r '.7 ila 3.23p10 su is* sat waves 3.2.11 25 l t"a beam lamlaei............ 11nc" x....
TRANSCRIPT
ENCLOSURE 4
TENNESSEE VALLEY AUTHORITYBROWNS FERRY NUCLEAR PLANT (BFN)
UNITS 2 AND 3
MAY 23, 1975 - FINAL SUMMARY REPORT, UNIT 2 STARTUPBROWNS FERRY NUCLEAR PLANT
MAYWS 4 21
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) 1975a DISMI "if"
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3.1.3 II so ft 6r14 IN Oitt .119
3.1.4 SIRGo EU Vsfaqweaee gal ete"INi Se pmse.............. 11-3-4
3.3.5 mSnt 1-10 IN f uf, ........ IVI.1n
3.1.4 MISm13 ftee Co"u it
Pleal Ml So la nsia Uha ftiusu
s.:a SI Go SW fesaftgsm a aunta 136
M la # ENffolum" ''-"
3.2. 1 1 4 6 c " p *. . . , . . . . . 1 1149
3.2 .s ii.n 133 3u iena so ? e h t * . . I 'S 9
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ba*hu Rn" O...........*Mtm*,4'
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3.2.11 25 l t"a BeaM lamlaeI............ 11nC"
X. m is. ~sewucbq 6b . *. ., 12149 -
3..12 su n am, sutys
3.3.13 m "I o13bw hsphan omitByals ..e~ ... e e~e oee III-is
3.2.14 M i3s Cms21isuys1...... 11"
3.3hse TV - fta Atimi 12 I1 ofDid ams
3.3.2 II S. coatm. Us Wtva gste. .. . . . 1-10
3.3.3. s SlOtax cbaulbta............ .11*14
3.3.1 n m ushUcalblas ......... . 1stv,
39,P M Us_ AMCM41
3.3.? STE is am *94
3MA. 67 16, Soluted Iowsa" Toopmer" , .,, 14
3.3.9 m its, to1," fSf. *" - * -* 10 3-3
.3. m al, ICtspom to ., . . .. . . . . TV-"
3.3.11 SI131.Ulaukq @mt a..... 23.3.1 511*,fte smweulto e.,,.. IV4
3.3.13 Sn 23,Vasdumatyatem T- .. ...... . 11s3
3.3.14 f 24, 3pal.vWa1.............. 1W--
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c age of ,temma (cifuseda
a 3,*S InM U -w Mftiam In2 * 12M g.Wdb11.78
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3.3.15 Sn 23, IU Sta ltS %w ......
2.3td14 1U2.k~faw. . e.........3.2.17 m V, biitp TdV WAl Cu*MW.
3.3.1w 3 31. L oef Tubt.cu...u ....
-. 3.20 I 32, ftelleatiam m let
3.1 33. ubm. star wave
3.3.22 o , 4Vbutum its . . . . . . . .
3.3.23 m35, bclrtsiattas suam nFv
3.3s.4 On 7n, kiwI! _mo.tfe CuSU
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-4-
£ -AR TZST RESUMt
so (Seal 086Mc of tbs etart# 9t. preprow perfonvad at rsv.awaesPlat at ItoPlswied In thms pm.: (1) ot rodessloss
U2) ~sroy. sal C) helasia ft ItMS CVS Ph&stt*. thtI'Na4I1ATSOUCISaMA iopu pessrum tests are prsested mash Othotheb actual ON44uical,welsas wea~ : competed ealst expiected ew &sit* vuluesa Wlbus davia-
t1 'mer mrorp ss, 09 usas oprt einrets to ta ar cases" dawmry"d.
prtisose data"~e reselts~ 0%,ald to lbs gerffgArMe Of startUP tst,1 atItasmse Yomp teasr Plas VWt 2. lb. autort to"t Prois m braaeo cove
(1 ~ P~'*G~ t $vsli. lactnbM1talal ad ouvrel symtoi dyamMI
II 1 Vgii tSpsa Plot bWt, 3 Is a slag 2, yals, hollieS wsatevseste &esPmu by 091101 gloatu" Coinqa (@) bw the ?Isaaeses VafleyIAssbrtly MWA) am so U 0 semi of a tbroo-op site to to ps""e txA spuoeeSoe q tIs loatesd as she tesseses Uver is 100%there it!*em. ThI 4saS3lime 4slesiial emspett La lWas. dlszld Itm a cm. ths, pas of
tes W AINSheswo slR tow" lee "usam I ath rgca sRetgp beias. This pod"4 IS Isigatd hseI 0 o test "MAP&
levies uch geeuiq of compammis. ffisystew ame C01061" ostese are VWr.IIIrmal . Those tests an Mt Conrad in tugs covurt.
up startu esaw pTr.se bePWs with the 3.4535Of on"I~ (ugeel C$auso owsss the fimputift of, 106% m gesstfas a4 tbo, wonwilIm. it ISA on*sa4 or Pbgas It shiggA To 40 fo
lust U - at" Weasel "Al Opd I"sdafbppe in - 14eiliul st"rheafff TV - Pasr ?teat"*MTe - warrant Testa
-2-
FINAL SUMMARY Wp01? - VW W It 2
1.3 StAttup tet Mo M (oeid)
fars thus period the plat to takes to Its designe fullor_pratIns c0mitiom lao saf cmetroll0J, grad41 fashion. fiteasive testintlo performed ,_det selected. comgrolled .Praclap coeditios to demeesgra:.safe. *efitiate perfetnenee of pleat .omoestc.
The startu test Prooes beat with fuel loading cm July 2, 14*?,and coutlued through Cmpleelo" of the warreaty VMS ad 1W02 pwar tastlag.Commercial operation begas as chb 1., 19?).
i. tortau Test Dxe~tript
Docsents such as the Operating Lcense (DP 52). technical specifi-cations. Plant Operat ig trocides, ead equlpot manuals, control operationsduring the plmt starcp st program. Two docets ars, supplied by CZ-MDfor Implementation of the startup testing of the eqUipseat it supplies; thestartup test speciflelation ad the startup test Inatrctloa (STl).
The Startup teast Specificatlao is a uvese 1oosed for reewand approval by CI menagesmnt and to nd for pleasing aid seheduling tests.The basis for cte chote& tcast La that they are required either to deonstrateit Is iaf, to proceed, to deonsattate performance. or to obtain egineeringdata. This documet defines the aluas test program seeded for saft, efficientstartup. The pur"o. descriptios, and critaria are given for each test,together with a seqwetial gde for performance of the tsts.
The Startup.test laruactioe io a doent written for as in thecontrol ram by qualif'ad CG personnel snd for trained TWA personnelworkig with C£ technical dirsetion. It contalft sufficient pertinantinfora-.&lou to permit such personnel to property perform and evaluate eachstartup test.
tA Divisioa of Engineering Dfsia (MD); Division of PowerProductio, Plant Egineeuring Branch; and grows Ferry engineer. revlie d theCG Startup esst %pecifLctI.-n sad Startup Test Instructions; and with appro-priate revisions, specific brlis errty Isatr Hot Factiowa Test InstructlonMMRI), Master Startup Test Ustruction (KSr *, and Startup Test Instructions(STI's) wer& Issued.
The 1MI and !ISII coordinated and docuaented al test activitiesfrom initial fuel loading to the completion of all startup tests. ThesInstructions provided gidance for sequence of events, and control points forsatisfactory teat conpletian and review before power ascension.
The CE-supplied Stl's were revised for clarity, to reference plantinstrUct1ons, and to *nclude specific instrument numbers on data sheets. TheseSTI's were finally reviewed by the Plant Operations Review Committce (PORC)and approved by the TVA plant suporintendent and GE site operation, manager.
_. -__ - .
-3-
£ nxaL W g RDCT - VW "i 2
LS ft" etAm seciet
Th Stawtv twet tIncreties for each startup test costaies Criteriafr wcptece of re*t, of tist taut. luere f tw levels of crIteraUdetifiel, fe applic . s vel 1 mi gave 2.
T le,.l I riterla adO the vdme of process variables apsaiedis do defgu of the plast MA elpmest. If a ltwl I eriterica la not eats.fIed. the Plag is plcd la. satisfactory held eiftios euati a resolutionts _w . tote ce ible gith this hold mditumay be cetsau. Pollow-he resoluti, U tests own be cepeated to verify that the reire-eate of do level I ertedum we setified.
soe level a urieri ae assted with ORetstim ta g"ard toPerformane * the systa U a UeI I euituime la mot satiafted, o"ratiagmed te:tag Am imld me sacesoetly be altered. lmveatigations of themeaMrOMeta sad of the asalysteal toc=aqoe sed W the preIttions wldbe started.
Safety klats, as mut bno ia Plast Technical Speificatise, eresot Isclude es, there are oo pleed operatias of tai at *tch levelo.
(by initelg the triteri, Startup teat remita damestret agreealt
With deoig OWfiticSm SW Predletloea. Startup teat "mite were revilwedsad approved by FM and the plat 00ei4atealet a_ *mm asegoaa faLsi
review and evaleaflo by TVA amD
2.0 _ry of Test Semtgk
2.1 C1eomwo of 24tsta ltas
?tUs etine Preu s la tan tormon th iSIMict dates of thestartup tCot Program. Tabl 2-1 gives the dazes of major evets La the ualt 2startup. tUle 2-2 gives the dates by Such eCh teat of wejor part tOreofv46 cOspleted. Table 2-3 eO a poir £1.. map Med the vauima teat Ceditioas.
L.i PSe It - Chen Vessel med Calf TstIna
2.2.1 57-1 . hMt41 man UIwoAh~eml
Cemical tests of the primary coolmet wvrn ma prior to hatup andYielded the follaule resulta
Caduoetlulty (unhc. * 25' C.) 0.28Clorid (Vpb) 'SOTurbIdity (f) 0.06Sorfs (ppb) (50(Silica (ppb)
All crcierts were sattufte4.IS
-4-
FaL MAtR gm - HE3 2
ab 21
?bl Bins oe Val: 2 ftm Be pi._
hNam
bla 2d 1914 MU mI) nsm twi iuw1w issim.
JM 14. 1974 (2m030 Cia) hb Lul 1of to 7d. fel asbu
MIt 20. 1974 * ltw al atel *t 114, ntdim
§, Into Mu_ _ Emi
I 'd W o.tteal - d_
August 2. 1974 N*l P~w Utems tocti by WA for W-2
Aswe 3. 1974 Cgao insital mulot biubp
Ia~tr 1. 1974 Cor11ia cf bei TV utA .re 14. 14ilWUtea" of 252 a ast"
*to a 1"A 4 apsms sa
Asmnt 5, 1974 CLeion of auto two Paptso 16. son7s Wo t 5
sebuar_ U. 19_ _ Cgpts * 1 tots"
F0ebuary 14. 1975 Ur fuspectif ef pipft umid 1A dzyll
M~arc~h 1. 1975 C04hMIAI 0WAI
March to 1oll Caom1u..s Of X* wurriny doodwatito
_ _ _ _ _ _ _ _ _ _ ~ ~ ~ ''............ 41..........
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4I I * INI.Cm~e ll - ALLLA-...- - M -- - -
-of Vov -tan" Tm-t- *sI9
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30 4~ 50 00 70 0 5-'*S'' ICa ftg. (i o! 102. t ; lbs j
rI
- ,, - :.-'t ..-. s i . . 0 . : - 0 6 . F b n t ' t ' 'P !: 4 - ' - 4' ' t- S . 'J .- - .0; .:: .:.':i' : ' . ''.'| '!-.s1 .t.:'!Ii'^ t-'-i__ 'i
t . ''ti-t '''--. :;'.' ,X-,-? ..................................... . t-* ; -............ _s ...s_...._ 4pt -t- ~,f~r- -*... .. 0-_t.- .! ....,__. + ,., ,;_,
4 ;.j- ,0 2>' :-- ! -. . .;.
711- _ F
CMu RECIKuLAI IN FA (S of' 102.5 S 11P 1blk)S
-. _ a- __ .... y -_.TST C:\;:TIOi NO. 1 tA 2D 2E . A AC A3,D Ai 4C t so 5
S ?_ I Sov D . Al 1 -1 --- -Al |* .: Is PUA 1 .5-3 1 W 17* g.i "WISCC4 FLCI _ _ _ 04 C . I K I5' '170' .C ! U
A 118"Wa1 CrcwtttopC Analytcaul tamp itfnt of Ptw flcw Cposl (*Al% spi)
A ate#lMed walves a Sat a lott11l tst D ContractoO low liit of now cwozot (93 sow)eCa41tt1u; WI'hstgias W1 a tiat". I o speW for md Pow at rate pow
C mu|fti cMwtaM" f Was]rawn of aldsisble po spPW ("aes
6 Awlytioflm wWVi1qin oan ollewabe sawtj
mn P.w =M s xU lmuI" 12-3
I
-7t-
(TIM SVRAN 1R0? - SIM Ml 2
2.2 Phse It - 0te Vessel sad Cold Testi (coataed)
2.2.2 51-2. lmazias Plu& t
A omplete plpat mwey wa tduke with the ca fully loaded
a"_ al C0otrol Weds fuY lIntad. Al radiat if leus, were belowis" It MIal detattable limits, so SU Criteria W"e met.
2.2.3 Mn-). ele
Real laedl x began s Je 29. 1974 witb the loadinp of the
operational1 soUrs, an was eMscesaflly completed G July 19. 1974.At 'hat w all amm eperasiomal goe wr teiteslled all four
S3'o _Sre CWACget Sod fMstuoQAlg all IS fue1 &se1" Wereimstalled and the core VeuIftcatos completed. Partial cnor shutdownmrgia tests were 9rformed perfodfcally durla fuel lbedi, setisfya
the criteria.
2.2.4 37-4. Cor Shutdown iula
After the fmatlosal t"c of th SI1'` '9T-1) the shedewe
&Wgn test waS Cond4ctad. TOe WAltICally ettueet Cod, 26-07 Was
fully vithiraw, ai tbhe the adacest. cod, 22-03, a matehed to
position 14. qubcerICcaltly W" verified by the Sills _i It wms
( demonstrated that e reactivity sertm bO.l8 A51 existed.
The clu critical test demnstrated that the core had -Wal rods In' ks of .933.
All test criteria "a satisfied.
2.2.5 £M-S. Ca tral soa ma SyBta
All cotnel tod met the criteria of the tsts peuformed.CUD 10-2) failed to met the 9 Seem tgi limdt dring Initial oeratastInS, but a retested satisfesorily. All the reqired teats wareperformed twice an each CID, durla an following fuel leoadn.
2.2.6 fft-S. si Performace
Th 2131 were fametacally tasted before ai after the initialcritleility. The S1Pnal to nose ratios of the fully Insect" SIM'swere greacer than 2, and the slalm count rate was greater th 3 cps.The I= mam dm strtad to be operable, and Sl test criteria were
s.?tislled.
2.2.7 M-ID. TM Perfoomce
Overlap betweea the l& and SIM* vas varifed for all 1ll's.
All lUl's Showed response to chmnyes In the neutron film. Overlap
between the We and ARM's remed to be perfrud at hipher powtr
jC levels.
41-
FINAL 5~IA1 UDPOR - 5 UN!? 2.
