .

Ol f ferentl al IIJTC Tempera<urp +22N

~

f Zoo C

Level 2... ~268 oF Ol f ferentlal LINC. Gaper>VH +22N

....QTB Level 8 -2268 Heater Power COntrQl. ~91I I

~1 S I gnarl. 1. 8 Heater Power Control. gno PC2 Signal 2 Highest CET Temperature....,.. 2300

~

f

. QlHI Quadrant 1 32 Temperature 10 Highest CET I

QIHID Quadrant 1 - ID '....

~ i ~

INADEQUATE CORE COOLING INPUTS (cont)nued) Zg QSPDS DATA BASEt CALCULATED VARIABLES PLANT Page Df CHAtUIEL 0 HI SET-PID VARIABLE NAHE EHGINEERING RAHGE UNITS OEADONlD Kf P OILS Hext Highest CET Temperature 2300 oF ) 65' ~bP I

.~I(III . Quadrant I 32 g/0 Next lllghest CET Temperature ~ 10

.. 91NID Quadrant I - 10 lllghest CET Temperature IIOO I 264O Q2HI 32 I

I illghest CET Temperytyre . 10

..Q2JIID. Quadrant 2 .- 10 0

tjeXt ))Ig't}est CEI'emperature 2300

) $ 5'o

...lglllI. 32 Next Highest t;U. Tepperyfure 10 Q2HID Quadrant 2.- 19... 0 lllghest CET Temperature 2300 F

) tl5O

( 5'/0

(...

l I

Q3NI Ouadrant 3 32 Highest CEJ, Temperature 10 Q3HID. Quadrant 3 - ID 0 Next .II1ghqst gf Tempera)ure 2300 F )$ /O ~ ~I Q3HHI Quadrant 3 32 Next lllghest C5T Temperature 10 Q3NIO- Quadrant 3 - 10:h..

I I

l

I 1l

I (OS. l I C E g Z l 9, A c~ OO

~ ' ~

INADEQUATE CORE COOLING INPUTS (contInued) '2P QSPDS DATA BASE: CALCULATED VARIABLES PLANT Page of CH'MIIEL B 1 III SET- DEADBAHD PID VARIABLE HAHE EHGIHEERIHG RANGE UNITS Kf POIHTS lllghest CET Temperature 2300 'F ~ 65o 04lll Quadrant 4 32 5'/0 lllghest CET Temperature 10 Q4lllD Quadrant 4 - ID 0 Next Highest CET Temperature 2300 ~

F >650

~ gg/0 Quadrant 4 32 5 "r=

Next lllgtg~t QJ Temperature 10

~

OJHID Quadrant./ -.

IP

I 1

I'w p

l) '