ML17213B140
| ML17213B140 | |
| Person / Time | |
|---|---|
| Site: | Saint Lucie  |
| Issue date: | 12/07/1982 |
| From: | Castagno J, Rohde K, Starkweather G ABB COMBUSTION ENGINEERING NUCLEAR FUEL (FORMERLY |
| To: | |
| Shared Package | |
| ML17213B139 | List: |
| References | |
| 11181-ICE-3219, 11181-ICE-3219-R, 11181-ICE-3219-R00, GL-82-28, NUDOCS 8303160379 | |
| Download: ML17213B140 (41) | |
Text
E DATA BASE DESCRIPTION FOR THE QUALIFIED SAFETY PARAMETER DISPLAY SYSTEM
'FOR ST.
LUCIE UNIT 1 l}ATA BASE DESCRIPTION NUt<BER 11181-ICE-3219, REVIS Nuclear Power Systems COMBUSTION ENGINEERING, INC.
Windsor, Connecticut Ilv Vv CJ ve cceo a
C a C nc we 8
nl C C (N (P" 5'
vn co a ~
CJ 4
lO P-4
- ww O e1 ee Iy 0
0ee t-'e CJ Zl4l CI ce IA wv EJ
(
Ll Date t~ 7 ~
Prepared By+ W. dS.:d g, WC'ver Date G.
W. Starkweather Lead Engineer, Safety Status Monitoring Systems)
Independently Reviewed By P Q4 Date
-~~
9~
J.
G. Castagno Lead Engineer, Safety Status tlonitoring Systems)
I Approved By Date JZ-C"5-oh e Supervisor, Sa ety tatus onitorsng Systems)
Approved By
, /
Date J. L. Pucak Section Manager, Instrumentation
/
Systems Design)
I Approved By P. Gates Project tlanager e 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 0
Page 1 of 26 8303~~
7 05000335 9 8303i0 PDR ADOCK PDR P
RECORD OF REVISIONS NUHBE DATE PAGES INVOLVED PREPARED BY REVIEWED BY APPROVALS 12/7/82 All G.
W. Starkweather J.
G.
Castagno K. R. Rohde, J.
L. Pucak Da a Base Description Ho. 13.1B1-ICE-3219, Rev. OG'age 2 of 26
a E
i k
ABSTRACT This document describes the data base for the gualified Safety Parameter Display System for St. Lucie, Unit 1.
This document is quality assured according to the gADP, Revision 16.
Data Base Description No. 11181-ICE-3219, Rev.
09 Page 3 of 26
NOTES (1)
The input range is from a Type K (chromel-alumel) thermocouple.
Signal
'values are obtained from Reference 1.
(2)
Hot leg input from Instrument Tag Number T1122HA to Channel 1 is for display only.
T1112HB to Channel 2 is also for display only.
These inputs are not used for saturation margin calculations.
(3)
Core exit thermocouple channel assignments were obtained from References 2
and 3.
Data Base Description No. 113,81-ICE-3219, Rev.
00 Page 4 of 26
1 l
e h
References:
1)
G.
N. Lemon, "qualified Safety Parameter Display System Input Data -
RCS Leg Temperatures",
letter NSS-1-82-11 (EBASCO) to R.
R. Mills, dated July 20, 1982.
2)
St.
Lucie Plant Unit No.
1 Updated
- FSAR, Amendment 0, latest Revision.
3)
E-19367-165-054, Revision 01, "CET/SPND and HJTC Containment Cabling, Approved Reference Drawing, September 1, 1982.
4)
B. L. Mathies, "HJTCS Reactor Yessel Level Constants for St.
Lucie Unit 81, Recorded Calculatiyn 11181-ICE-36189, Revision 00, dated September 20, 1982.
5)
ASTM Special Technical Publication 470, "Manual on the Use of Thermocouples in Temperature Measurement",
dated Auqust 1970.
Data Base Description No, 11181-ICE-3219, REv.
00 Page 5 of 26
a
QQ~@vm I
tv
( t(g2 >CC 3> ( I, go~
rsu QSPDS DATA BASE:
ANALOG IHPUTS CHANNEL A
INADEQUATE CORE COOLING INPUTS PLANT
.5
~ L~cie, Q ;t RANGE I'a9e 4
of -6 INSTRUIIENT TAG UMBER TE-I I I ~ II4 T.E-I I 22. HR.