2.2 ph... n - am-Vesse! and CCUd bTlani (cCiuud)
~mchofa Vi walm"aim mual amd pnopm wee peuormed eaS ea"tlail basis. SmSmet sopsntlamet toeuut~ met, late ownoG:WtmietWa me levslm of poem t bm 152 ean ubtaimed. thw CItotiedane Mt awfcalaed to "Pee warns! testims.
2.2.9 -u em a
frfft tugs *S of teetuag, baes bonm~ MAd byftdreui ehockOvid OMagyoesat anumremsat gel* ved.. lastrombegtto MMS imetalaid 9411USCAge 1. PreartMM for eubaiqRnt bastup. Albs, exet"Visifawal iapentsa gm so"s to detect me correct I Mt am~ la terfaince.CKTIOai applicAble to this aid caml~ift air all at.
2.2.10 31-35. budrtulativa Wtmr jglw Cglibrulost
VWs let Pump AP tri~nus"s was eslibtated as a loop Guabsk~wpfesomrm. taputs and outtP a@f the eleattudic were eb"euvnd.
and adjusti~zaais aivde as ameeeewy to give pgoper raoa.Cieiare wet mpllable to tug is ie.
2.3 phaeII Ttta mau
2.3.1 LU-I. Cbedai ad bdL~ebagal"
Ohesteael teste of ibm Prim" Coolant wais aids durin theinitial beatu.. 21 rseguteairevo
Comieeiwiy (SabaCm 9 23* C.) S))1TUMMdiY (Ml)LCAorDVe (pib)
m A - Cob) 10BUIlia (Vpb)10
sector water Cf49Bct1Y~ty was WIthin the 10 whole Maxiamutechncal Specification limit throeghot taltta heatup testin.
All test erItexta uis" inttiefid.
2.3.2 m?-2, Lidiatton ft.aUrfmt"et
A complete plun mrney was tabam at ot etSIMOY aid all cvtt""dwere Mt.
--�I
-9
rim -SUNKL WM - 11M OMt 2
2.3 Fbase i1l - hatial (Cminvsd)
2.3.3 m-.5. Ctral 31 V* s
Sa NW Performed at £00, M .W m_ lo0 w pai eatorAl. the CtuI oo l df . ma Mt t" erit"U of the tet
PWrfo_ an tom derta - tutft.
2.3.4 4ad E rol
e 0h reOStor M$ heatd to rated to raft_,. the rO PattS,,W roowzo, mmrf ept rt %7ossvlv ottoeam Napreasle rate of ebms of th mirater teperstm were "tcrdedfor each Wm rod vow uIdthrava. fltaueble tont USTerS, satisfied.
2.3.5 31t 131HIefoim m
b ImI ptem fiers wase edjusted for citiaity betweorants* 6 ml 7. Vain he AM resdi1s. the M31 aiae vote aditatodso that 1201115 of seale rMW 10 quals 2A P*. ftbaeq~s oMet-IV vish Sx's o vrifted. AU criteria Wave Mt.
2.3.4 M-.12 AM CallbratIo
S lev powr elihratiom of the Ae me omesaWfly co_-plated and OAe 5731' Wm et to wead ratr th or *qual to themctual gore pinr a determd by do 3w p r beat Wawe .quatio.AU aPplable t s criteria te m"t.
.7 5 -i. ro es er
AU1 to er m igmal ee verfied (of the In sse" and 13_a operated to verfy the mofswe. Powevele were SefmeNfleestduring beatp to perfom perttast testiat. Sbo criterla ae gotaplIcable at this pm love).
2.3.6 UL-P. mac
?am* war perfed nuts Laftial reactor presizatifea to5, Me00, go1d 0 dP . AU taste wer performsd with RCIC tamst
euction from md diachargie to the candoouac storw task. £Al testcriteria were satisfied with teW ozmiti of Oe eel 2 criteria forigb stea flow Isolation mstaet . e"osaive pmaers drop acme the
elbow taP gives a hige r im amocted at"a to t&M atm flow instemntWitches. Tberefore, them mStebasc m' set be st at tbe calculated3002 raced stea flow a to liidtd tummet no". ?he swthesremin set at the presma talcu mpelfcatm limdt of '430 tehe ofWater. pendi"S naolaum by IVA-=, and CG. Controller settng wveesatisfactory for *11 Phase III testImS.
0
-m-U---. E
-1 D0
TIML SVY*tT W7PM - *tl MOIT 2
2.3 _lI-lll t)
2.36t 8":9 :
T"ts mm pertotuma _dAa isial, reactor "Ursatimnsl to
150, a0m, 1000 Iwo .Pl a toots Wm perfome With no tdag
swtils frost gd disdrgta to thu odessue _orP tado. AU toot
criteia we met _I ottellt Outtat Wm atisfctory for phase II
testing.
2.3.10 n-6. Selected ?Maw !ML$ster
ktsavan obtalead that fnwed the dalss 1Us twea 1tw
a o_*u ly eitots bttew drols lleu temature. aStera for
temperatu "Mrsoess, betesu. t Up peral laver werims mu Mt
On I~ starts.
2.2.11 m-17. Sven qMSia
LUaa veltap differstial trassmtten ms ietordert mm
installed to detaime the sovints of te mia ste l1wase ruelaul
tuon 11es, sad feedetar lOW, Is order to verify the twe"M fOt Jxam-*len of the Vagiss pi ga aaeoelated seupeiom -eqmeti s. _ths*
Measurements wars _ie durit hhtep, of thu wlt to rated tegpraturOW presse eamattless sad oals derum eeo1o. eMat VA recordedIn I SW 2 difecte o m the mis team and feadvatet lime asd la theI, Y. ad 2 dlrectlaw an the reuirculatio limes. tse tecrdieswere compered %ith Predted miU ts for the varst pip. as". 1- frecorda were eo"W with a vbsul ispectledo of td qyt_ am Tami
of seleeted hmger smi lydraseek sa my arroster pdIntl tduring bestup.
All rstsrilas of d _nt for the vauiave pipbag vot
2.3.12 M-23, nas Stem toelatiomu -V
The performes of aha test at co.idiitn typical of the beatapphase Is wairly to dmwutrats the toprab"lft of the 1WT's. Th1 miyapplicable citeria at this tot' emitim is that all NtM's elose Wthithe 3-S second lldt. All iSh wiaves satisfaetorily vat the gloomtime Criteria.
2. 3.13 2iVa A t
tanual aetuatie of all, vaves asa perfored at a tctorpressure of 2SO psig. Valves fWttomsd as expected with 2 excoptioms.Valve 1-18 had a failed tai. #lpe thaweopla and 1-22 tail pipe faildby 331 F. to raters to vithia 10 P. of its initial tempetue. bwi
-X1-
a UNA 51RA1 IRP0S 313? MMi 3
3.3 ftaseII 1121tial Ugeu (c~mtieed)
2. 34) (00titesd)
retested, "waie 1-15 PASse ad valve 1-33 fals'd by 30"J. to rttum toWiths to' IF. of its isfta" tooparsturs. Valve 14)1 Mwussaully passedremaing enter"a duoa phase I teastl.
2.3.14 MID-7. teaas~f Uktel Sasup fvt.ai
Thire tests war. portere to dosastate Os best aespisis.at the vses"atyv Ml m~uriapumeay tie' benat ea te t he "fiee coalme coudected to the 'Not Sasedb VA"l. a *ids all eleamp flo w as
r~etuf i the reacco with sehpes Woo ew1. With a slsam flow ofCM aUP I~w., aheat tuyavl, rtue of 16.5 a S#0 Rai/h. Was sustaise.
nui coores, wall WMt the desta ligates of1 044 a0 lPb/hi sad15.5 3183te/hiq
IU mI Cot as gma in the 6%uW Sa m e is *shih allgleamp flowN retursed to &he neater uin.h to bypass iJgleam pflew of 0.133 ala lbw/M.$ ha b tuSSIel ifa0e 1 a3.Ste/hr un - ebate. tIs* aaven. Nell gmt the Ampi Ligse of0.14 a 10~ /hrh ml 15.5 a 1,0' fteft.
raw third test we res Is the 02sidisn vado In tAis all elsie.up flai " dischorwtos~ gadete at Ithe smdieu With a el1wflow mae of 0.052 M lop lb/hi., a beantowen~s tne of 21.9 a Irn/br.- oebtased. This emsqers wall wishthe0 he~IP nogre of @.SS x alb/hr MA 22. 5 a 100 ku/hi.
owl"au 1 three tests, the GUNN" filtertauslt cepeteurs "Sheld below M"0 T., the IPS we determined to be 3? feet MA tOA "lotml 6sa11.t t~eopature of the coosies mat" soffliet" toe P52's11 meheld WIMi lisage, sa" Sovetisfa anl "ift"".
23.3.1 571-n. m feudt feto jowl wint
he resudua hest Tusrel eysen me Os perated i toe IL"msustresspasl cselia" msoft an lviou to M"? set fielost heat nmAl sapesIty tosatisfy dasigs cmlittifsa. All teow of Ose MM Mms evehowrs ut allaritsfls (18? a l6 Stulhr.).
t.o1 MTl72. b11l AtS~meshe gweise bato
3,well temeratures wetas mteved at sash plateft darsaxlaltial Retio. All CondICIUMs to the drywalI M% raa wi~Sh 101 Oexeeptim, of two psiuts at the top of Ohe sacrificial eU. "ae heutre"Wal espabiliry of the Aiywll coslors tS ehitesis as rawetemporstme and pressure.It
a-12-
FINAL goft" MMIR - 31T0 VWl 22.3 Dn I , - _ai ro"! (cim
2.3.17 ffla coAS twer ltmso unatow haum alag s" ceelia valt sstm Wau balaae.
to star deIpt ueitlaw. te* bat law an th ma"e s= beatezehNs B m- vtma the _d_ dot" opsettuatlao AU erttai
associated lath tus test Mft "t.
1.4 as. tv* 1 emfaos . 10.1001 -aedind
2.4.1 5?I1. tmA~rsm h GtWUt 94est 1110m. CbhSIni ad6 radLOdh~ml4&
#seplig emS mia..ya Wm rs ifomi a raiftm adS spne test basis.,b~isa= vIIIaac of the reswe mauw, somiesasts fentes.
~*cdoth mmeesuM at eofthmtlvtp. d~1mte costaut. tubfdty
cate" 1e_ atkevid s tesatt gdme la ede to asn" dotradia1,tia Pe toemt la istatom "newem swt Uedava the aur ejestaread th sroma of tb, of f-Ps qywe.
Istiags of atom Sepubate em avew puira at In"Vsw7 2 camsted of tsws c 5 A 1001 Pawnt Plateaus) Imestioss ofsodirn guIfb"& Ist bs ftaItOr MUM me rinCOM the sea141sItit ofthe 3.44 canowir viai dthemer e1eai System outof "srice. Iacwer woew d tivig smee 2.0 amowh@ 23 C.for 6 hoars as DeAubr 4. 1274, at 601 eatis plateam dusto dho
ctorlam spun bmtin ypissed dut" a pertfomace of the 'S
a lawia of be* gues 1m.Zlila as bors _within establiabel hlts d do st e tq testiag. G seame of
PrIMU 2 m eat "Ooeritdot mmrst satsfeved. m aiato iAsAl 9 tS "it" gm6.GO
2.4.2 Sle.aito msra
At 21 SW 5 pOWn w1stO SuWays Wm a0uctad Withall locatiow but m Within the "Iter". IM laoatios ueb came"coccera Is 1aAM _eawifasly to pteveat exwe. sye ezposawe wbisshieldioa md ac cstral owne we b1al capated. A mIaitadsurvyw Na perfoomd at test cotitleo 3 (511 pow) With all 1los's UNesspt the am praviowly sentlusd amtla the teat scagleas rIter.
-13-
I VIM& W5HAR 3MI? * MM~I WI 2
2.4 aM 11 - ZM go ttgg- f IW0 Rated Ouga (Contined)
2-.2 1 R D f- ma (CoutUemd)
1everal aea of k9em tham pemisible backvmd doe tat. were-efi~ * markd GCCOeIM&gy at this VAn the 79eVIOus test COnditIOQ
(5 pomr]. r" wCo1ate SUrve Ws comducted at the test condition41 061 gast) with au locatim Matta the wsptace criteria exepttm O of Chse was the previously usmatioed loca:Lon and the amOm beal a *iilar reviously mboticdd loestiom. VW dose rates forthes tvo locations were 550 we*1hr. aS 520 Wmlbr. Typical dosates for this coodition wales* than I urnlhr. se with a few
locat am exced Ug this rate, oe otbe location which -approahe thebat criteria levlwma placed wet frequent au1vel1ac.
orreatly, Special precautions ae ia effect at the problemlocation to pre a inadwrust persomel overposure. A proposed_neauc to the taechIcal specificatioss to ben coidered by thOMC to alleviate the exsting batrier prob: - requied to seat lOCF120requiremmns for the relatively Inaccessible locaticns witionad d&Lchdid not met the test criteria.
.4. r d ive S ta
Scram time of the four slowest iLa-seqaw rods were measuredduring plaatd twrboperstor trips at 1001 p . all four ia-sequencerode performed In accordanc, with te applicable acceptance criteria.
2.4.4 311-. M Performces en cmagl W eueope
tr was Ineased to 252 rated is seqmc "ar 'th ISCS wastested at 101. 2OS, Sa 25 by Attacaia to select ad me out-of-S*quece grups and Ws thows to be operating properly.
Mut te =a seqene ISO W stilied to iceas pr,am the CI v" foad to be operable at th sm pont as above.
TMe LIM ls ot equIrd to be operable Aon 2 pint. Atsapozax ely 302 thermal piwr pressure swite at the lst ate*turbine will autamatially bypass the a= logic.
buring the Starts" La both seqnces, the operation of thecore me closely obervd for &rreglattiis or rectlvity amoi" asa result of the rod sequeaces. Moth performed satisfactorily.
x1I-6 denontrated that power could be raised with rod ith-draal In a safe And orderly fshon. All test criterLa were ma.C
0 __ - -
-14-
ftA!L SUMlY aREPOT - 5FlP UNI? 2
2.4 Pbhse IV - Power ftratcon of 10t-1t01 Rated Outout (Continued)
2.4.5 sn-9. Vater lievot Menasremes
Cailibratins of the Tarvay and CWQC water level instnmeta.*tioas were verified to asceratln accurate reactor water level indicationsat a&l times. Data were also recorded at the S and IGz test condiflone
as reactor water lewI vwas varied in 6-1ich increments betweea the high
and low level trip potuts. to obtain knowledge of the tracking perfor-
mance of those level systems. Adjustments to allbrations were sade asseen necessary. There are so Criteria associated with this test.
2.4.6 ST1-10. M Performance
At 16? power the tNse were adjusted such that a reading of
120/LZ5 of full scale on range 10 was equal to or less than 31X powras indicated by the AP 's. & second calibration was required at 19.S1
power to calibrate INt's G and 0 hich were Inoperative durIng thprevious calibration. SUWIB/ overlap yes verified on a subseqaast
startup. All criteria wtre satisfactorily mt.
2.4.7 ;3lL-L. ULRk Cattbrstt )
Using the process coputer, calibration of th Nl systm
was performed at the 25, 60. 10, and 1001 powr levels. All operableLlix's were adjusted to read proportional to the mautron flux Ln the
narrow-narrow water gp at the height of the chaber vkich sattifie
required test criteria.
