ML17345A996
ML17345A996 | |
Person / Time | |
---|---|
Site: | Turkey Point |
Issue date: | 01/13/1983 |
From: | MATHIES B L, ROHDE K R, 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/ICE"396C/(86ICE-I)/se 47ywcwmeM~
4W DATA BASE DESCRIPTION FOR THE QUALIFIED SAFETY PARAHETER DISPLAY SYSTEM FOR TURKEY POINT, UNITS 3&4 cn cn~M CI c cn-V CCC oc cce cn CCO~de~oc 0.oeoj cce cn~C~C coo CD CCC dl'vr eo~f cod de CV 0 cn~0 CCC co co eo C=cn oc cn ee~cn C CJ CC C7 CC7 C DATA BASE DESCRIPTION NUMBER 16081" ICE" 3219, REVISION 00 Nuclear Power Systems COMBUSTION EHGINEERIHG, IHC.Windsor, Connecticut e Prepared By~G.W.tarkweather (Lead Engineer, Safety Status Monitoring Systems)Independent1y Reviewed By B.L.Mathies Safety Status Monitoring Systems)Date J~Date-I=/t/~i,.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..A)v Date f J3 T.P.Gates (Project Manager)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 NO.DATE PAGES-INVOLVED PREPARED BY INOEP ENDENTLY 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 NOTES k (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" 1 CINV2 CINV3 CINV4 CINV5 CINV6 CINY7 INV8'm THB Percent liquid inventory for sensor 1 67 2 33 3 19 4 23 5 18 6 12 7 12 8 16 Maximus power to%eater s 100 Breakpoint heated junction temperatur e 1100 for controllers 1 and 2 oF HM Minimum heated junction temperature for controllers 1 and 2 1400 QF DTUB"UM Breakpoint differential temperature for 500 controllers 1 and 2 Minimum differential temperature for 700 control 1ers 1 and 2 oF oF" Sensors 1-2 in Head;3-8 in Plenum.Data Base Description No.16081-ICE-3219, Rev.00 Page 6 of 28 I 1 i\
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7g 8 3i/V TC 7E~>peR8v<<n'E LEDGE~g g~yryp 7E-3-6>ozg P$g 8>/JTc TE~pgggPE III LO III LO 2$og III 23 Oo LO 50.<gQ m V 0~700 5'C~g 8>PTC+En>P~ggDlgf LEVEi&-W~d/EAZFP LO'3 2.50-%700 LO LO LO 1 ge oo.:S OATA BASE: AtlALOG IHPUTS PLAIIT PirCeey P Oi~7 3@'(p 2J f21 D90 0:.;STRUiIEIIT ~G I!L'ISER Te-~-2~(r-2)ZE-3-6C (r-6)'z-)-~E(r-r) rp s ioe(-T-~~), 7 E-3-IZF.(r-r~) PIO VARIABLE HAHE cE'r>'8 SS'ogE Exi7 T'EWP cEv agctx 457/+fig 48 I"5'8 I=3 Ccrrld 8/Iy-7 EmP E-Iz COG Eery'EWP't/ORE Exry-7'ccrc f g C6P~BF'/c'A SBQf copE Exzr TE~p F-5'OR E Ep'gT TEnv p r/~'I~~~cozE Ex'E.mp cargSC6 cfrIDS I/S ccvzE Fx17-7S~P Cj-6'ogz Cxir 7 E~P JJ-8 car~6 Bio CogE 8x'iS 7 Entp SEHS III TAUPE DJ'O LO LO LO LO LO LO LO LO EHG IHEERltlG g 300 23o0 32 2300 23oo 3~Z3o v 2300 230 O 2300 2 3>o 3 1.23o 0 32.Utl ITS Ott oP RAHGE ELECTRICAL UH ITS J 50.q f mv0, gg 0 5a.gg~Irr 5u.g+D+g.g Cj'o cj 0 5 o,c]5o.I 1<o,q I~0 50, rig OIS PLAY Utl ITS CIIIYI SET-POIHT5>65o-5'/0 3 65'a"-5't/O g 65D-5'lo>6.s'o-5YO+6s'o-5'/0~650~5'/0>65'D-5'l'0>$5o'-/d>65o~65'o c 5'/0 DBHD 5'r-QO It 5ot Sob$'0 p'O+5 op god<<op.DC go/5 or-50/s'/-5PF gut 5oS 5 o/pop REFEREHCE l,2.,3, I, l r g l>2, 3 t~?.i 3 t,~i 0 lr~,3 )I~I tfbgC Idol/-lCE-32(AI P~~0':S DATA BASE: ANALOG lt(PUTS PLN(T 7II+KEQ POI~7~0/Q2.2P Page of:;ST?UIIEt(T r'G I'(".