PID THOT I TItoT2.
VARIABLE HAHE Not Leg Temperature Loo p a
(]A])
((og t.g re~pgf f~rC.
loop a CIB()
SENS HI TVPE 'DT LO Hl LO ENGINEER IKG 7o5 112 705 212
"'F INPUT UNITS ELECTRICAL UNITS DTSPLAV UNITS 7%r SET-POIHTS REFEREHCE V E - (!12. cg yP - I!ZZC4 TCOLDI Cold Leg Temperature Loop/l (Q 2 )
Cold Leg Temperature LO Hl 70<
2I2 7 0'i 4F
'F INPUT I+PUT TCOL02 Loop 8 (zan LO 2IQ LO
!'T- (IO7 T I. -13))'I TI -!4zg PRESS TUI1 TU2P Pressurizer Pressure Unheated ILITC Temperature Level I Unheated ILITC Terperature Level 2 LO LO HI I.O HI LO Hl LO
~II 9Do o 230D 32 32 PSIA
'F
'F 50.99 0
av 50.99~'!
V 0
INPUT IHPUT IHPUT KTC 2.gee
>700' 5 ('!
I O.
~,
AR v
I)SPDS DATA BASE:
ANALOG IHPUTS CHANNEL INADEIiUATE CORE COOLING INPUTS (continued)
PLANT S~
~ r'r'c 44' RANGE Page 7
of INSTRUHENT TAG NIRIBER TZ-I3)i'i P IO TU3$
Tu<A VARIABLE HANE Unheated NTC Temperature Level 3
Unheated NTC Temperature Level i SENS TYPE HI 2300 LO III 2300 Of Of LO 32 ENGIHEERING UHITS ELECTAICAL 50 99(1) 50.99 0
mY INPUT INPUT UNITS DISPLAY UNITS
%%V SET-POINTS
>>00 KTC
~700 S oP REFEAENCE Tl - /3 7<9 Tg-I SSif yg - fvl g TUSH TUG'UM TUB 1)
TIIIR TN2 il TII3n Unheated ILITC Temperature Level 5 Unheated ILITC temperature Levelo6 Unheated ILITC Temperature Level 7
Unheated NTC Teeperature Level B
IIeated NTC Temperature Level I Ikated IUTC Temperature Level 2 Ileated ILITC Temperature Level 3
Heated HJTC Temperature Level I LO
. 2300 32 LO Hl 32 LO 32'I 2300 LO 32 HI 2300 LO 32 I.O HI LO 32 LO 32 Hl 2300 I
'F oF Of oF Of Of oF 50.99
~,99 0
50.99 0
50.99 0
~
50.99 0
.~I) 39 0
mY mY mV INPUT INPUT IHPUT INPUT INPUT INPUT INPUT INPUT KfC KTC KTC KTC KTC
~700
>700
) POO F00
L 1
I, H,
h
)SPDS DATA BASE:
ANALOG INPUTS CtÃIIIIEL A
INADEQUATE CORE COOLING INPUTS (continued)
PLAIIT.Cr loire'4;+
'7g Pa9e 2
of ItISTRUHOIT TAG NÃIBER 7 J-I/<)9 PID VARIABLE HAHE SEN5 HI TYPE DI Heated HJTC Temperature T
Hl ENGINEERING
'F 50.99~ i NITS ELECTRICAL mY INPUT NITS DISPLAY UNITS QSY SET-POINTS DSND REFERENCE Ttl5rI Level 5
LO 32
.Q KTC 71-IVSA TH659 Heated ILITC Temeerature T
Hl Level 6 2300 32
~f
. DQ*99 0
V3-lV~/
T1-Ill3
~s-FM TE -&t'K
<E LlV 7E -Zib zg-Llb TH7 il TIS d E~O CETI G.l~
CEI2 LiC CET3 CETi L>6 CET5 Heated IMTC Temperature Level 7
Iteated
)LITC Te~meraturq Level 0 Core Exit Temperature Core Exit Temperature Core Exit Temperature Core Exit Temperature Core Exit Temperature Hl LO HI T
HI T
Hl T
Hl 2300 32 32 2300 32 2300 32 2300 32 2300 32
~f
~f
~f 4f 4f
'F
- 50. 99
~99 0
50.99 0
50.99 50.99 0
50.99 0
50.99 0
mV mV mY mY mV mV INPUT IHPJU I~PU IHPUT INPUT INPUT INPUT
, KTC
~
KTC KTC KTC KTC
) 47o
) C70
) C7o
> 47D CP TE-f lg'i9 CET6 Core Exit Temperature T
Hl
'F '0.99 0
,. IHPIIT..