2.4.8 M1-12. APM Caltbration
At each major test condition, the AM's were cliLbrated toread equal to or graster than the core thermal power. Te calibration
was repeated after each LM allbratioa. The ability of the A21'to maintain suffictent accuracy oer large power changs was also vert-
fLed. A power scra clamp was set 201 over the highest load Uln iaeach test condition before sceanding to tMat condition. Alt test
criteria were satisfied.
2.4.9 STT-13. Process Caoputer
The process computer and oscllary equipleat performed weltduring the startup phase of the test program. Some mnor problems wereencountered in both the SLA and uSss programs. The dynamic system test
case (DSTC) vas performed and all system programs were checked out. Alt )
O-SM
c flaL SMUAR WCRM - gm I? W?
2.4 &Mas IV * DMe 2ewatle at l-Iw2M Rated atrut (Castiaosd)
2.4.9 EM-1. Doeem engte (Cmustimd)
test wiiurta wev met. UhIC uesulta hkm be"seat to Ui am jaweEt A detailed mlinuttau. 0D1 adP 11 g OF m swnd god agoseast
Wmt off5-hm Coptr s-wvtatum.
2A.4. an1-24. mac Synte"
TMs Tomate COTO toolatim gooling eomtft we tooted In theID3tteft~e mobe at =1 por and 4U2 5lw. U loist response mgsSatlaf eaterty and test attaastU gm t eucet tat CMe high stemnI'm eIsoations tpoiats. w~ch room Couservtlwly, set.
2L4.11 STI-S.- gmC -Syste
Priow to this teat the lrongortimial %'w an the DIM coAWIUola"s incrassed from GMC0 to 20001 usIe left at 100 V,11 glow meareaChed is 23.5 secons. he NMC tborba 414 mot trip durt" the testand the :twbl~i Stied "Sl Cooedeae mgapes6e @5 grwstiz Inste"
c le~IAkag to the stwomphrte thme setatyimta U Cateala.
1A. .1 31X.1S Selctgd flogess reratwSM
2be abeervatiom of seleat prosasee -o trt-r -e so Conetodat three operatiss smiltime i*1e.. at the loera" of the 50. 15. andI 0 1001 oe ins ree~peetioly. AU tiest artarda wei adeqluately getat sash teat MEMiOm of interet.
1ee"te la"e Mrs ConulamzsI mai0tared. wih &MD iastroea.tttioo to deternif it .he theml ="wmms gm eatisfests. Thessyste satisfied ani applicable toneatcteria.
2.4.14 UJ1.15p powe ?a giatrtbqticM
TM IV uePCoducIbifltY teats was perfersed em aU innthiSscoe at teat cooditiem to the etbot at test soadittax U1. no matest ofboth tests ares within the establuW ex uteuis end U? reproduiblityWMS satisfactorily yeirif Sad.
( lecore piwn distribution was determned at Sgvgrsl point
FINAL SUEMRY REPOI * - IP frr 2
2.4 Ws*se V -_ tw Operation of 10X-t00 Rlated Ouftyt (Continued) )
1.4.15 SfL-19. Cove ytfomoe
Te siftdcart ce perfouace Parametes suh as mulma
tractIon or limiting poe density (W1), Ski ms crItICal beat fleratio 01 ,M) ca tbermat piter, mimi-.. h le critical powe ratio
olcf). ma ms s werage planar limear beat beneratlon aeo OVA="an maximum lar eu gentatim rate (kWtt) wars mtmltoro throu.
,ot the test Prores at eOn& of the operatIft platemn.
trocas compater caiculatios wsre t lm* 1... epem WMtMaouel and off-line camputer celculations.
At each test cooditieo. the reactor response to rod movmsa-
wa stable and wall dapd. All teat crilta waf mt.
2.4.16 sII-20. EUctrical Cutot and-rliAry ost Mte
Mme300-bour Poss eletrical output _nty 4matrat le
was conducted Mu the SIS-hour iterval from '100 bs on FebruM 2),
untll 0100 oa on Mach 9, 1975. Data Irae 17,834.Sb peid of
reduced powr Operat ios we minde trm th test mualysis. m alto
302 readings at one-bout inter ls wrs collected frm the plea
%cosputer or by direct obsermntom of plat a special tost instru.'I
Except datift - iaconsequential powr t renient, all teat clitriswere satisfiM.
Generator MRtS
ceneretor terminal output Was detand from do mait hlhmeter and corrected to rated coitLoss of condenser bA-presamms
enersator losses end genrator powe factog. ?tteiain tast 1" nste
Vyre use La all cases 6dth Gsm ezeptiour the generator W& water
was accepted as the teat standard) to provide corectim gatos for
statiCo isutrumns actually used throutaW the teat
core horml OWts
Core trl outp ms detarmied by pross cte
calculations (0-3).
2.4.17 Mtt-21. .Flux eswgms to WA
Tfe stability of the core local reactivity fsa& meauma.
vas verified for =1il perturtaiong La reactivity due to rod moeNts
at several points during the startup test progre. All test criteria
were not.
II
i-17-
C FIA t~WWwL*f tl 2
2.4 Pbase IV * - .mr Ciratgog of t01*t00 ated &atvut (CoDtlUed)
2.4.1 Mr-2,. ?teww tezulator SeUotut OaanEM
72e following tasts Mrs performed ost the mC system to writythe pressm regulatwr performsme with the rectramia, flaw euotrollereeat In Seol _oo. at embhof the teat coiiltlom presented ta table 1.2.At *ach test etadittm a trmiealt recod was sed. of perteat reactorProcess variables.
I) Positive ed megative 10 Pet let peta chos uatn fist
one, th the other ressue reglator as the prmery regulator coo-.:oflla presaure to m folloling r
*) with led lite st hft% emo" so the entiretrawle s handld by castrol valves.
b) WIth the load limiter sot so that beeh the contiol
valves and bYPs" valee acted dnIag the tramiet.
c) With the load lMiter sat I&* m that the eitsrcrant Ws handl by the bypse valves.
2) The regulator acting as prtwy mm fallad" to all* theb rc g Ilata1la to ke oert control. rb" "a peromed using firstc, then the other as th bm*.up regulator.
As a result of Information obtained tan unit I tautift ofSI-22, the wort an unit 2 we greatly efmltied. A motsk litter msadded to the INC circultry PT&"r to startup %iuh smabled pressureregulator .pcimigatS dur tug initial taeties. AIl test rtuta _mrsssttufectuuily Set at alt teet comtiorne.
2..9 W-2). uftaistp Inate
Two types of teats VW* perfoaid as the fee0ter systes:
beh 1) Level satpoiacdumpase of 3ahs r maed. La1} ztols _ f I to 0 la" wave
bot3 lass"t m_ sigl-amnt two La tl iSat _aa flmwcontrwl *ada at vartaus test e ittom.
2) A feedonter pWm trip wee performed at teat condition 43.
For m*cteet a transient *"z d of relevant Process vauiables me 944.
the level satpoiuz chea resulted lsa smiot ranseis, wtha slight oscilllatory behavior mated in only a fm case. no reactor
acras& coul4 be directly attributed to tfedvatar control system transientrespome. The leel astpoint change for each mast ceuditio satieflad
U!2.4
AL s3iAR l - 8 3 5 1
l-b ... a Y l o v e r usv a tl o o f 1 0 1 4 0 1 R at d . t w (c a m zl m z d )'j
2A4.19 M11.2) ho*Mff fEMae CCostimimed)
des applica e test erlterta.
ne "eOma Pun et*i how est "W1ldem 43 grao10ss a
smooh uiassu with on comret of ""gmte "an lovele soe
tip resulted la a weellsuletai pi -~ A~s %ich Sestrelled ysactor
vows sink that the tuo remsalag feedatesr owe miU lustaia dhe
proper got" level tba ,rsweati a UV Water level GOVm.
estime hew bas comleted *, the bypeas valves Omsku 100L.
lb. test ueussts astabflab without question the hypese valves eas be
tested as my Powr level In the motor Hal steMmeamerel si.d. l1I
Spikes wre. Isse than 11 aed Pressrs epies lees Sham S got at ani test
cftditiam. The bypas valves Performed sa 66sI4. ant leve I MAe
I criteuia hae beoa Mt for anl teat coattlewem
2.4.21 La1.21, Mets It= Igglatlom fAlve.
Alt Mlf a van. tested by tudivduat fel slemure sai d
41..StaX time afteWed All wives %wes eithe WUMhl de MuSSIu or
adjusted to met Mhe arira. Pressure trawLeat.wi dr*. Ial Valve
.1aesaree -- is small.
VwZft fumottal Sashes, sash valve mis land UZ ("I opes)
to check opuatie.. Tremtentsl We . not ieseatt&U duatft t tees gb&",
An 3611 fall Isolatia, occurred at PU power m4 teest eitswis
Were Mt*
2.4.22 Ea-AOL bigotf yakvs
All Valve. ml Stalesg Capialty a dreseatta esrltsria
this test, gme taoul ="ware caeacty ftr aul Valves we S.? S
tb/hr. the clautstl delay tow mms 0.2 seesawa aed all Sailpip tsq'eA-
sure. :eVOzMN to within the.ofdir baital teapreture.
2.4.23 To.2. t"le ftiga AMd Camtral Yalu In
Vest Closure Of the awls turbins st" vatym Ps dmasstm"
at 1001 of rated geacttr Coanditiams. feat Clownt of doe maim htbis
control valves was dines rated at 252 end 100 of usted reacator saw-
ditions. the level 2 CrTLCSLa ihicb requires Chat Ahe fsedwatar lavel
�- N-
I2.4 Dbas IT - turn ftuvages St I0.0 Ign ed buMe (Omaismi)
t.4.23 m.27l. Mwin-u stms au pMts Va, ins a Cm~wd)
azIleiw preaust a Sm UAWt lws u~teial mm a met 1., c0thaof do. SOX2 In tvips. All -do toot gatau Ma an gme hi a
2A.24 M.50. U lmtale. km
bstmlatift imp tilpe we e puutem at ML1 M5s ad100 of rated waeseto uamdtI eIs. lmsloi booh m aed two Imp tug's.Ts to"t NM& .alawl*#s romitud la. Values *14b met sA* uInterSatisfactorily. is udItilain tram""esudmia dhls" PM" glen
on") cala"U"am mu 5 din o" 11194tip tan T"wswn a tuSawumijilse. AU. trips doed adte, meags&g deub 1,05 NMC UmIt.
Tb. cm rar e£ti tmi 1001 owna maSb thwa Umittag of oil Seas.
Umrfommess dsta V takem at Warsa Pons eunt 4suiMSdam Phase of se0asta. sho ruealmlallam ijoim taftmed atisfstoitlywala leva. at paint NW Rim.
bnttarmuli that smitatise dud an Ia to d vesIMs3s bs"at"s we hrtffti by 1aes"fl 68848s) cods el She uesuuia-PuMP nth" las Smsumelr. talt6ally lof M00% Yu afoseoula atof Asmiate1y 26 pI ws. asgm* 0u04 apela VW goo" ad lbs 4"O "1A' getfammed. Duta a"i toot dos -f Ow asewMP*$ U
#dut a sbar leit.
2.4.25 [E.3.L-H e ofIn at=meu 4$ Ote2ir. Amx
a"t tess I pwe mi vish =it to- ope -a gt3 ameSao" for hastin cb i qfiiel ps ha ii 1 b
pliat goame electrical eplUas CMli got e Ibm* the AM VP Iamal spsuetica.
g lno~usms 6l NOWe apmuaSoaul 9W $4 p fol~unt
0.00 amc Tablwgms rat.. trip umm1y bitiate0.1to see COstrol waives ecalmC
I'
020-
[MNL mufmA 1ZK? SUlmW 2
2.4 set I IatoMt M ) )
2.4.253t3. as. VmwlueCsevao .. 141 ~m Cntu
0.10 step wvaves Sloftqbesto mm 1. s...50fv misl brothers two44V ogt bu bfgakg Mt
5.50 on 4-%? ibM... bond C feude breake tif'i1.10 NW Diesl puuter C su ftp PON"to mlt
ZI.U hmzdi inltoi aoa31.15 md Ml gesatur 100t& Stan" MIc maefolb bsats"Stain". Astmeti Uftiq Of S sawie vawh
£11 reaftog eMItM gnlas TAWtS tbhU Ge" Unitsd"Iwl tlb uaulat aed all utomic slostiloal gvitddl 5.
2.4.26 M.33. fVe
TwbIM s alves W* itolIdhially sue" at 2, 6Gb. 751.o- M towlays IJ . b alpituas putuwbatias to Sh obauw
operatat Parameters we re4wlt of Um m1w sluwme. Al ltest ezitalugm oat.
2.4.27 J a3 nixvibratulm date gas Obtaine l iswJsu1 hue rsb. do U*Uo*
ltm P twip (SU-30) " t0, InsO o t l Omvequirommat for daa With the sqWaltaa valve apsme AIsted4 0a tothe l 1 tghe rm&-ti. hype* lAM
'imal alm"Go, by a palifii spesialist will be Sme at* lte date.
1.4.25 m-fl itl Am*d1c *ooi _ As_
onwAlt pZsa w as altmo at 19 1QW, Mt1tinpesetue ls the d 1 Mt taot ctersria with OS * pi." 952 a
Points at the tupI ofe setifi a thield. th. dZm.11 hea tog %a
Aose to th 4*sip vwois. A30woso Cntta~i was zm with tweepttme, the UCW Islet teuperature we 1ms than its mtsd mziinqvalu of 10S0 1. DID ill datotas If 6urther tastum Is required SatrLE the tperatsu an acca=pvAl. Ditial evatuatias indicated thatthe texature wre cc tsble.
'I
*21*
1~L SgOR! su331 2
0 2A4Vmto~ i~tmo O4@ as cuut(usmud)~
.P t -'
-,s 2. C wnS.U- I ~t pmv WI t...34 a~m .t. ~hW~ minsl ae.