(tBER PIO 7 E-3->5E(7-I5) C6l II Bt(I~AE S tAE-(r-q)-I CEr I2 B>2 I(E Itr:ig)ckri38h3<E-3-2oE(r-2o)O TE-3-ue(r-a)CE rIIBI5 cEre8ktt A TE-)-Z3E (v.-~~)CC7/6Zntf 7E-3-2'/E(r-ay) 'E-3-25 E(y-)5)cE Yl V/A/4 8788PS 7;E-3-266(T-26) cd'lggl(,7 l E-3-3/E(7=3I) cd>'2oppg'ARIABLE t(AHE Con~~x.T're~p CoA((E Ex>T 7 Em/A (oAPE Ex IZ 7 EmiCoAQE Ex IT 7 Emp g.-5 cogk Exi7 p'E~p Co/I E ExiT 7-Emp p)-g Co~E~xir renAP h(-(, CoRE E~ir re.p COA.'E E-y il 7 En~p'-7 CORE EX'EmP SENS TYPE LO LO Et(G It(EERlt(G (tt(ITS 23o p Dl RAt(GE E(.ECTR ICAL+o,q q III 23+P DF LO 430&5o.qg D LO IIl 23P o LO LO 3 3-Ill l 8 oa DIO.<o.fg 5'o.q~LO 3 2.LO ln PpQ?3d~3 2.Eo.qy~0+0 Cjg I(l?-3 p u DAA-.QD.g~j LO UNITS mV DISPLAY UNITS COI((t SET-POINTS>6<O g I/g~go~5"/D~65'o~5'/D+6'5'/0>65o 4$'l/o'6$'o~s.vo 0 65'0 c 5'JD DBNO 5 AAP gof.5't+gdF 5'ol=5'F g (PE pop S'F gOF 5 op+OF$'F gDIt+DP z 8Xo 5'/D>6$a+S'ID Z 650+PID REFEREI(CE I,2 3 I,2 t 2.3 J 2 3 I]2 3]2 3 I 2,)I, l, 3 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 2.P Page of I:;STRUHEHT ~G IIItlIBER.TE 3-39$(T-3')I 7E 3 Vi E-(7-II),- !7E 3 3-3E-(7-3g I;'7E 3 VIE(7--Q-) 'E 3 NE(7--'Bg-P ID VARIABLE HAHE ur~tstt')CogZ emir rsvp cErz gelt c~r2yan 9 coze Emir rEn3P m-)I~~~CENCE EXIT T'EmP~*cV-I/c6rx>8tl 33 COTE Exsr TEntP H-I3 c8 ran t-8 SEHS III TVPE R LO LO LO LO LO.2 gO0 32.2 3c3D 3 2.2.3oo L 3cfv EIIGINEERING UtllTS OP RAIIGE ELECTRICAL 5o, 9 Ett 0<O Ett J go.qg 9 (tt UHITS DISPLAY UNITS TONE SET-POIHTS-'6 5D~5'3/0~65'o c.g 3/D~><0~C'/0 z5 Co c.g 3/D+8Ko Z g3/y DQIID 5'Op 533'Op 5 0F pop go+5 33P g Op.REFERENCE)a2 3 I 2.,3 I 2,3 I 2,g)~2, 3~p~~-LO HI LO LO LO\~IO 3., I I t)SPOS DATA BASE: CAI.CULATEO VARIABLES Chhllhrh 0 IHADElgATK CORE COOI.ING INPUTS (continued) PLANT 00~P Ll Page 2 I of'IO I~IIEAO TRCET..TifARIIEAD 0 I..PifARIIEAIL VARIABLE HAHE Upper Head Temperature Re resentatlve Core Exit p Temperature Saturatfon (IarrllII Upper.Ilead PreASurp Saturatfon.Harrffn RCS Temperature.. 2300 2300 32 100 u 2 perheat 700 Subcooled Q Srr erheat Subcoo'Ied Superheat EHG IHEERIHG RANGE UNITS POIHIS DEADBAHO SET-'F PST op 65'0 I~5"/D<o F (lg Satu"bete satu supe ation ma gin rang eii'the I putC and ation pr ssure.heat and (4)~n~00.0'he satbl'at~on r calculation. o{'ates tub dole.s are th maximum difference I tIH azure VI)indicates I ,.TeyRCS I I I 0..PHARRCS ...JHAJCET I Saturn'lon.)Iarrf in.RCS Pressure....Saturation Harg(n.Core,EIII).Jempgrature (CE~T Saturation Harrlfn Subcool ed Superheat Subcoo1 ed 2~100 SU 0I'h00t 700 Subcooled PSI oF C io 0 0 I.