) E7o 5 'F
1 7
L k
~ i"
) I I g2 - ICE - 32I I Xev 00 qSPDS DATA BASE:
ANALOG INPUTS IIElltlEL INADEl)DATE CORE COOLING INPUTS (continued)
PLANT XP'. l EIEIC. CAg,f RANGE Page
~
of -C IHSTRUHEHT TAG HUIIBER v.c - Std P 10 VARIABLE HAHE eE )5 Core Exit Temperature SEN5 NI tYPE (5 T
Hl ENGINEERING 2300 UNITS
~f ELECTRICAL UNITS 50 99(i)
DISPLAZ INPUT UNITS 7%7 SET-POIHT5
) 4'7g DBND REFEREHCE r L Cl&
I c -Fll re - Gtg CET7 c Ig CETB FL)
CET9 Core Exit Temperature Core Exit Temperature C ) it Core Exit Tpmpgfature LO T
NI LO T
Nl LO T
III 32 2300 32 2300 3?..
2300 Of Of
'E 50.99 50.99 0
.~,99 mV mV mV INPUT INPUT INPUT KTC KTC
>4)v
> 47cP
>4)o Te - A)0 re-CQ, T(- - 86 Te- ~3 7c-72 re-g'I CET 10 g)o CETII
('3 CET12 gs CET13 S.3 CET14 72.
CET15
~ CET16 Core. Exit Temperature Core Exit Temperature Core Exit Temperature Core Exit Temeera ture Core Exit Tempera ture Core Exit Temperature LO T
III LO T
Nl LO T
ill LO T
Hl LO T
III LO T
Ill LO 32...
2300 32 2300 32 '.
2300 32...
2300 2300
.32..
2300 32
'E Of Of
'F
~f
.0 50.99 0
50,99 0
50.99
- 50. 99.
0 50.99 0
50.99 0
mV INPUT INPUT INPUT INPUT INPUT KTC KTC KTC I
> goo
) /per
)47c7
> 4.>cp
> 870 5 "/-
yi~~&wggg~)
I
@7@~tÃW!~
II/82- /C< 32IQ Pev 00
$5POS DATA BASE:
ANALOG IHPUTS CHANNEL INADEQUATE CORE COOLING INPUTS (continued)
PLANT Sj' "c'e I4 t I
RANGE Page 4>
of ~4 INSTRUHENT TAG NUIIBER re-WR rc X)l 7P -Q))
re-X7
<<-ws
/2-g P 10 CETI7
>( ll CETIB Vlf.
CET 19.
X7 CET20.,
CET21 CE122 VARIABLE NAHE Core Exit Temperature Core Exit Temperature Core Exit Temperature Care Ex)t.Temprcature Core.Exit TempCHture Core Exit Temperature SENS NI TTPE E6 T
Hl LO T
Hl LO T
Hl LO ENGIHEER ING 2300 3?....
2300 32 32 23DII 23DIL 23DD "
'F oF
~F
- 50. 99 aY 50.99
~989 mY 0
A~099
.aV ELECTRICAL UH1TS 50.99~ I ~
mV 0
OISPLAT INPUT INPUT IHPUT IHPUT IHPUT....