SIS Di kS SIiamb tb4l .0mw,-I" nuS
S
0
0
r
It-l
- - As - % - ^ 4
).1
c ,
WAR PVOPT -0 WV WI? 2
3LI!
mol effitdaas1 to she fall cm ste..
lbs parea)1 1eet eawm so e SumewltleaIat lawe @452Ax wIth lbs ONmtSOCISp12 etroosss am
TI bel6s sgim am ji~ to. 1974, With dosleagues of the apesweatlm mourme ad "S suemintdble0"doted m, M7l 19, 1974. a Chat US~ anl ? OgeattemalSesere ml 16egalled. flu 4 two mrs aCAd adltowtimals S al to" feel ... 1. Wm Snasallod MAthe cm wulftsmift cavlowd ftnul, too ehettowinzl as desivated sure. to the leavst pmeOwe mis
e~smfmll efteuasvted dots" tes 1emiWe astatyi91s WISIte..
bpaies" he fuel bodift bowm by #10""mash fuel Ileaift ONW i do"" Ong ehs. ~S&h vetothem tasealled to &NOW Me"b mute.. Tso adeldl Of alldotacteu Ma at s 2,) dem b1sou b At as eblaws mebe louw %bs M plal fist %ms VW*. vw NNWhe toshe PlM m 1 elesfelurb eel she sim to wiln IaSM "achobd.W bs fseiuasa for lbs wed MA&s 4alm mal osraselmee of lbs ilL' mn istendste bg esetslifapa theiraftwasles costme ret m moiSst A smum powa as .17 Ofabs Msaualam l.1.1; lb" ashewqt vaviemmsem cbs Saeeame Gloaed"us de use ownts" at a li nt leowAS Ibama50 of the dri p"int we e"Iestafed met. Is amulfd s,5h e Us" duehaNWam ee as Vldoaadobsl aw bsiam"dest mm sbs MIS was PlI"" to mon&*., lbs goge"Sepolsat gmi aMt ve-*. Itdbl d hse mas intwe edXtog Stm"t The Sits. but rather Impy meme Mt as Sn aI
me Ir onsm acteslesm MO I a IIW's"a wed Wo~eb adundoa0 teed ts the start"g teat launraumma.
a
Tt-2
3.0 semi-to 0,ecinow)
3.1 it - Open Teel - M 22.un (Ontlaus)
3.11 Z3 . (l kWIN
A sI. (C
Awl Uodft foer it I wea Psifori with the
b-Re .ecatima kuim locatod La the Cis. 11th
eArly OM curea nal wsrce ecrms at it°tiom of
fuel 16aIsa, t YU*1 * w.ra pttOlNA a Siifit
distafte (tga se first fuel heedla loefigm to order to
avoid a set.. As %be stry of the ladtpg pattar
1 the Cs they wre owed to apprpriate
PttionS *is to gedus th Pe"abilhtY Of a eOCCOM
Ife loadig piroceeed ti.0. "oa el uIcal peters Saut th
ceatz source tbn * a spiTra cotfipuratim, form a
'pla-,mel cluster ceetored &rad sth cmral costro
rod. The YU. wre esploped throlu 420 aUaluae
loaded, st the S1I la-cove deoters m sticized to the
cemplettu of Iaadua.
Safe loading eas accmqlt*W by us Subritical
and *uactlanl acheks before W aft 1t leed1ap the control
calls (2 a I fuel saumbly also). Is IUhs. I quet 0Oastdm rAtals checks .e& at variou. mu laea d6wmatrAW
that the core s Acritical at all m bI at least 0.3S
al VIC th resomtricefly waso s% red fulyp utbitan.
Mhis ms d4a by fullb vithdraiia the etrepst cod aed
withdravwin an adjact control rod to mtch 134 ad verify-
ing subctiticalitp. 1iverse mltipliestiea plate gesf
maistdined from nxC ceadua taken with an tos insertd to
predict subcuiticatp before loadIg additleal feel
AaaSUI&S. ts meicht ceaea suwh as WtO a fuel.6aeaely
mv laded 1 a rby Am oerat"Mal sorce or a tC, _o
of P ette effects. spei int"PretatsIf of these Puts
wre reqlred to predict sfe loadIup of the st fad
"SOR1Y. Thee sottlsc effects me" expected.
The tully load coare ws wrfied. a July 199 1974,
for proper seating and orietims of fuel aaaati1te =6
for fael bundle sertal numbers and coe locations (ae
fifwe StI 3-1). Serial msers van dhoeW for proe
selection of low saridwent t ad MA eauida1t fue per
fItpre IT! 3-i.
All steps La 511-3, Fuel tasdin&ware setiafctoxily
completed and the teSt OTOSta procedd to the fall cor
shuttdow margin teast (5T-4) " scheduled. All criteria Vrs
oet.9
,.1* '1 "MsARY I'II
*-3.0 i* 41se
t, 3,1.i
I. -
-- .
a. .. _ _
, i. g .* ~ri. -^a.
I' - { _'~:.±*z-
tt _ -s t *s: :fiv
!I :- - -n-*. . r ;-i.
-.._ w, a elugi'
IL > s, ,
- _ _ T. . a. B
a ._ - I
.,. shl L 4 .A)I1C Laseil)
k1a I4i's f .o r I Med .
ROWNS FERFRY UNIT 2COAC POSITION MAP
*ab .J.ahLx..,L. I1U4T19 V 4If,
x- a - . - U - * - I - fl� a -
14!!JUI 1& 'Us.4 .1 .Ir*h va 4' 11- 1 8i .14 I
. __e D s - t_
011% 619-,"
-.- r-1*.
... I r
I -ut~".1la-TI, e:<4v
. . .--r | | X
-. -
1 -, +? ' -'[ I-. I . IV+.4
ii 0.L° A
I. '. 14II
'av
p..1I.
41"all"s . 1._ _.Wa *#,...
I* tl '4hr11w- fti. .."S 5IW -t
WS* t.a a..
R'o& 5M" -..
-4
,tl:
.TE
.J I :fo-- iFF;, Ii
> _- . . I �-& - I - I - I 4� .& � 9
. J, I ;.%,+11", I.+.'+ I;65� 1| I s I
Iz - -"..I 1,+4.1-1 IX vi,
1'I I Ia_ .. l,.
..P ?1A.r I ,, IV
|. +,;. Jr
It .of;-w#JJIj3--, 2 -S§,, JI ;k
| I § z
. __ | _ _
,-
..-1+FV-A. r+-K
v f , , l
11:IJ~;-rHAi v -I 'I .II- J- 1
i $I 1, I. , -; U, .i- I -I t
.--.
-Ic.. L* * * r w | |I 2 |
- § Z X ]
* S ;.
-i-I
IA
:I ,I- .5' I
-* . I ,L. , +. -
1 L _ I§J- :_T-4. .LjI-1- -14vl .1 o.e W.
'1+1-17
_I :+4.of t-,i srI
I . 4
: .1+ .E .. +t I
- � -4�I -4-4-4- b - *'-4 . -' - I �9�
I,X. '- ar.* CE:
-4
wi. -o .+.
a 0|:E
, " +
.-,.+Y,
"+i-1v+-'1o. _ .. * 3.w~
Iv JA
>". .,
II1-11+ ±1 -
A *:I.
,Pt~l+44
+1''_.....I
. I.'
IL _,j.-- ci4tul-�x
)�Ikj_
"ii.IN W s
- M", I*.a
.. f( ^ +, , ;W.1",'b
@ w
L§{UhJt.iO@g t I .biAt..! l-1 f I I I+,f % I IILIZ U" "rj"^ f 1-4 i "@ &W' 4 III
1 1 1' 1 1 1 1 I 1 '1 ' 1 1 I I,, a , a a. a. as , , , ,, ,W W .S a 1 .W Si
a is Ua as e 1 o f U a a * U a* " " W. a. U *. " It a
Fl,:ure STI 1-1
11-4
FINAL jFA r - oiwi UI? 2
3.0 R..ilts (CMcst4"s.)
3.1 Phase 11 - M~EuTse s~o4 Col d Tost ia (cwast"neJ
3.1.1 S?14. TU ada (.ie
" 00
Ws _njl 3+,# a t aill
42
=Is. Us . W 7
US __ __ __Z X
_ _ _ I 3 113 I iw 1 S T' -, ,1 1T 1
+29 a} w9* W30 a 2 -R I a,-' V s, +11, 0 X aNo ta~ug
14 13 211t la 3S 33 33 w 15 1 1 W) _
* as_ 2 2Ti ji ii iii s ,ls s i al 3 i I
37 az 32 IR tlJ A1 1 2i Ui 211t ii m1. L A ii!3' 1 UI-t :II IsIi FIT -i- WIT -i- fli a1 35
24 -- t~
0;1 81 2 21+2 Xl X}1 WWll 1lg 2 121+1 ff2 3+ 2+2
II I 1.J1 3 351 311 I 111 I 1 1It
8 .0. s R S: zl aaS~t 81f 1a x 18 V} fj s I|ta
1 thTTt T W 1 TT TI W WM sit ,H, ill0M
ra 17a r2 Ms Im -m1 C a *a- n1 A
"Jl 1 12~ 21 _1 lt2
S 83 82* 8 | -IR " 33 U S;; 3B. 1333wX|W ;"
EWJBER OF FUEL ASSUIUES - 764WUltEF CCIL ROt.S-lUS
I LOW fjli EXPICP ASSMAX IES _In2 lU_3l2.l1W ltJIID A 5t.3&UCS0 4EUY 14 10)1 IU0 (2.5) ENRUILD ASW UUES _ 2 ( S RODS)
Fipure STI 3-2
Fuel Assembly Locations
. .
h
PIKAL DI!OART WPO~ "I am? MTir a
3.1.2 11~Itn3 t
goe prpoee of Mei to" S eto dmasentrate thatthe Teattew vilU be, Sobevl tlca thu"habst the firstfuelcycle with NW sftle satzel red fally withdraw.
Mme abutdown earga of One full leads' core mastbe at least 0.3Ua4UK at she tuft reactive Use. 9. thefuel Cycle.
"As react., shall haew ".01 rod a"
(.heft a CL"3 ± .010
TMbs hetd" owges lset me. emssved for she(anly Samoad cae. lbs mel7"telly streavest rod la thecare, 26-07, was fally withdaf.woolxt 23-0 mm matehed
topoitfta 14. a5wuizicalftY at this pouta mmauftiutelet to gusrestee a eestdema =WArg of at teast DomfAria.
IM Clamp etuas l wsperformed by WSWip odIn a pnescribed aequmece, TAUl MI 4. shamm the sequesseand the aMalitie with of eac Sao with the gdowatoiat 910 Fee the reactor Wms erItisl. as te 14th match, ofthe 1tub red. tos order to 4otat a better pvwe seasuramte*ee fiasr M1 4-1 MAd 31 6-2), it us wese~d am poetic"ofarthe. TMe total with ot the tI~tut job! we6-73m sAC. ftelagms period mamiwasetmi fom hcrit~cale It me dete9ledm she: an core hAdo au al veds
All tean c"teri a tr 1114 were Stasttofd,
S
314
- U - u - I * W. - � m
So41
3531
23lo.
15
0703
II�UUEaImUaI�-4ml-�1 I
in iU qtuiI.**..mI&- I I -1t ~9~1 I V 5i N w (ilnr_ _ _9 _- .. _ _ ..
I
IP II
- - m - 0 1 -T
Am.. -IL - - Fm
* m - IIr I -A I _
I I I _ _ a ff I A _
- _ _ - ET -
I
d
'�; 4p
0-- --- - - -
I _ _T_ IU044m4MIL. _4. _L
I I I II .- - I - I. - 1 I. - I- Lk-
I p_ fl - I. - 1 .. _ _ _ _
a 006 14 1622 26 30 3o ne t'.i 46 6s4 i
OfmSit4 Reactivity (lftk/k) ofCOt Comma t Ion Fed Al i Pas [ito id 13 122-2)3) W ULOf
W-ft JA~t 22b& JA t
Aaa
456I
LPGL343.414.32
.235.,'
I9
1@. u
U213
6)306.)36.146.85'.9s
.
11-i
I4
I
o ver; ... I
i
I4m .., !
II
I 1rh a 154 am*,
ftrm pos6lloki V1111set 91
l.. I.-. .~ I
- i . -
8m"
E
To 1LU"s ina
1.I
*I t0'I iI
. 0
4 - . 4
I
I
i
. .. .... -
- III
*I
i . !.I .
! ' a
. -.. ..-I
,. Jo
. t.. ... ..
I . I.. :s a...... .. I
.. ....... ,. i- i
-.. , -.
. : g *i._ _ 4 . . A..
. .. - i
. : . , ... ...
. , . ... . .
: :_ ......
. ;
V.
I
1:|i.IIII
-I *i I4.111
&t.VIftw SUSW6 6it a
V3.
I Us I
0 in0 4120 S WI~f 1 4TIaire (.%.cmoujs)
214 24a 274
I. . It
- I n n ...
I.. ' ,,.. '
I..-
* * I
* FI 6
C....-.[
Li>* $ -
I **
Iw
I
,-. UI . . . . . .
;1r nlig 240 270124n Iste.' I se. nndsJ I
�M � - --- MWOMPOW
1I-4
CI nIML VWM W.M - U? WIOM 2
.0 Suits (cetutae)
31 Phase IIIt ftm laee emd Cold i~I&T Ur (emati...d)
3.1.1 IW. &*IRA (td
Ih rupei s of OhM Centr, ftd fuiw 0ystm testan$ (a) to dmotrate that te cotIo wod Dive (Ca)s"tem operates prorly avcr cho ful rage of p0l=eyCo4.t temperatr and pvctersn from abiut to eperetiag
MpArtiClarSly that therrxIl cxpialo. of coe CoOV dtadoes met bled r uiatfIcantly ula control ro IIwN tatM_ b) to d trtirda tla InlAl1 "exutla thactartsttaof as entire CID a*tea.
(a) Uch drive peed In ether dlreetio1 (1nsertor Withdraw) mt be 3.0 ± 0.6 la Fe_ mC. andicated byefca 12-ft. stboke La 40 fo,60 ese.
A
(I .
(b) TM average scram lumortim tip* of all1perablo eastrol rode, based an the demargsalfo of the
ear pilot m5" mo@i@Ids an tim ueo, Aall be soS aTer th=9
I laerted frm
5020so
Averea Sarm tUsertlem
0.3o
2.05.0
(k) le, *vrae of tha acum faeti tium fortO thee fastest ceetrol rode of an orouIs of ftu COMtrl,d to a tiw-by-two stray shell be so reter then
I Imerted ftombill, VISWrm
S
SO
Averae SUM serIMf f-0 (seaM)
0.39O.9542.1205.)
... W.
it-to
TINAL SW*Mi R!PM MT11 P31
3.0 lNMUs (CestlawE)
3.1 DbM II - DMs DInsue We A. bttu (fst"UMsd
(a) gbo mimf aSetm lsert les tift for W0?
Issrt les of my operabe .mtr.3 red $WI Mot exteed
2.00 ae~
(a) Wi9b wehpect to the castrol red drive friettes
tests, It the diffeentatl. pres..,. Variation weesds. I paid
for a coutstrmis drive-Us. a settliss test -- beM perforord.
to uiich Coaset the diffurential ufttling pressure should not
toe lass thos 30 paid, Mrt shol It vary b, msot thou
10 *Sid evr a ca11 stroe., u~r differestlsI Pressures to
tsis settling tests, avn indicative of owessive Eritc:tifm
0b) Beras ties with earva aecmwlater char"eshould fall withis precrihod time loiseu
All &ha castul rods set the tequrements of Iba
tests paitotmed 0m 0"m daartaxsr-attp~suetsi?oftete tosidleatieons Cad timia2, stall "arn, couplaopchecis. sea frictiom tasts "toe parfsued twice an eachCID: dart"ag ee follomuia teal laedis. l. teomatoreported bera are these of the latter taues a pa rhW&
lbs rod poeusm informationas~tew was extensively
cheected W was opersIng properly.
Mad ti.1it md stall Ie
The soresl god wiedtgini gad Iasert tises,tofether Wuth Cts stall t100 Gate measured SCMO Of thO
drives were adjusted so that their times Vote Withift lb
above critoria.
1i-11
*IJUL -S"m y iRT - Sam WIT 2
3.0 Rsults (Contiwaed)
3.d Eha RI * Oes esl Ead Cod TeI~tw(UContinued)
3.1*3 S -S. betaol 1o Cd)
{ 1iS tl)
hs chuck ws pecfomed dur^ia fuel loadingasewr a red eso (ally withdwma to posit~oo 48. All
goes gm~ esied, to their eriWs.