+~".PHARCET.CET Pressure Saturation Hargln RCS/Upper Ifead Temperature Har I s Lye Sufrerheat Subcooled 2100 Superheat 700 Subcooled 100 PSI oF (Iuo/y RLEVH I//dc,rt Rep.cger Vr.A'C/geI e/0 JOo Above~lr c op'u (/IIO lrh I gSPDS DATA BASE: CALCULATED VARIADLES CIIRiIIIEL B INADEQUATE CORE COOLING INPUTS (continued) PLANT r~R o~Pa e of Page of PID LEVELI VARIABLE NAHE Reactor Vessel Level (RVL]Indlcatlon -Level I RVL Indication 'NGINEERING RA!(GE Covered Uncovered Covered UNITS SET-POINTS DEADBAND LEVEL2 Level 2 RVL Indkcatlon Uncovered Covered LEVEL3-LEVEL4 LEVEL5 LEVEL6 LEVEL7'EVEL8 OTI Level.3 RVL Indi ca tloD Le>el,.4...ljVL IIIdlcat<on Leyel 5 RVL Iodcoocdoo Level..II Level 7 RVL Indfcatlon Level 8 OIfferen)lal lIJTC Temperature Level I Uncovered Covered~Ucovered Covered~i Uncovered Covo cod Uncovered Covered Uncovered Covered Uncovered 42268-2268~~Bo OT2 OiffqrentIal Level 2 l)JTC Temperature B, O'$v v~I~2268-2268 0F 2200 c 2b.Lo v I I ~I QSPDS DATA BASE: CALCULATED YARIAOLES CF'IIEL I IKAOEQUATE CORE COOLIHG INPUTS (continued) PLANT~~~~Page of PIO VARIABLE HAHE Ol f ferentlal HJTC Temperature +2268'F EHGIHEERIHG 'RANGE..UHITS-SET-POIHTS OEAOON(D OT3 OT4..9JS.!BT5.....QTB~1 I PC2 Level 3 Dlfferentlal HJTC Temperature Level 4 Ol f ferentlal HJTC Temperature Level 5 0 I f ferentlal LUC.ggmpqra <ME Level.6.Ol f ferentl al IIJTC Tempera<urp Level 2...Ol f ferentlal LINC.Gaper>VH Level 8 Heater Power COntrQl.S I gnarl.1.Heater Power Control.Signal 2 Highest CET Temperature....,.. -2268+2268"-2268 62268.-2268~<268=22%8+22N~268+22N-2268~91I 8 gno 2300 Of Of~f oF~f 5~5 I~~0)1@70)Zoo C 25-Zoo C.QlHI Quadrant 1 32 QIHID Highest CET Temperature I Quadrant 1-ID'....10 QSPDS DATA BASEt CALCULATED VARIABLES CHAtUIEL 0 INADEQUATE CORE COOLING INPUTS (cont)nued) PLANT~i~Zg Page Df PID I.~I(III...91NID VARIABLE NAHE Hext Highest CET Temperature Quadrant I Next lllghest CET Temperature Quadrant I-10 HI Kf 2300 32~10 oF EHGINEERING RAHGE UNITS SET-P OILS)65'g/0 OEADONlD~bP lllghest CET Temperature IIOOI 264O Q2HI I I!..Q2JIID....lglllI.Q2HID l (...Q3NI I Q3HID.Q3HHI illghest CET Temperytyre .Quadrant 2.-10 0 tjeXt))Ig't}est CEI'emperature Next Highest t;U.Tepperyfure Quadrant 2.-19...lllghest CET Temperature Ouadrant 3 Highest CEJ, Temperature Quadrant 3-IDNext.II1ghqst gf Tempera)ure Quadrant 3 Next lllghest C5T Temperature 32 10 2300 32 10 0 2300 32 10 0 2300 32 10)$5'o F)tl5O (5'/0 F)$/O~~I I I Q3NIO-Quadrant 3-10:h..l I 1l I (OS.l-I C E-g Z l 9, A c~OO QSPDS DATA BASE: CALCULATED VARIABLES CH'MIIEL B INADEQUATE CORE COOLING INPUTS (contInued) PLANT~'~'2P Page of 1 PID VARIABLE HAHE lllghest CET Temperature III Kf EHGIHEERIHG RANGE 2300 UNITS'F SET-POIHTS~65o DEADBAHD 04lll Quadrant 4 lllghest CET Temperature Q4lllD Quadrant 4-ID Next Highest CET Temperature Quadrant 4 Next lllgtg~t QJ Temperature ~OJHID Quadrant./ -.IP 32 10 0 2300 32 10-5'/0~F>650~gg/0 5"r= I 1 I'w p l)'