UNITS AN KTC KTC I
KTC KTC SET-POIHT5 67O
>los 6 70 5'F REFERENCE I ~ ~
1 T
~ I 0
QSPDS DATA BASE:
CALCULATED VARIABLES CIIANNEL IINDEIIUATE CORE COOLING INPUTS (cont lnued) pLANT St
~
/ Il ~ C~
/CPg,'8 I
Pape
) I of P ID TIIEAD TRCET THARIIEAD PHARIIEAD THARRCS PHARRCS THARCET PHARCET THARUR RLEV VARIABLE NAHE Upper Head Temperature Representative Core Exit Temperature Upper )lead Teq>erature Saturation Harg(n Upper Head preSSure Saturation Hargln
~
RCS Temperature Saturation Hargln RCS Pressure Saturation Hargln Core Exit Temperature (CET)
Saturation Hargln CET Pressure Saturation Hargln RCS/Upper )lead Temperature Saturation Hargln Reactor Vessel Level ENGIHEERIHG RANGE 32 32 (I) 2100 Superheat 700 Subcooled Sunerheat Subcooled Superheat Subcooled
'uperheat.
Subcooled 2100 Superheat 700 Subcooled Superheat Subcooled 2100 Superheat 700 Subcooled 0
UNITS Of 4f PS+
'F
'S Above Core POINTS DEADBAHD I SET-I r4 V C)gP (I) Satu ation ma betw en the I satu ation pr supe heat and gin rang puts and ssure.
(4) fndI pet'ature Vr
) Indicates the satu/ation thai or calcu'Iatlon, (4
ates Sub s are th/ maximum idlfferenoe
J 7
I<<<<< - ~nor<<<<ooIe~~'"4"
<KR I
~ I O
l Ia~~ Claii~MQPBLCR
'RefWIig)t )
I I /(fP JCC-32 ] i
], g<<'0 CISPDS DATA BASE:
CALCULATED VARIABLES Cllli<<<<EL A
IKADEQJATE CORE COOL IKG IKPUTS (continued)
PLAKT 5r. ! ~ir<<'<. lL~i'f I Page I-'f P ID LEVEL1 LEVEL2 LEVEL3 LEVEL4 LEVEL5 LEVEL6 LPEL7 VARIABLE KAHE Reactor Vessel I.evel (RVL)
Indication - Level I RVL Indication level 2
RVL Indication level 3
RVL IndicatioII Level 4
RvL Indlcatloq Level 5
RVL Indication Level 6 RVL Indication Level 7
RVL Indication KI t.5 ERG IKEERIKG RAKGE UKITS Covered Uncovered Covered Uncovered Covered Uncovered Covered
'1 Uncovered Covered Uncovered Covered Uncovered Covered Uncovered Covered pOI TS IIcADBAKD SET-I LEVELS DTI DT2 Level 8 Differential I(3TC Temperature Level I DiffIIrential ETC Teaperature Level 2 Uncovered
+2268
-2268
+226S
-2268 Of
'F p2 QQ r Zc>0
<<P/
I I
0
O
~
~ I
~lP 1ETe
<i~
i) ]Pz- )CE-321<
/ie oo QSPDS DATA BASE:
"ALCULATEO VARIABLES CHAIIIIEL A
IHADE(}UATE CORE COOLING IHPUTS (continued)
PLANT Pg g lac ec II.Py Page of P 10 OT3 DT4 VARIABLE HAHE Differential LUTC Temperature Level 3
Olfferentlal IUTC Temperature Level 4
Differential IUTC Temperature HI DT ENGINEER IKG RANGE 42268
-2268 42268
-2268
+2268 UHITS Of Of PDINIS DEAOBAHD
> "F
'Eclat
~
~
DTS QT6 P.TT DTS PNI PC2 IIIHI Level 5
Differential NTC Temperature Level 6 Differential IUTC Temperature Level 1
Dlfferentlal HJTC [opera ture Level 8
Heater Power Cgntro)
Signal I
Heater Power Control Signal 2
Highest CET Temperature quadrant I Highest CET Temperature
-2268 Qi268
. +268 M+2Ã
~268
+2268
- 2268 0
$ 00 0
2300 32
.10 Of Of Of fi c.-u
> 2.c.ru
.'su O I 1'IIHID Iluadrant I - 10 0
> >>f?-- IcE-32/g
/i~gd 04
~
QSPDS DATA BASE:
CALCULATED VARIABLES CHANtlEL A
INADEQUATE CORE COOLING INPUTS (continued)
PLANT Xt Page I
~
of P IO QINIII
- 9) HID VARIABLE HAHE Next Illghest CET Temperature Quadrant I
Next Highest CET Teaperature Quadrant I - ID 2300 32 10 0
'F ENGINEER IXG RANGE UNITS SET-I OINTS
)L")LJ DEADBAHO
~
~
Q2HI Q2HID Q2NIII Q2H ID Q3lll Q3IIID Illghest CET Temperature Quadrant 2
Ilighest CET Temperature Quadrant 2 - ID Iiext ilighest CET Temperature Quadrant 2
Next Highest CET Temperature Quadrant 2 -
10 Highest CET TeLIyerature Quadrant 3
Ilighest CET Temperature Quadrant 3 - ID Next ilighest CET Temperature 2300 32 10 0
2300 32 10 0
2300 32 10 0
2300
~f Of Of
> E7D
~ Cvo
> Ega Q3NHI Quadrant. 3 Next Highest CET Temperature Q3NID Quadrant 3 - ID
.3?