All of the OCV' Vero ftictiln tested by contiau-omly Isawtfts tbm fra pouition 48 to position 0 andAbogtoaphbe the Lacolio, proasur throagbowt thoe Iertprocess.
, friction tast data wrs equired using a straina difft, atial pre" sr cell and o storage oocilloscope.?olazoid ghotoenpbs of the osellomcope tracs wre taksa torecord the data.
All control tods passed the coatimaous LnsertLomwc -ai. criterias.
Dat opea was. I testing all coarml rods _re*ldvidaulpy mm testeds Us avenge wrm times fll wall
11thie the level e * emmts. (See table m
im thee dm the fouw elowat la sequencctrol ad d ive vas chose to be ecr-ui tbree time
asob wdit siar alaw pressure. lb* mm sermtims to WIt Ienion mru fou to fall vithi the lidts
et by f tle S1 5-1. tabla s 5-1 gives the srm tin"for the s*lomt drives vith norml 1 and uin^Is win
amlstor Pressures.
C
. .
a 11-12
fLMAL -~MLT3?=? * l W% ? VIT-
3.0 P.lu (Cott_)
3.1 ,bo11 . -oa it.. m bid toatim (Gmtimd)
3.1.3 S. AS (tsINOW
- CL-S ()
Table Sn 51
raw Slowt m btol3.4 Drtus at tar Isafto ?tmes
SMS Ml NUM1 ~1aG_ _ _W
9K $Cras Time
1.6111.P7l.Ul11.619
101o23
n-
90 ScBrm Ume
1.6101.911.7761.11
I0:
t 1
'�
*m of th ee sms*Msuinlaor peuear at abigh low
Emswe 0alam Usdtats..
All sum Clow vmi wel wi~ma the siftedea.got d time w te lab" at lbsss test pIw to the
SWIllY iasrummt gemn wesi a two Shmet Sumb rscorduv.Om an I lbs tso"" "as ds vptso ml dropoutof the MAd in~ubs. In thS vf$.(r poulos Laformtimoptm) prb. sosGoe Abmol 160frs4 do II s tsanus of as sm pilot Vulvo "a data inzo
_MIYdUweibb a Plapes Witf. for e Wm prtopible
___ __ __ ___ __ __ ___ __ __ ___ __ __ - --,----- --.----
! ., -- :
3. .1 Pxul t (ttint inut !
', ! es-t ! . - °O'f@ - v4 , .. .^ . : . ' z \.... ~~~~. ... _ . S., _ ___. _ . _ _. _ _ _ _ __ _~ _.................................... _, _. :
_.1. I '<T!-5- ¢fnt r *I F'[Pe Drive;S (({:et I tkXw 7 )
3.5
V
3.0
.4- 2.5
6.-
A 2.0
1.5
1.0
, � - , I � -T- . . . I I I . I : I � I I I � � . - � . . . - - - - - - - - -I ' . .1 . .; .i . . . -. -"... -
_� __ . _ J _
_-4 . I A �-� --P 4-;--F- *-4 *- '++- 1 . .- - It I- * -4 ,._ I
. I . I
-F1 *9t-V
1:2I _ _ " .1
*-- S; t ;:I. ..
-4-i..
.5.- -4
lt.*4.ltl
-1 '-_t - 1--I1.:',,I 1 II
i-rr..-. 4,4 j-
In
. I; i.
. I.j
V....
I I-r_
-. . ,
-- . I,
.4 1
[. 4 . .4.
t14t01I *1
.9...--
-I .,4-,.T '-
t . *I1_.I ..
.1 -
. @ Ii ;TII
4. i . .I * 1 '
I 1, ... 1
I,. .q , .. ,
,I ..-.
. .. I
I: : 7 *'
I+ i I *'
r-4.- '-'*'.
I ' t 5 1 * f
5'--.* *>'1
*.-, 1*~ ' '' -i-.,
SS51 OPMYINGS MtROMM7s:
1. Accurulator Prerohar:S'/535 psig at 2CVF
. (3).9/41.2 kg/cl. At 2DOC)
2. Ac ltos Mat "I16lops ig,(O6. 3 14/1 ma.139Ops g* (97.? 1kg/a min.
3. Scram valve air Drs70/75 rsig. (4.9f5.30^9/at21
.- * . .rt4:. ;;i. I*'"- 1+ i.
[ttO-44r:;
. V - 1 , -.-...
_ ._, .. _ . . . . . - I - * I I__ I-.
,-14 1-1-
_ _ _ > _ s _ I I I . -
I1; 'I* 41 -..4' 1*V i- It
-~-9 _.~I g .I- %
-ff �--P. 1.14-V .
+",rj4- -
f1.. .
I --1_ .4_
_ 1
j . I I
lt-tI
I t tq
_ _. I
I :
;I
9 I * I - -- I I
-+ 4i
_.4Lw_~
VT
__ I .
-t- t.*4.+. &
-I .
4 r
-4.4,
i.i. ;.
+4-"$i-444i-
.- S.T9-1r
t1iate apulicable to single co
scr:s with chorging valveclosed (V-113) or full rectorsMem with charging vulveopen.
_ .. .,, .
< 2 4.
7J141
.. Uj+Itjz I -
4
'T"I
4 -i11
- - - ittT :,41- '.1I i-TT- -
,iiI44 -
f-4-
* Strom t1w IS tsh tire fromloss of voltage t; %cram airpilot Vilve$ tO 90% 1rnsert1on(pickup of Nor.
b
a 200 410O COn exESSEL PRSSL:iE. pstg
SCP.'4 PLI£F0J::CZ CMi FaUt f caE?3144A2 and 7.144al Crzs
Tlgare S71 5-1
* 11-14
VIA SIMIaR NMff UIU R INT 2
s.0 ISMg (Cet Lmed) K
3.1 MM IL.' * (ts WMIe gn CiA est (CastImI~)
3..MA U ?~onc m Countro Rod 96400feuI
V~W TVVW Of this teat LO to dltflbt* thatthe opresSiosel Scuaees, MR 40tmustattmm, ed god with.avantl 1qineaee PTOWMd. adequate iaftnutati to wchiff"artitcality and to tunrs" Pamir La a sats a~ 6ff iala
was .r Us effeoct of ijplcal " Now at* Oa Ceactow
prawa will be datezmlo..
(a) Ither uut be R seutfo 41AiMOCOt-upls.ratof at ltawt 2.1 an the wprouted opr*ev1 =e's eV fuel
(b) ?Mr*i. sut be A m~isaa camt rate of 3 pes
an dho ""roqid opcrsblh got's ot fael beadft Cbmbe0
(*) ?ha nXI macc be as scale bem thm owe
Gissad tho red block set poinat,
(4) lb. ISCS &hall be operable u spcistfied LA
the techalCa spedificat bous.
the 6"patiunaal souarces usra loaad lao ameeme
comelataut with S fl-S. fuel IA,4widiv. Boome laowtusaxeshams to eipwa Sri 6-1.
setar* tha MM)'s wuc Issaned IUD the care, 0alircomt rates wre obt~arved tai .lctoeuim their baftraw teed'tup. After gutty driviag oua ~saM' 1U9the wrqC", theIr
soist ates Waft 4gflt TeCont~d t* IMMur thAt cbs SISM).to-001se CItUrloi wams eMt This data Is ee&Wd ta
table ii 6-1, te4A the 4izcrImIdiatot and h5.* Voltage Ostim
for the 5) units amre 4a table~ STI G4.I a
rb. RSCS vaS deMQonr.rAte4 Lo opGrOe cIrreCt~ty by
thes labzhlity to silcet aut-ot-gaquouc rods.
- . - - - - -
II-IS
3.0 WH3 ts (Oagtimm)
3-. 1. (Cautlnwed)
3.1.- MI4. £11 D1EvfOwase M. MoJ ioajd fxi (Ca"~Lwed)
1AmI( lCutinued)
*h n.CCOr was Lrw4*ht to crLgtcallty la s9IM"A'* *a dw ltt notceh of the ft5d rod. 1 ertor teu.a Ws r w.
After WlWIN overlap WS wrifi 17 $s-10.e 4M VX'6 wuTO renowd fra the wwlsI 4nst
6a gid, v Otshe *DI big level blotck. m at their_mel Poi of 1 x IDS cps. It Wasls@o shin that the
sa's were sapaba of initurita 7.5 K 10o cps wttbmtSaturaC ti.
(,
All test crteri were &atlsftid.
Table 81'1 '.1
_ __ I -- ^ I -
a1m fuly merted 4 a50 S
Ul 1Mt lated 40.1 0.1 0.2 0.t
Sise-te-Das. Itlo 49 39 14.0 9
Tabe onf '.2
aI iU IIP a to qms Sialoi CPS SSO to5 sa 15 q
RtI ame a 0 GP I * 10 cs I a cp l l cW
Imp. Voltage 3O vdc 315 i. 2 ide 3US vda
judh Voltage 386 vde 40 We 350 ie 319 V&
Disecinator I turns I turn S III tum" 5 1/2 tlW
C
.� -
tl-16r9lNAL SM"V K T - BMEP WIT 2
1.0 Rteg u Its (t Ml4w)I.1 I It -* - VIOl 44d COld TStiui (COntillaud)
_ _*
3,1.4 SU-6. and CA _ od_ Seeuence (ContiauPal)
BROWNS FERRY UNIT 2 W mommCOKl P051101 w MAP~owe
+ + + + +
= T_ _+ + + _+ _ + T.__ _ _ _F___ __ _w~
Id + + , + + + + + + +
+_ + _
a
a
a
a
-a
ma
aS
n
a
Is
JD
_+++ +1+ + ±
.._I +a + _- +- + _A
n - + +I+I +I+I++I+-T+1+.+PS -... I. -.. - min - ---
:- +1 + + + i+ +,+ + + +' + +j_ - -4 O_-
£1 - + ____ -1 - - I
1+4I; 1- *
++ii?
-1-+
-- + + +It +I- H
It IA+ 1+ I IiO a a a * * £ I f U U 6 0 N U U asV a INt 3 *be w.w 1)0 , 0 6 r 0 1 F 3' ' s . 00 I
Figure STl 6-i
0
0,
fLUU
3.4
LUt
Lh (Case m) **' t
U..5 a nul0 2 = 1y ar m
The mip of. the gme to to "Jues the W ule:
=dling nse mlwyteM to ees. as Opums Overlapglib dos SM ad AiM sstem.
lah UN 4~imm must be adjestAso that overtopwith the SM's ad ASM'S to &sawed.
VW MeSNs mut Prdis a "raw at 1W012 asf tul
Ih IN reud"* i _201135.1 f11 "A Oa lramp
to will be set equa toof Is" them 30 of rate Piwg.
gu UN set" veto iulia~llg sat to union SS1Ono nuE actas "&~Palsa "to chskaS duieg WnHO siagestift Od ean aelateisod throm* rust suwomesimo l45~w
Jog et Isateuul of Chis maflo. so MU*.& sA4 La-s pleg
in a safeieslslaukss seum no"S fri t fasls toials. Atdoe aim tae Sagte) anap dale me s "Wms as so was
satalsa mus at 3 x0 UrCPS. Ws' mwe thaemti WIthdi.. dWulV". .eto" to "e Is.aa belot "so
hs41nan warn earsellase to tbs Sall.ia Vsh.
s ofM was u tdarafs the swele to-.' 'O
vl t~s Al 0 We on' Oa wf WM...
Ut the nus mus *s4 to . 2ww. dR 04
Alas*e M " " I .SM1 aU.g s iq w
minoc 11 aws md nu s wars toes out ol awsofw.sMw Maas minde.
All Ullteria afflica lu to do ope vessal t,
baa a nr m-t.
-
PU.l non uit* 1V I
Saol Ri ( I .. -
Chub" I e~ e of VW$ '~Ia (Oinsmimi
lb deS.wo.paO ._ _ .. ....
bWMI gm a* MAs u. *muatla
m-a
VIM XLVWMAR VZM - VW? OM! 2
L0 i3tJ (CmUmm"O
2-2 I& M _ Isittel St
32.1 r-. Cstral ftl Wm
rm laou of Oth iomm VW drdv stotm tetmo (a) ft iummunte that the asturol Sr drive (CIZ)systm Gera" prerly over t0e flul mps of Primary
"at tWIa r p a t. nbiet to oM atig.ml Prticlarly that them) exe"If of res casposestodo" age blad or swlgem%2a17i 8m control C rod mewemats_l (b) to dtermim the "Itds. opraotta chareotertstics
of th estire CID systm
fteh drive speed to either direction (twwrt orwithin) met be 3.0* 0.4 ;... per se. inicated by a fullU-ft. *trok la 40 to40 soc.
*s arasp scram Imserum time of all operablestra)l rtd* based an the _efentsatta s of tsh serm
pilot Vl" ;olmso1a as ttm se, shell I no ureater than:
Ilmoltn fm kNM" Una_ I;SiOe
5 0.3?5' ' 20 h."
50 2.090 5.0
Yb. averag of the" se issrsa gties. or the thrfaset smte rosf al arep ef for sotu rode is
tb-m stra sdall he me arste ib
2 tasrted from& Averag scram Gaa~ttc
5 0.3920 0.954SO LI20g0 5A3
9
_
11t-2
C
z.
VIA SWfARI MM .- ONK CM~ -2
3.0 .1s D M uiamd)," a m m
Usaulaa IIm w asertla ttb for M ae2 if
of y rabl mesult wed dholl. set m 'TeOO secoads.
Usgh respect to lbe coat"l uIv drive frietion
taste It the differsutial freeman valutate. mxods 15
ptau for a costismae. drIve.:4, a oetliap test wass N
p'evfewmedg to whic cuese the differmattal soutliag pressure
oheeld sat be lea" sOA 30 paid mer should It may bky form
OMi la paid mar a full stroeb. &ower diiftereatial proowell
is tb. setliss tots. STO lodtcAtIv of meaosves fuittiof
SUms time with eamin acinmolatr charp should
fall Vitshi Prsscrfled It" flils.t
Tae teo" GIVA5 laeesowwae cosrel reds WMr
Used as rated temperature s=d pressure MA geo eaisho t"ery
the lown ameest isomqumee Toos ("etre agod
10-33 34-67w 44.11, aed W021)w , friesato tease4 a
3068 lots reactor dw presasewo WM of Sbe to"s ha
91r ms re. vU WIai Sa - a MOSliMM Itese tio asse ias
IS ped.
TMe to"n esum Tod wage sermd OMu~ etms at
M0 MO we Vags Teate Presoue See "abum Sf 54- .NW
lp.5g
-
nI-3
3.2 t. Y tia a
VW bble Is& 54m tbmo umit,aammoutt p£sdsms ftb l fa "g" t csat 1,
an1 vto"a "AO eutea. m aST 56ui inomu1 sume ime Wtt&fbum os
lII-4
FML WIANT REPORT - SWI WIT 2
3.0 t (cmtlawd)
3.2 Vt.. it - Ltat! utim (Cntfaua)
3.2.1 3T14 Cotrol Rod DT. (Cstamd)
Tabu 3? 4
600 pd Sas Teat, - ft"s alemUst ues
c
Wv *t *l Presaee Pro SfeweR baseitlef TIm. ee.t Il ~- t tS s _- ____ __ 0__
L~oatio Nuaber Pau tell 52 202 502 702
1 SW 1098 0.314 0.6" 1.4fl) 2.352
2 . 1098 0.3 0.6" 1.440 2.956U4-07 - - . -
3 600 1098 0.29 0.610 1.36 1.150
. ,0.311 0.643 1.401 2.819
1 600 1100 0.194 0.629 1.416 2.842
2 600 1100 0.299 0.626 1.388 1.794
10-23 - - - - -
3 600 1100 O.2 0.612 1.30_ 2.620
CM29 0.622 1.395 2.820
1 Go0 1098 0.312 0.617 I.332 2.633
2 GM 109t 0.321 0.63? 1.36 2.653
3 600 l098 0.221 0.624 1.336 2."2
___A__ ______ .321 0.626 1.344 2.644
1 00 1098 0.321 0.6?? 1.508 2.999
2 600 1098 0.337 0.687 1.516 2,974
4 100 1098 0.*32 0."8 1.492 2.941
OM 0.13 0.683 1.505 2.I13- - -..