10 0
QSPDS DATA BASE:
CALCULATED VARIABLES CHANNEL A
INADEQUATE CORE COOLING INPUTS (continued)
. t Page
+
of ZC PIO Q4lll Q4HID Q4 Hill IHHID VARIABLE MANE Highest CET Temperature Quadrant 4
lllghest CET Temperature Quadrant 4 - ID Next Highest CET Temperature Quadrant 4
Mext Illghest CET Temperature Quadrant 4 -
LO ENGINEERING RANGE 2300 32 10 0
2300 32 10 0
UNITS
~F oF SET-P01H TS
~ 870
> $ 7O DEADBAMO/
5 ~F I
1,
I I I f2.
) CE-32)Uj r)X C 8 P ID TOOT)
T )lqT 3.
TCOLDl TCOLD2 VARIABLE NAHE Hot Leg Teayerature TUUP U
!'WP)
)Iot LCj'TC~<rr IUUU-C, Loop 8
()el+
Cold Leg Temperature Cofd Leg Temperature Loop Q SEHS TYPE LO Hl LO LO Hl LO ENGINEER IHG 705 2)2 705
- 2. )?.
.vo 5 Zl2.
705 Z, I2 UNITS
'F
'F ELECTRICAL UNITS
. DISPLAY INPUT INPUT IUPUT
'NITS 7%V SET-POIHT5 REFERENC.
1 pT- ))o8 TL- )31 8 Tl.- )'3>g PRESS TU1 6 TU2 8 Pressur)zer Pressure Unheated ILITC Teaeperature Level 1
Unheated IMTC Teeperature Level 2 LO HI LO Hl LO HI LO LO LO oooo 2300 32 32 PSIA SO.ggtl~
aV 0
S0.99 0
INPUT INPUT IHPUl'TC KTC
>-(00 700
y U
~
0 C%
~ SfEKXXiRGR3LCBf%C'B4ÃjR r'@g'@PPP Vt g ftSPDS DATA BASE:
ANALOG INPUTS 44'4 EL 8
INADEQUATE CORE CODLING INPUTS (continued)
PLANT gy. Lair.'r 64>l I
RANGE
~
~
Page I
of INSTRUIIEHT TAG HUlIBER T7-133 g PIO VARIABLE HAHE Unheated ILITC Temperature SENS TTPE Hl 2300
~f DIGIHEERIHG UNITS ELECTRICAL 50.'P9 UNITS DISPLAT UNITS mr SET-POIHT5
.700 DBND REFEREHE..
Tl - IR'f 8 TU38 Level 3 Unheated ILITC Teaperature LO Hl 32
'F 0
50.99 INPUT 7tIO 5 "I-YX -1358 Level 5
Unheated ILITC Temperature LO 32 Hl
'300 0
50.99
<<7oo 5 "I
. TU58 Level 5 LO 32 T.7,
-, 134$
Unheated NTC Teayefatury Level 6
HI LO 32 (3M
'F KTC
>700 6 "F
>I-I'476.