I
.
lit-s
11. Emmf Un ,- * Wn MT 2
3.0 Semite (Coatime)
2.2 am M 1 ta~tlal wragm (Cevtaud)
3.2.1 Ew14. Antys1 id Rim Ccam"Id)
0
Table 81 S
M.S "d gm Tons - pow Siius" VA"
Matter kumslaeor s louvtTim. seesftisa Set i." ?rastars, -ct " nIaati n er et Paz ps SR 0 Sax 102
I we UN00 0.s2a D" 1.644 2.893
2 Wo 3100 O.J9 o69 I.560 2.718W2t
I na l100 0.34 0.*69 1.564 2.J4A
_ 0.31? 0.06 1.659 2.786
1 NO 1100 0.322 0.732 1.1596 2.77
2 so0 1100 L.314 O.86 1.A32 2.J7
3 oo 1100 O.Us 0.116 1.136 2.736
mum 0.313 0.112 1.595 2.754
_ 1 0.332 0.742 1.462 2.894
2 No00 100 0.340 e.lm 11620 2.0846-11_
3 I" 1UN 0.S" 0.769 1.062 3.029m---
6b ___________ 0.339 60.11 1.415 2.926
We 110 0.340 .l74 1.614 2.636
I NO 1100 0.1 0,156 1.612 2.19634-07
3 WO 1100 0.341 et? I.S 2.736
0.344 0.70 t.60 2.79
C
'V
.
1I116
cVI51 SUKtM IPot - UW MT 2
3.0 blte (wtim)
32 Z"II-!Mtlgg (Catinu_)
i L2.1 MS m^ iDio (Cwtie)a
1000 VSt Scm Weta - Oewwlator fteso.Vgur Sicut IbE
C
DWU fot aector £cs04-tor term baevtls Time sc.sTes PrssulO. Pinion,
locattoa mer Psl po1l 52 201 02 702
1 l0ow 0 0.362 0.748 2 t.60
2 1000 0 0. 11 0.143 1.34 2.67
3 1000 0 0.310 O.m 1.So 2.65
0.359 0.7sa 1.36 2.64
I 1000 0 0.3S4 0.7I4 I.S 2.71
2 1000 0 0.s32 0.111 1.4 2.40
3 1000 0 0.37M 0.716 1.3* 2.57
Nam 0.3)7 0.72 1o.52 2.S3
1 1000 0 0.S13 0.742 1iJ0 2.76
34-07 2 1000 a 0.330 1.60 2.16
1 1000 0 0.315 0.I 1.60 2.12-
bas 0.327 0.747 1.60 2.75- - - -_
I 1000 0 0.340 0.734 1.51 2.69
2 1000 0 0.324 0.732 1.56 2.6810-23 .
3 1000 0 0.335 0.756 1.63 2.79
_ )_ 0.33) 0.741 1.59 2.71c
- U
It%-)
1.S vo mits We
ILI-& It1-s. ow1 iftl samv 4Ihi-)
)*olffd a Mod _taT4 - Ut§ f"
I - _
M M I _m- hi blfun r_. s.1
" _ 116_ i_ - ad 6
( XS_-ZL Z B_ _
Wsl I N wim I I W _I
-bA -L .4L I." .
JkZL _~ _. _ Lfl L
- ifW _ _T L- L
-U-ff _ 1 _ Ln LI."~
_k _W Lj!., L."9J- It . _ a. II LL-al
- - 4.411b0 LSL1
-_1 - _ __ -
"SI- I . 44
41 . LX! _ _ e! Li.. .. ! **l .!K JI L'L L&.,1-f
1.- _ .3 4. MS 1. W 3.41
n_ _ .132 .". r.8 S."
-M _ _. L. ._AL
-" _ _ u 6.41 3.t L..1
A,- _ 4z .641 __.1 LAt
ial _ _ :!
~~~- - - . .m-
. _ _ .611 1.8 a.
WI%1 LUG IL G .44 1.42 2.86
34-1 __ _ _ t.JA MA IJ.1 .W
t-- __ -t[ -s
s-4l M &.Us 4.84i 153 #.Wt-U nt 14 1l 1.42 4.44
-11 _ .130 6.69 1.48 31. 1. _ - t Lo I.U 3."
2 .3 16t .4 ." 3 .81b-a110@44) a.1 . se
.b'fl _ =- _ ____ 4 j
VA .lU 691 4.41 3.46
tIS I_" S m* ." SAS
WH-IL U4.1 0.6" S."4 3.1
44-fl _ - 4.t3 4.31 1.41 _
- _ i -4 _ A . 3._41 i nUS PA _." I.99
14-1 ki.t 8. 61 1.81 6.41
ta-Il@ =*A19 _1.3 t 61to-1 VA 'Lon 6.12 8.L -5-1 .159 0.439 L.5 65S
VG-43 I.621 6.861 .1 34
2219 - 6.14.3 LII B4?
14-St 9.3 4.62S 99 6.4 3.
32-11 _4 _O 6.4t L.6
,"-l . M * S .4n I. 17 2.t
WU%| _ .u' G"~ I ."X S.n
4-It It-RI LU6 1.. _.8
IN-lI 8.1 2 A" 3.461 3.42
IL _ .1us LI.' L.OI t.41
12-4s CMX AL.> R.S 8.4t
46-4 _ ,N 1U17 L" L"s .
w_ QU-n _ * $.I -. 4"
44v _ ov _ .n aX t
I,
I --
534
mift .,-
C �' - �.- Eu - �um
iDi L -�
- - �mm mmmi
.Jkma.mu&W�i2
'maAWLS
&WLIILUILS
SLULI
- - � LI&IL�N�L�
� 1W
�ZUL - -
-� - -
- - LW � 3.�LW ial
0
* a M -mm- u
-
IJ-
L JA
L AU-Sam
ILa
L AA--Ij-
L -
L A__ _-
Is-
hr.
I1'
'C
'I
-1 -
. _ _ . .
stt-:
VmaS AM" pwr - -W Orr I-
L* ldll* fruui)
LS. IM - 14ltp 'ale* m
LI. _-S, im,., Mi kiW OWNuDO
sal s1-&wmwo_ * a" Sw ba - 'aw V
Owta _ .h ___
lt" *_'}za t. t I
42-1 is , .p32,, 1.44 2.
t. _..~ ~ ¢$ - ._ .44
14_ . _ . 0.3 r 1.0
a-i It F; e.4 1. I t." _Sf _ ___ . .14 1.441 _ g 1. 3
to-it _ .n 'r-i'. 1 .40
3041 4i t i . Z. 1124.41 3.t 4I _ ___--lj D 1 j + . JAS
42_ 13 ,.. .34[.,.. ,.*144t* _~-- .2 A. i t ---- I__
62-e i ...... .. I . ...
1^.* |-4.Y!, t, !A *^ 1.^s 1. A-
__1 ~ ~~~. u . . .$!*b . t41._
Q- .. a,.. , I.. ... I" -
PSwhe ha.d. l ss t.Wass pm w sum IWgtm aw.
L~La
14s I _ . N,^ 4.01 3.411 8.44
,14-31 4.11 4 .410I~t 3.8 .
34-131 * G I.I9 3.44 3.13
j 1 -- - 0.11. . 1.6 2.4-ti-al _ _ * -. & 0 14 t
43 __ - -t- ..E .41 1.41 3.48
14-31 4.1a 4.114 1.14 .6
VI4; --- . u~s 1.6 |" 1.4 LIS
. u-11 . .11 1.4* 2.4
34-s 4.14 I 1." .1it
130-9 t __ 0 8 0. I." 3.5pi-S a_ v& I.n. ml L t" B ."
12-U S.11 .. 09 1.48 3. 13*
14-so 0.u1I 8.113 1.14 S."3
41-14 -s W .. * .... I .",
ILXe ItNS *. 14 I" | .11
it $ x ̂ t^!!gtlt. sna- .% 24
t _ 0.20
-47 -- 4. l3l.I
2 . __ 0 _ . . .
t415.- 4
.I 34 1."
.1.450
4. 110
&_a_%
1. 3
1.3i
1. U
1.11
I."_._ .. _
Ill1
R.31-
3.41
3.96
2.43
2.11I �- I.
.4.01_ 1. is
1.64-1.3 J7-i-AL Lt-m--I W ... £...,- . is 1. ,.6
.II_ _.t 6t.l 0 1t
SI,.-
ass m& r~od so-ftmowm
I" 54 "Mmo-.&on la #a Sue * ftoW ft M
a mlmu
-. 3 IU &.W &45 La .o-0 - - *l- - -
53 45n 48W1 LO LS3-*f - - - am L- -
wn IL= Lam &U 8.4a - - -l -A -q
L & .1 -.0 LO L.3
36-43 LI 453M Lft LU
5WD 6.110.460 3.13 La1
44"A . U &PS 1.48 LS
&4 .32 &M5 LU LU
111_ LU 04 LLU LSI
5-4 £5 404 La Los
11-01 £50 4UN1 8.4 LaI
we4LI LM.05U 3.3
n -f - 0.34 C.832.49 LO
54) 053a .1L 24
40-" a~m 83L 1
Io
41
Il-i
F.0IMALUA 31CR? -MWd WI
3.2-Ib 1U - nitial lma WS ((.5atift
Mole awl ve5I, : ..,
..
a om o0.314 0.549 1.10 169
5am btrm 4* 0.333 0.729 1.007 2.516
1000 2..A 4* 0.329 0.743 1.568 2.668
1000 Nonni 185 0.324 0.692 I.2" 1.64$
*Feet slowest faseques rods
___ - I II
213n2
C mom!£1H~ W1C?*m IS.
3.0 Ami (analmed)
5.2 ~.m*tfitbb Cti4
of OA test lto dflatm thadoa. - -rfl"168 m lMttOstlm, ad te with.diml sepsews N~o rrw sdapte tafsmentio to addavee
sultlsflt7-W-d to Lswaaum "Wm to a soft adn elffidas-o. lbs offset of typisul Too iw immz-sf U8mto
(a) Ibera mat bee ammeste a! ul-to-00ee rtitoof at tent: 2Ises the feqvited OWAnID lEWse tim)~e
(b) these mist be a statuem cit nu. of 3 "aCR O rhe quired oeprable UK's at fast lomdiaw Ambeus.
(a) ase 21's mot be o scale before the Eu'smeg &be god slab goepl ui..
(4) ofs ma $haI be 9WOa a wes.11ted Inthe toomdlea speciflutesm.0
kit 2 m heate to Cate t~ampssw to Mapsa"A"~. uSeOm £Mlmtanttes "ai *tfoul OwAtend tolInm safe. heam* tate SW4 VW amIft.
a* M -sef adu the bad wired I= pieVestal an of-seqmme rod uofemea, im misimauiq Mhe
Is0e1 i "AP, the WM to COguue5o forinjet 04 X%~~£13as. 112. M Nism viw* Mu 4abovethe AU. rodsliii. flows nr EU 3 at mdi 64
to aisn alfe the Fm31)4. &n* ebpoae
Cad uitdramal to a6 &uNlw for aeSGOcs We ASY rod 1*
IA-- I
*�t6
i
I.
II
30~M(azMe) h mN WdR-m=(~~
A.2. l m$. m vostim mdwe DiSas(Cs)ud
no AU UV be aslaedt and o-stlmauy ultbhous. V(thspeils.li 'sIe to p~utbad by the ML) A12ll Me 2redemees bi 9s'o befor a obaM t ool o msbemoved. NWl te A34 aw be mlsete an soft moved m4"Wm3y to doe Su agent bmulty, asmm %hodweIboar' patuwa. .t1boob AUl WA M an' 2.1 an
-ya",~ le poqi be mov. he Or NoS lop weMI In the AP a s tib mads. Sei., all the go"s with"my stves 2M scoq met be withia IMMIS uthputof each ethet. of bither ad inws as pechlbt"i tothat lpIn. W~m the restew Wist tobass ox, OnrC" moesa e .moate s withe pwinfl 4~
s MU* ase rod pop ak W4 apre&M to gesqMD-aUs enasure. AU test ustarli.s mm.t
-
11-t14
C
C
WINAL SL~I&IY REIIuM a Ivuw UNIT 2
3.0 aosuilt (cocntmma)
3.2 Dase tiU Z Initial Macu (Catyied)
3.X.2 3t4. A ce-tatmA* A" cou Ud sentme (Ccatiwed)
IlIua STI 6-2
M 3M W Croups All iW A34
C
UT -15
F[NAL SLMAARY R.Fca? - AiFNP UTIT :
3.0 Mesults (Ca=imid)
3.2 fbr It- TnittalHestup (Coattnued)
3.2.X rI-6. $RH Pgforam^n and Control KMod Sqtuence
I I I I
I
iL I I I I I I I I I
06 t 14 to 22 as 80 84 3 43
Figure Ml 6-3USC did Croup 512
£
111-16
FEIL Swia Kac e anmr UWIT 2
3.0 ad*ults (CotllAd)
3.2 Jby III - lAtt " (CoQtlmA)
3.2.2 STI4* -On ?omm. ma -& casual W4 ftqri
* I I T I
C
. A
-I. I L 1 .*>*,a
.cVauar STL 6-4
5SCS RW Group 034
-
lu-17
3.0 b&MI (""tnS)
3020~Se A. Imita Whfu(Cn=m3.. 2._ .
So I pm ot tli test U to "juet the utw f_"du tow Walter m to skais a aqur wuu .WM me b d AMU eitm.
(a) goab £31 shaul ama be aiwuwte so that""up with the m31' No O1we to aewisi.
(b) lbs 13' =at ow, a site at RQIUSf ftat "so.
.0
.I.* : v
.I
(f
(s) lb 3M1 redin 120/125 d1 fMl 1 es l*_l VlW am A"s IW~of ao4
TW 10 wilt be set *Pat to o Uea tbm 31 of atI r.
as 1in pam~lftfats wes austedW tondwity4beJweo gms Os l aaw i4Wig Sh WI44 bstaWSolnWSUs gm ealumbw o tie s " W t e byS' hihaU" e t. teas'in, abs Uwe vet adjouted to eS de A"W' -WNW so
hiatUa We u psiav~ 4. Ik with as AIm's Wedimp I- s pft4 tt meis1 9 t l w p S b s 5 3 P I t .1.s 1 h b e e p i O t em'u
o eto . .. * a " 1 _ b t to
m1w om a= 091 Vs -o v
I
.