Unheated IUTC Jerqerature Hl 2300
~f eY INPUT T2-I3S 8
. TU7B Level 7
Unheated IUTC Temperature TUB 8 Level B
INPUT KTC KTC TT.- IY(+
Tr - I(ie Heated ILITC Temperature TillB Level I Heated fMTC Te~rature III 23M F
LO 32 HI
~f 0
50.99 0
- 50. 99 INPUT aY INPUT TH28 Level 2
LO 32 0
I ~ - I"I~I' g - It]'rS TH3 EI Heated ILITC Teayeratura Level 3
Heated IMTC Te~rature LO HI.
32
'F
~f
- 50. 99 0
59 99 INPUT INPUT KTC TIH JI Level 4
LO KTC
$5705 DATA BASE:
ANALOG INPUTS
'9'U9EL IHADEQJATE CORE COOLING INPUTS feontInued)
PLANT Sr:
9
~ '. lC.'4 I
RANGE
~
~
Pa9e >>
or 2 <
HISTRUNEIIT TAG lIL'IBER TI - I'f55 PID
)ARIABLE HAIIE Heated NTC Temperature Level 5
TTPE Dl.
EHGINEERIHG SENS Hl T
Hl 2300 LO 32
'F 50 99(1) mV INPUT UNITS ELECTRICAL UNITS DISPLAT UHLTS YhTF KTC SET-POIHTS REFERENC Heated NTC Temperature T
Hl 2300
~f IHPUT Level 6 LO 32 K~
l8~8 Heated NTC Temperature T
Hl 2300
~F
- 50. 99 aY INPUT Level 7
[LI'fC TemLer~a urn HI 2300
~9.99
~9
>IIBII THB g.
Level B
LO 32 Core Exit Temperature Hl, 2300
~ F 50.99 aV I
PU p Op CETI' Ig Core Exit Temperature LO '2 Hl 9
2300
~ F 0
50.99 IIIPlg
) c,go T E Lgfg CET2
..yt5 CET3 GETS Core Exit Temperature Core Exit Temperature LD T
'300 32 32
'F
'F 0
- 50. 99 0
- 50. 99 0
mV INPUT INPUT KTC KTC
> iso
../f7..
CET5 Core Exit Temperature Hl LO 2300
~F
- 50. 99 mY INPUT KTC P 0 /0 CET6 Core Exit Temperature T
HI 2300 LO iF 50.9I9 IHPK.
KTC 9
~OHIO
~
~
. l'<~ii~~i ~
I iif2.- IcE-321, pie>
c:o i,SPOS DATA BASE:
ANALOG IHPUTS "I.-,'IEL 8
INADEQUATE CORE COOL IHG INPUTS (continued)
PLANT Sf. Cubi<. +;t' RANGE Page of IHSTRUHEHT TAG HUilBER TE -Nl5 TE-f4lj rg -.5(g PID CET7 Pl i5.
. CETB
. Hlz
. CET9
)ARIABLE NANE Core Exit Temperature Core Exit Temperature Core Exit Temperature Core Exit IyapgEy>ure T.
Hl LO 32 T
Hl LO 32 T
Hl LO 32 Hl 2300 SENS HI TYPE DI'HGIHEERING UNITS
~f
'F ELECTRICAL UNITS 50.99tli mY 50.99 0
50.99 0
mV mY
~99 mV DISPLAY INPUT INPUT INPUT UNITS Yh~l KTC SET-POINTS
) E'7O
) 6ao MHD REFEREIP E 3
5 CETIO CETII...
Core.Ex)$ Temperature LO Hl LO 32 2300 32
~099 0
INPUT KTC
+ 67o g~F re -DT CET12
.cd.
Core Exi) Jem~erature Core Exit Temperature Hl 2300 T
HI 2300 LO 32
'F 50.99 50.99 mV INPUT
'HPUT KTC
>C7O
)uW Ta -$5 CET13 Core Exit TemLx.rature LO T
Hl 32
~f 0
- 50. 99 mY INPUT KTC ) 6vo l < -gll CETI4 Core Exit Temperature LO 32 T
HI 0
50.99 INPUT TE-87 CET15 87.
CETI6 Core Exit.Tempera ture 1.0 T
HI LO 32 32
~
0 50.99 0
-mY
. IllPUT KTC
- KTG,
) $ -gyp
.'3
)V,i' i
I MEiLI(;ZRE.