1II 18
3 40 smiea (oiIntatal etu )ml4
a 3.2.4 LY-L i alihrect
the ~pss. of this test "sto Calirate the"WTso psin Nap mwouif "nowsm
(a) the AM ebommi mant be calibrated to reedowl) toOr greater them the 4utual gmr thermal paw.
(b) Tofhalcal specifisatiom and fuel waurantylimits co AM "aves s od w block shall wt be suedted.
(e) In the startup .. i., al AIM dhemos mastProdue a smes at lass She or *%am to inl of rated
(4) pleallbra~tto of the AIM system will notbe aceassary brm saftey cauuidere4ai if at least twoAIM chamools, psr 31 trip circuit have readlopgr eaterthM or e4al to core pwmi.
(a) If ase ebom sareris gme satisfied them theAiM Gbomml will be camolderud to be readiag esaurtelyit they eaves wishthe heass balhace to wUMi 11 of rated
heal belaue based as the hoast" ltae. Actor the bmalIate ha s Iteiv*4a at 600 . FMr hWas Oa AIM's mo.set to road An ahmmi pwmar. at* soetibation was
OW mail a We Mcu;$., Imot balams owld bs prtoMdat a huh. wwewv) 411 agiSble3 "ast e44lI Vonsatisfied.
C
n t - 2 j9
3.0 Bult (Csst~ind)
a.m In * "lailh (0)1mi)
5. 2. 51.. "f be_ r
so _p of ta test to to waril tbe g ; wJeeati of no noun cme isolation comls opt" Overits n- epertra peem r- ..
(a) So time Ine actuetv miguel to swirSdOWmst m be Ins the 30 secods at w reactor pressue
be N150 pis ad rated (1020 pg ).
( i) th r diseharge at " prnsure betvem150 tets "-Im Pat& the e"qird . is to 0 G rn. (2miit of 12 PS Imla a ly MA ielve of 100
Pat for lime lams. Im sof so os igmyalso be NW.)
(a) So XCIC tuabile ut mot trip off dalaastuaitup
(4) It *Ite of the flst two 1l1 1 viltema,is Ot _t, te reactor will Ony be alloind to perat*at a restricted pal Uant.
(a) SW tubies gland "SI _ooinw eystin ma11be seeable of preveuziag stem leka to tl atpbere
*. *so AP with for the WIG stom suppy UFAhis% flow iuoleatte trip schal be adjusted to atute as3001 of the _i tqdnd stead stats atem flw.
All testis5 W5 Scndwtod daims thU obaa. mmmeC "kin"ag t" ftm am dSeuare to the e _mmstora t_.
At no50 pess WOLDal Vessel Pressr. the Wuteat MO eCaepllhe with a discharge presure of 210 pgl.
3.2 Mmgs al idta si.ih (Comtiund)
-\ t
53.5S knl3.meS' (098bwa
At N"se s 1 gs veel g'm, tbs IMuse - v~.ue ub a dlsshuss prvm @f 2 polls.
As I=G gets =Iami v"ssl memee. as Meittsuweseis) Slamst diesbaupmagsels of 212
Ur( gl) 1....... teelsa stohNA$J04_ u* P"
"nol u e wnldu estlbssey. 2e gnuMU d.fus thsee test 9.5 igeseted ta tablo I 9144., Thueleat
r& A.abm is gloom m1 WI twhZ& Sim I".
All test 6ttU= Of I lffd" with the 0en-.aim Of dos leve 2 ultta" to, MO stem 11v SAOSIOUS
etas". MOMIve pea Om Mm*" do SUM taplsge a "Om Shea geve" ISIVA to do noew flow
* mmst withes. au tm ame mud" sGommMtIs Mt at s 481PAted Ms ntd stem flew tsoC ) i mtzuint low. So Owitch imis set t de
ete~swhcl e geeatitm auit .1 450 laee ofU%@ "MS"i :solftlam by TWA MD -1 M.
(
E1
5.0 saw" (021m)
5.2 Sb. n4(o
2"Su W4
S/.,,'
III4
M=a
.amius
MD
am
so
100us
km
s20MD
U3-
420
m--
40 too
40 1G
u-w
.n
uA.ISA
Boa
en twa
Z14I 2U
be*a
At
I . .
X. . .
I.'
C. .
/ , ;1j. *
0
- ... ... q- -� - �- .� - - -
- 0
. 0
~~~~~~~~~.-... *.'f l_........... ..,.
., . .. * , * __,.. - ___ A -,*_ s_- _____. _____
. - *. w A- lo -
.. u s _5 ..... ... _ _... _
! i -w*
I'. At; .,.. N.
......
... . ..,...., - .
iw .-- - --
- - . -- .. -..- 0
.I
-v- - --,
L; -
_______________ -U..
0. - - -
If~~- - -
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as pupae of this test sto Verify te fboeloOPUnttM of cme hi* Feesm, eosett tajestla "atm
tbrqbo do9-m of naml PalmSST =mU&tM.
(a) gm tim ftm asmtusmasiaepe to "qwImeRimw Mot be Is"r thea 25 Sesm" at NW gasutag rOpSSUbetweem I@ Peau MAd wated (020 9s1).
(b) mut pe daftbow at NW evessaf btomue10 "eto ad 120 Pet. the tft~ dold be at toast, 50081. (toe limit of 112 pou imlades, e~a UNY hi*
welme of 100 pot for Itelosses.* as meWId Walliemay also be useds if auslahie.
(a) ase am turbim mat Mt trip off Aubeg
(a h mbfte Sa g seal *=&me systan dudllbe capeble of eusi staem leakag to the atmsapboe~.
(b) soe Al eultab to the NMC atomm WWIIl timhi* Elm 1IsoaIft trip ehalt be adjusted to antuest at225 .2 the mhme required stesiy-stata stmM flow.
All testing was 606amed viaW~ amC thqSteelsfrom adl diseheglasg to doe coeleSeIate storage~
At 15 pass adm peis now1 reactor ""eolpu e, SMi mes tested su taefly viah diocup
pseaurse of MO2 pi andmA Paursssiey
VIM 100 loelts 60MIni Vessel pressaure NMwa tested succaseially with diwachg Pressuzes of1140 Pels eam 130 peft.
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340 M .an U! - Kuttalntm( mg
3 A 31132MBt(OMUMsi)
swamflo-weMISS*&%
bhl 5?: 154
-&bw VA%VI-I I"
AM*&% 1m1ob d- de
am"n
Wm 150 lam
2150
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34 m.5.L07
00 pullm ant1
S. b lu* s I wilp s61t14t for he Omage £13121t Cas the SWUBM1f pope
2. to f,1d" asinam dot dos deamu bottom
as vsmto rooselatuapo Aafl eam beoperate leso the eaietlpset ta thO wor Md
1,gutso bottohe bude Munt wt qua Sw.e3 as MA
aet. pMmon
gas e "knm to wufy dhe ofopeq of ahe bogs"
so ton dmt Is eelu Isn £4 wow Shag 1W1 vl "me at swowsarn #PM.
tabu on W
selets" no""a -psisWOUW
U!-40
3.0 &WI! (CC m tiI&20
(k.
VWrZ
_ _~d
2 - U
M Li,
bngm
m _ (cb~~~ .-t 19
so spm of this test to willy that themacto, dowdl i*a tatifted bem -d ohmso tlb "$ado& $p us pamlti 4lmf an t..
-mom SX ta to tbmul os. and that_es am e en tinuil a to ih. spefise ":-*bs moat aie mU. do". fa, Oslauieva of stwm levelstu soulea and us2dimo.
%I*si shel be IW 4dMe pof bloekiag of theiis.1ht Of mW Wt,:y CMPMAt GOMed by theimel
myla oof th syss ,-haq~~auft* SCio M1
oam shall Met be :Mtew an of hm therag flly suete
dftmll dwk ad anet.,. ehall be ..tto widthi ofl .1uh defiend muftis.
N le-t* of intstwd "edu wNM spe,-.vmdS de oatulated vaisee
0.3lsmg 1hbowto Mallmi*.0 Rh. too h be uealecet. Sim*e
_t dl , y of wood"="UI mmddepam dOac MOt thass 4TAMlgri s
atdys 400lspr ywo to yaun OA des. witheto dsall etionme;.
so mo~ of asIhe ow i~tedP"A a kednnn the%WA"u eyoa ame) be ho V 0 go" of#39 f 250101callted wls fm lbs 4Id la theditegum of ase luulate so m. of tie76tesa ItaVolo Cm a* Swl.) podium U tb olssl. dlawtu, oftas galcalatd Wallis.
�- �w ___
11t141
3.0 3gWIa (Coettm4)
3.2 Moas III * ata ste(aimd
32S 31 It. REMt Imosfto
Simi& (C~l~
the bft so a.14 attlp).
WfrMtUe dkoA ad aMY W~to~ dhall be witbft"weir oweatiag raw (bewes tmheobt ad cold settuag I~LK),
C..idt CeNUMoi ahall rUmse flexIbl (no Uighliaea or axial 11"elme).
Mrir Lo fintial muslau beaum, hl =aa hdas..lie GhockL &A may autetof CSadiags Una recordedA for tUe(&ryutl piping Ii4ed* balmw. Ttwese radue winl be co.paruwItb weduedag taken aiags a future emtdms to &m"UT twathe FIpISS Iretwa to Its beast peltfios.
3aai~wultis * act Vaw Ciepstem .C,
CI IydrMUl System got it Lism.
soe duywmU Piping in Pasra gm inPeceted cmrestatiaioa to ftee md mreatratae wtia *iat thernalUeSMIM. mime retwiattia m wre sheerw ad corrected.
lightestlem~ Voltage diffarmatial tzamiters(Lw?'.) Wur installed is the ftywit to recor thrmalmovm~" of GeIected opipingm h LWor trowla a cmsimons,none (ouatai drywftl) roadout of unumeus due to tbommotGapSMataM. Table 321 17-1 jllustretes Vopreaeatahi dae
£ tm hee ps.)instrnate.
- -
I
-I
0 _(ctu) E
s.2sat 1?. Iwt il
M ( e'ma.d:
z l ( .ms8-in i doU be t bf oob -ft
Xb_ eelsmzt1). X,
~ft 0 bosh no yrstan doll be V0a:
tbeir ooezatls 0o (btwe s Qboe m tsuas* t 1.
Co66t eioometaft all am" 00ezbl (no tught
aw CT.al jat'i:)
* lot to fit lmsis betup bow s ad
U4 Ak a sa antaor fWALS gut clls iesogi o
.rywal epla lIated below. Ie gidlq atl be c.aredVlib neaduw ig datift a wteis Sba to "am tha
lb f Pping gtti to its b0as ""ssli.
l1tutt -tu C1.M
Stem~s I
CID ywloSyulas etuwu'"
s dreywl ut" o An sow " V Iae twxetultfeism to. gm me utAmt muml. dUlm Ibosms
mum "Stui w bud adCOS
. U*tua Sim vtot" X datot" titmmt:(1o#) Nis lastalte ta th dI %O uosmid ftms
atof MsOtad Ifs pU a .et
(""Id(astiaal "t 0# "ItsdU& to .. ;-T table R1U 174 |lhlas"o pe^usenative daS,
ci t. $ea" i u. 'O
II'-41
C
C
flKAL BywIay LOUM - UfliP UNiT 2
S.0 lgaeltg (Costs~aed)
3.2 7baso III -Initial ftates (Castod)
SIB 1 M1 lSitem buantoft
MWIMii (Constioned)
prsimsll 21it (cantinued)
Im aralks she dryill piping moved 11 the correctdirection duing beatup amd retumned to it* base settingafter cooldm. kver, the recirulation sysste loops bothexperisoad Interferenca problm and did set met tostriteria. Several drywall t1ies man tore ed to locat£
and raw these problem. and eertis free ad unrestrainedmovent capacity. tves after onowvf all lisibla iater-ferences, both recirculatlon loops eiperienced thermaleapansion not meting the level It criterios. After ascr-tamin the eysts to he fre' sad _ estraiad, the LIDTMASUrMOStS W&re seat to OA4 sySteO de1signer for analysisof the data for thei PetsiblitY of -Io stresses on thesystems. thei response wa positive and the systm weredeclared Oerabie1. Dhese intsrfame alogt with thosefound on other sysma and th correctie actinns taken aredescribed to table S5t 17-2.
Datei the first two heet..peoldvow cycles, allmajor dryvall pipifg bangrs and bydrealic shock and awayarrestras visually Ispeat*d was fo to retura to theircold settings, Indicating no deformt1o of the major dry-wall piping system. for a emry of td bager end hydrau-lic Abock ed my arrestor deflection data for the fist two
beatu. cycles, am tables 51 17-3 511 t 17-4. Prywelleatry inspetions during beatup Indicated M selecaed hangersand hydrsalic shock and sway arreston wave within theirper4tift ranes. lee table M 11-5 1 table m 1U-6 for
a u==" of this data. AU levts I nd ILI test criteriaware "tisfactortly Mt with renr to baIn and hydraulic*hock and oy arrestor readings.
2Dwll IRection at Varous aeclrc. MM.
During the first heatup, several drywLI l"spec-tons e an (_i.e., ibiant, W W., rated coolanttoperatore) to Perform the following
1. Visually Inspect selected hangers end bydrsulic shock ensway arrestors to verify expected perforoance.
I1xX
3.0 _ (C(MI_)O
3.2 abm lu! TaImtu~ta mm .(Oatiimid)
Ha tryue)pnrwiI--ku fmt at Tar"". BEST*, "Mo. Coad
2. suvally witt the. we a me inqe comatulat of
4. becu4t melgaA by&MU. ::k .WM
S. loest Sam& I w hisd" deva to wuitly
S. aco!the appHIom ze I tI Caeat fbaet eett m u.
*. dmec the fledbUl e mAti eeetts to thto "am dth syst "a at -- As A" tmy lIfo* oz peufpeedtesif ett es the flezible
Velofta NW inaje pleet mood.,. to cold shutodami, Of LiSP'" muspatel ad the cold settu noorms,,, mmn te 1 ,4 ot. feetet.
If
III-"
MuL B"My RIM31U - BM31WI ou
3.0 ftiIts (cusummi)
3.2 ft ffS III * aldtIls betkw (mls)
MA3.2 b.m (Osutlams).w
c
Ca
lbuatered calelatedIe tl e a iup a m ta D ta lt s O lf i m if ei s ~ U t
"eel: 1 4.02 * 0.069 057
o -A T -1.143 -4 O. 1D.J la" tima
) Z -0.,n -0..8. ula0en'S
lop1.00 1 IO . 1 ...... J165 L. .. S" laca a n
(322) 2 40.99 10.106 0 .4 9 6.9
11 x . +.5 2.R-0.-09_te _ _ _ _ __ _____ _ _ _
"RA (23) x 41.014 40 .n 0.-03 'o.
Maim F +2.2 i 0.1 51 Ti
Es (12) a +i.-, t. ru5 LI2
i I +l.on 41.514 040 1.6stem
Y (S} 'T m 0.50 030>.Mai a i.f4 0 . +2l 9 O.zs, 14z.s teem I__________"D' (34) 2 -0.257 -0.2U- 0.03 ir
+ed a e 1 1 3 24 .069 0.8 1. y te s"A" ?--evatuce(141) 7 4.545 40431 0.221 41 m 3201 V.