0 Qgpff ye v V OS?OS DATA BASE:
ANALOG INPUTS CNAllNEL B
INAOEIIUATE CORE COOLING INPUTS (continued)
PLANT 5P.
L>aa il.
v 4(Ilia I RANGE
~ '
~
~
Page ~'f INSTRLlENT TAG BRIBER 7-E- &y 7E -gg ze-L$
PIO
&p CET17 CETIB L6 VARIABLE HARE Core Exit Temperature Core Exit Temperature Core Exit Temperature SEHS III TYPE R' Hl LO T
Hl LO T
HI 2300 32 32
. 2300
~f
~f
~f 50.99 50.99 0
50.99 EHGIHEERltlG UNITS ELECTRICAL UNITS aV mY mV
. DISPLAY INPUT INPUT IHPUT UNITS 7%F SET-POINTS
> $10
) 470 DBNO 5oF 5 op REFEREHCE TE-Q3 CET19 F3 CET20 CET21 Core ExitMmpmatIICO
.,I core.Exj L +mlcUIIIre LO Hl LO Hr LO 1309 ~ ~09 MtL ~ ~tL9>
I~PU INPUT Z 810 Z 47o
.Tj Core Ex[<.Jgmp~er t~e T.
Nl 21QtL.
mY.
EET22 D5 Core gx)t pemperaturq
INPUT
~,
~
2, I
wpj g A
QSPOS DATA BASE:
CALCULATED VARIABLES CANNEL B
INAOEQIATE CORE COOLING INPUTS (continued)
PLANT 51
~ 82ic;e Cfnif I
~
~
~
'2.1 f21 Pago of PID GILEAD TRCET VARIABLK HANK Upper Head Teatperature Representative Core Exit Te rature lope Upper Head Teasperature HIKG'2
~.
32 2100 uperheat
~ F
~p KHGIHEERIHG RAHGE NITS POINtS UEADBAHD SET-
) C)O (I} Satu betw satu supe ation aaa gin rang en"the 1 puts and ation pr ssure.
heA and (4)~n
)Ifferen je pEFITUl.e"Or-
) indicates s are th raxixxxa o
ates Rub ooIFd.
the satudat!On itrf r calcu ation, (i THARHEAD Sa tura t1on Iiargfn Upper. Ikad preSSurr.
PlQRHEAO Saturation HaCg1n RCS Teaqerature TlQRRCS Saturation.)iarg)n RCS Pressurr.
PHARRCS Saturat1on Hargln.
Core,Exig ges2ppraturc (CETg THARCET Saturation Hargin CET Pressure PkgRCET Saturation Hargin 700 Subcooled
~tu erheat Subcooled Superheat I
Subcool ed Superheat.
Subcooled 2~2M Su erheat 700 Subcooled Superheat Subcoo1 ed PST
~f PSI
~f PSI TiiARUR RLEV RCS/Upper Head Tecperature Saturation Margin Reactor Vessel Level 2100 Superheat 700 Subcooled 0
~f Above Core e'. )g0+
- c. IPO Po
QSPDS DATA BASE:
CALCULATED VARIABLES
.CIRIHEL B
INADEQUATE CORK COOL IHG IHPUTS (continued)
PLANT 5i'- 4ur..c
. @~if-. I
~ '
~
Page of P ID VARIABLE NAHE Reactor Vessel Level (RVL}
NI DI EKGINEERIHG RAHGE UHITS Covered POI EADBAHD SET-LEVELI Indlcatlon-Level I Uncovered LEVEL2 LEVEL3 RVL Indlcatlon Level 2
RVL Indlcat lon Lev ! 3 e!
RVL Indlcatloq Covered Uncovered Covered
~Ucovered Covered LEVELS Level I RVL Indlcatlon Uqcnvered Covered LEVEL5 Leyel. 5 RVL Indi patios Uncovered Covered LEVEL6 Level.6 Uncovered LEVEL7 LEVELS DT1 RVL lndlcatlon Level 7
RVL lndlcatlon l.evel 8 Dlffgrentlal fQTC Temperature Level I Covered Uncovered Covered Uncovered i2268
-2268 oF
- 2ov foF DT2 Differential NTC temperature Level 2 42268
-2268
~F 2 Qvb 54$
1
/8 $
1(i 3g I ci g4 p Og QSPDS DATA BASE:
CALCULATED VARIABLES CF'FIIEL B
~
INADEQUATE CORE COOLING INPUTS tcont Inured)
PLANT 5g.
L<<c re ljgi] J S3 fZ(
age 0
P ID OT3 DT4 VARIABLE NAHE Ol fferentlal ILITC Temperature Level 3
Dlfferent1al ETC Temperature Level 1
ENGIHEERIHG RAHGE.
+2268
-2268 t2268
-2268 UNITS'.
~f
~f SET-POIHIS
) 2uu
> woe DEADBAND OTS
...QI6 OIB PC2
- QINI QIHID 01fferentlal ILITC Temperature Level 5
Olfferentlal NIC TgFperatgra..
Level 6 Olf1'erent Ial IQTC Temperalurg.
Level.l Dlfferentlal LIIC Iefiperstkrg Level 8 Ileater Pos~r CantrQ).
Si nal I g
I lleater Pomr Cgptrgl.
Signal 2
Illghest CET Temperature Quadrant I lllghest CEl'emperature Quadrant I - ID 4226$
-2268
~i 768 68 68
+2268 M2N 0
0 2300 32 l0
~f
'F
~f
)?uu 5"F 5 "F
)Zuo
) S.7o FoF
I+
I ~
~"
Q'.POS DATA BASE; CALCULATED VARIABLES CV~H((EL 8
INADEQUATE CORE COOLING IHPUTS (continued)
PLAHT5g. L<tric t4;t I
~
~
Page of P ID VARIABLE HAHE Hext Highest CET Temperature EHG IHEERIHG RAHGE UHITS
~f POINTS PEADBAHD SET-QIHHI Quadrant I
Hcxt lllghest CET Temperature 32 10 OINIO.
Q2(ll Quadrant 1 - ID Highest CET Temperature Quadrant 2
2300 32
~ 67v g "F Highest CET TenycratYre.....
Q2((lp Quadrant 2.- IP (jext glghest CET Teaycrature Q2HHI Quadrant 2
Hext Highest gT Tqaqeratqre 10 10
~f Q2H ID Quadrant 2.-
IL(
Highest CETTglilperature 2300
'F
..Q3HI Quadrant 3
32
. Q3lllD Q3HHI Q3HIO Highest CET Terqerature Quadrant 3 - 10 Hext Highest CET Temperature Quadrant 3
Hcxt lllghcst CET Teayerature Quadrant 3 - ID 10 2300 32 10
~f G iu 5 "f-
~ t
E 0
IISPDS DATA BASE:
CALCULATED VARIABLES CH'.IIIIEL B
INADEQUATE CORE COOLING INPUTS (continued)
PLANTS/. t zc:e Ital 'I I a,
~
~
,2 y-I P ID VARIABLE NAHE Highest CET Temperature HlH ENGINEERING RANGE 2300 UNITS
~ F SET-PDINTS 47+
DEADBAND g4lll quadrant 4
Highest CET Te~merature q4H10 IIuadrant 4 - ID Ilext Highest CET Temperature Next IIIgllest C+T Tea~erature
~.Q]IIID quadrant
-, Q 32 10 0
32 10 0
'F
~ 470 s
a:F
~
~
I A,
I 0
DATA CONSTANTS
'(FOR BOTH CHANNELS UNLESS NOTED)
'ONSTANT ID
'ESCRIPTION VALUE UNITS REF CINV
- 1 CINV2 CINV3 CINY4 GINY5
- CINV, GINV7 CINVB pm HB DTUB DTUM Percent liquid inventory for sensor 1
Maximum power to heaters Br eakpoint heated junction temperature for controllers 1 and 2-Minimum heated junction temperature for controllers 1 and 2
Breakpoint di fferential temperature for controllers 1 and 2
Minimum differential temperature for controllers 1 and 2
20 19 18 14 10 100 1100 1400 500 700 OF OF OF 0F
" All sensors in single probe assembly.
Date Base Description No. 11181-ICE-3219, Rev.
00 Page 26 of 26