FrO&M.. 1. 40.728 40.459 0.269 37.0 System
wall.219-0.28 1 .01Teappature..L & ....3 j *0 3 5 J L . . !). . .
ITT-43
3.0 Emts ( ~tam)
3.2 Phase - Imitidl atu (Costim_)
L.2.5 an ? fttn mmus (Cgstimm4)
table Sf U7-IIagufegc_ Omettw tlslamttsc adCretiv ActosZ
Iateufarseee Correetive, Action
note St u" stela
*. 1 lI had islatioe me_ air 1. Air dect codified*act iscertereme on relief valve
my141
2. 'A lime WM in4ulation mil Uf 2. _estatla s _difiedvalve call mime lacerfere s._ __ _ _ _ _ __ _ _ _ _ __ _ _ _ _
tf *E Lile ter LL
*A' lIts bad Imaulattoin -I air ldiefI iftA losduet interf e __
1. Reactor Mwter Cleau S"M 1. CGatei mdfiedbad inalatios as gratin
2. Taway calm bad whadeal dhoe 2. Sves m medamical, shocksutyV5ssorm Ioelo Mg. _ESMesn Inumlled.-
belirsu1atI92 Bzm........RCIM14t ion system
A. General A. Cmrdt. Seimite cables mrouad the 1. Laegtheoe GAbLesgu CX0 tigh
1. i-e . _ c t 1 _ _ _ _ _ _ e _ _ _ _ _ _ _ _ _ _ _ _ _ _
2. IssulatiS and spacer bearing 2. Milfted spcer beari1 platplates dmer both auction
S. "Al Use D. UIR Use1. Valve om bypas It= for die- 1. mbdfiad iulu tift
charge valve bad itet farfebetwees issulato end catwalkSrating
2. Sottum seimic ing on 41d- 2. Rmoved Choker. Carg fMg_
C. 05 L.Le C. as" UsI. Discharge valve had interfer- 1. Modified catwalk
"nce between inaulati sandcatwalk
M-46
369 alai Man~m
52 'SSdm Ip-sovessI atim (@stIpsln mksfsI .~
*
AI
4V. �4
,rjf
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nfli.
*EAL sgAM E? I
3.0 &ml[& (CMMGISOd32Ism t!wttt 1aae(..mi
Sol 911 yt~a
.
* ; ,"' -i't
3. 21 1 M 234bunt .du It MU IU$s
awl.gsair Ws 24 3 us 3 2214
s 11 '4' -14 2S h a 314 2 13/4
we$am or a mIS 23/4 13/4 13/4 I?1S
ad eastemC W42 1 I U1Eel see 'V m 32 r' 132 1 7/S
I's V ISI IIA 1 . I 515
IN . 15v 231 I 3 14 IS/S 13.
t, 113 312 312 13114
In' IL$ Wu V2 9"t ~
lEA 3.. ut1 312 1/3 UUh IUh.
1m B4l2 1U14 a 33/ 23 14
2 1218 usa 1 a21 r
O S. O"t *2 9 U4 4
C. S. or Ws I us t$I Sl I us.
342 1 /14 l W/I 13 4 13/4
CFO 3 5 *
"aw not tAft
III-"
VIRAL MM=AR PZ? M131 I? 2
S.0 aala (CMUNMu4)
S.2a ~m nu i.9te UnAi (OWINNO
3.2.5 M 1?, -suttie wast" (antionl)I..1.
C
Tab m ,,,,4 ,.
Ant tcl undba CleX I cyo a 1'':VIUM " 53 1 2154 nQ23 74 gtp14
A". f5 £83 2 11116 2 51 23/ 2 11a 3
l o Ue S 2/Sl 251 2*8 W .
n . s . r u s 4 3 / 4 4 / 4 3 / 4 4 3 /
Vo =sA a a I* s aor M2 314 4331 4 33/4 45314
gm) 51 31/2 3 1/ 3 1
v. or1/ 4 a S a1 4 3 ,,
m us. m2 334 3 W4 s 534 33 4
c.s.A 5.2 4 4 If1 4 4
Ce.s 3.314 3 314 3 314 3 34
1 2 2 /t 2 2t .14
QmC 5 5 5 314 ,4
etuI. WAS as a 1WI 2 S15 2 7/5 a WIG'
olzn. V 65 2 21/a a U I
Ut149
CMIA SmUA3 gm - gUm m" a
3.0 kll (Ontlesi
LI2 ftsm*K11 matat-In (casgfam")
3.2. * n1.3g U-mb ({-m)
u*1 Sno 17.5,iefl ry1 amew Daa 8ry
Umpv bid CWUI atem be It'by lea.Ab "twClist Bta Nu as galsat
t.&' 5-3 2 114 2 14 4 12 7114 314
3-e. o >3 a 114 2 U4 114 Ila 7 314
KtStm 'O 2 &E 14 iI 31 I* 13 3 S 1 3/
Kato stem or a-:-: 1 US 1 314 1 /4 1 l2 1 513
K Stafta_ W42 7S1 1 Us 318 310
Kate Sm WV r-S-I2 7t8 L 3/4 310 31,
Vade/" r- a, Isi 314 Wu1
fetamaI"r *-II isi3s I is 11/4 3/5 9111
* _ Retr s we U.2 11 Us5 314 I 15/11
anatrn or it U2 li us2 3/4 3/4
"C Stm supply 40-2 * 2 14 2 U4 2 314 *
ICC ltem upply SO * 2 1t2 a 314
NNa Spray 3-11 U11 u/2 VI2 31 5,11
cb lurye S-2 I 318 114 71 ti2 t8
core Spray "r a-$ I 1Us 314 315 W1IG
CleA* 3-2 1 314 1 3/4 1 U2 I *J 1 US
c .- 2 S 4 U2 21t *
+aosuubla to reed durin hot operatios*No hot and/or cold a*tpotats visible on scale
iu-so
Vjw&L meqa m u g Mt 2
3.0 bIMllA (bmuinsd)
3.2 CHMM m Imitfal N"at (enamgd)
SI lK1. w 2ts 0in4-4
1ab SU 114
Systm 300 V. SO' .S
hstr. A" 65 2 lI 211 6 211 2 a a
s3e. in 2 2 131 3 31 4 3I
_or 553 2 S1/1 a Ulu1a1U/ 2a14 a5
"Sn. or "I I a /4 3 4 s
I. We 2518 a2 s 3 34 4 3
an5 4 3/ 4 W4 4 1V 31 us 32
Im S S 3 3 us 4 3/4 4 :
ILMWe No a 25a8s 4 4 34 41
.*wa W s Ila V 371 3 4
VA r a 31US 3 1/2 4 41/4 4
3333.*5. 3 /4 3514 3 /4 4 3!
C.S.A W-I 58/4 4 41us 4 3/4
CA. a 3.6 25/4 3/4 3314 4
C- 5 2 a21/4 21us
wc 24 SU S 1/
*Wa not TYm
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nk ft1 ho lt
s @ * w 2334
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I
l i p : . u 1 7
Mae"16i
AMU2 lhs.en ulti oaum(neimd
So i m .ot ds tsea as tat (a) ftawml~ly 4Chc Use ads scenaMl Agebtatuf valves MM11 Ca prop"Spwatia at ae1sfte pow leveS; (b) domat~ reactor
tr"SISbehavio 6 aftOd .101u14full02ow o all N M folrr $looin oGmVolvo$
adCs deteamtm Lala wovlve Guem* tbs.
Caeon* timm mat be pasto dM 3 Mad "as dhamSsec. aator pasm"eI be1 Sa mamala balm. 130 POla
(do Selpalut of Oa Utis $&fet Valve) dwin CM tuamLeftafllowb elceun of SU valves
So. auia teete puamwn dwa be 1P9O polg.40ltba~a. do fiat safety valve oetpuist ftlauft
*loms of au volvedeSU to~ ~ a wasta of safety ow Safetovaine meiltag vain full Guemg of ifaideeIl Valves$I Ma -- Meot be 20 Pat ale. sansm esesuen gum at be11 below Samsad steam owlea la iVI0l Umoo umtha ba"r She uTP pant.
asbfiu psfmsa Si OSatas w Syof tde =W1'. Soe ealy a"liable SICwOa at WSh tsts
cadiia a" hat ll mSWe claS* Wihm de 34 aseedlUst. Table 311 2541 Indlaass Rh.& epwamiul %$atozyofd a*6at tbe51s~qsh l"aita heast phase. Rach of
by tbs data la tabue ST 22.
III.6?
VWL ImlE 2
3.0 aUlus (cstumel)
32 a till Amu)
3.t OM .Ai. Iem IMI. s (
0
U� A%�A--Ik 2"-�- 26-a- a-_. - I ....... A- a~ m8. w- 8. *Ab*KWUS ~
AMad"W'
12"8/22/7
wnVW 1.31m 1.51Mc 1-38
vew 1.51W 1.37
IC 1.37
mg 1-52MV 1-36m -Ss
m 1.3mCY 1-2All 1.27
We urn (5.2 "we.)
Too I3w (61 am)i 83s (0.1 asm)C300 the A)dCap If" Ood
c..I ug OmCHUCK
clwd lb GWTmlut(2 m.bull b~.1~TVoo
= " Mmj
fCV.14 (U )mr1-15 (iA) 411Vcv-1.M6 Ih) 44*IU.1.Z? (20)4.gcv.-1.37 (14 441rcV4'3U (a) *1.
VCY4'2 () be9
'C
'p
4
��I
mmAlUt 2 S
3.0 _mlt (c_ im)
.a i. in * bdies0 (,' we)
*of di tot isto b O" tt all
U am" sh infl ga be _ t owd so t m_b. 1
h~eS wwe leaw ot lam mummt thatthe 33St0t 'asamn by she to 'Ppl. ate l.6 L1
e el &be tgquatw1 Sotd befoin the ia -'t h ulet"as sewU*le t, en Om* n.hfswXl isth s~ ... ,
"tud team s_ am$ o eam cow vt" MOl metoo (tam the h ue (as-=, su vat" td"""tla.Pf t Y' s byWe... Feeto nun to_S f se_. sWS M W be
-fl*~~~"ak to 20 |W ~Spbila -tult sS teuaaws* bst0. ao VIo o
* Sau sha~lo. SmiOm ShOh UAleeSWe4 tOLaInXasmt~w eI tdl t_ ICY 1. a UMI tl CM- *a ws fa su_*t"-
doe W* towrstme. Xi" tbhudnso) a *1kht I%$ mva sa td~ulo m uW 1.23&
w CY 4m
4W
'I':^
-�� - - m
111.6
3.0 Mawm (&mtme)
3.2 :i 1 tIU-
3.LU M*.c- 8 gL cigaM
SW Psin of dhi t toto dotmzigesUl mupt ad do mamtaa opmaLUty of tM_ esuf ow cu*smma g a' .oa"t
MU
(b U V avg04 S wille _13 tO" at
"Ma.
(wOn84 Si W)Ud gto_ toste
salXe too do V_|66 _IPO CrAJA,
LbS _.t~a a sh _uo el otlet .
ds of1 owil e Mile5gMbogbs bet awt VW1 s=l is te mu
(*) The 4"mm M "aA~t nthe tors
duinh so 2 am th fl w l oudtle t
bet wsIO .8- a iseti f do .Up fsloiwof L lbS-. i . mt4 it w b *w.
oll @.l4ss fb.bu fsa nt5.8 t a%& sam= Z.
bymas ub. With a laa-g flow of043 5w RP-u-3:,shs4gimisi wate of 13. tuohl. Ms ebeled ,uie~me Wmu with the design ~wfln of 0.14 x s -b/r
xa 15.8 l# 24h.
uR-?O
3.2 _.- Ir ttal t1m (COatimod)
* LLU -I*, &Stgw Vde? Ce (entitud)
The thuld toot NW VW l~a ths ftob =de ind** GUl elei* El an dieehzpA to rabato gr the
_e. With a 1 * fln jet. of 0.052 a 0P lbI./.,
ak atwnl, rat. of U.* a Nuihu. we Obtaine .-SU .casw MUi 12 Meu2WP~ flawn cd 0.053 aI*.A. m J22.3 rsh
"ase ah mUsm Ialus cm pop lal&t to*"&-
twI Je gm b*la the P0 diapass the prot" depas valie of UP V. me md tl a U ltiuo a of IEa esi to be
am atPe - P to te 1 0 e,
?* 1019 *, I'
(1014003) l.. Glb .
50 ft. 0 SW s. 37 ft. P.
s3mi all tbe toata. the eUeN nit. We
t~u e ga held belt UP P., fth 815 w dsteuzmn4to he37 t me the a" wd aees t &toe Of t
seo" sPs to U* o's tis Unst
etals au_*t_ raIsyu leve 2 sc 1ianoe ela s y. mwe Sested "sa sated suwea._a u . Imad that te In beoo
aah~~ epasiy we to. tal f0t 59 . "& Etam of|.} 1lb./h.
go mawtes"ativ bos _ m_ capity goI.l a IO It/h. ea be a i6at t0ztu f
AU whoa mm 41_ to ft pmm 4"paTaus mate antiafstsoq with the wsml sad ba
ta_ wh1a hele b, ausle
__M�
3U*7
3.0 3.LUa(Ani
S.I~ IiIN"ta sonit"u (mw.0 u
saw VtI s AVW14 - AU US2
kmmnuw *WmW. assn$ pugU
msti NsmSbIM& youp.bmvm l i Ws1
��E
"II-n
C FI~NLIf6R IIrT * Am3 EMIT I
3.0 Reslt (Gotland)
3.2 Db It Dli Ratial ILWR (costlaisi)
~ ppme.1thUsSaSI to dmmetvaet theabltll of the Misul kwa ,1 (urnVW apt tat (a)w$M Usidni msei dewi bm m the inlen plste* sothat tafusg aid meleer systen samuvs4a ca be got-fe91. ad (b) hmog boa s athde sar"Mselas PM1 0sau.
as hea rinl" eapsbtilmv of efich E beatto doth Ihastd co.ift me r the "Suppsael
I apon OW dshell be 46.18a WO DteAS- "i.60 arsaIhz.) orpet.
0 ga~"U&Ia fruitO Att ew" MM Me" to doiNoatt5"the qea W 08 aeRM tbees ehuwS msals the Ostdow
Bob' s ots~ gaud. to p"aca aaafficasaWiAlSSUS81ua1 deimmtrete aba eqapsay of the Meat
minuue ape to the uSjl COMM cm welMit of loop -. IFb.M USs~ of thebar ras"Caai bythde~eeislpsdto flus he Mb spswa Is"*s "Iolss~s.
ter sytom Uee tha 122 Pa"s (La.'3 1 )
soe 1"gpeee Pam use-saft of qWatIos- fImlY te o o ths. sheto wGwaq t
to tw e4saip swoatsas o*sA Lo ehM dnla table 61 II-I*
S 18? sun/hr.
C 118 18 NIUA90hr
S 93 S18 MJlr
Ut-73
3.s gm nt - tatt m tc1inmi)
3.2.03 __Dnmt
of zSof mth wo tol ito vuiif the siuut
owlitim Is do branU daa qWusei .initiom
(a) Soe beut Imll 6aaebuut of the iqyeae1X _ uoo hA be _ d
(b) SoT dyiwl emoiLs gst *al he *wsety.
tp1iiy of toff the di_ s Xna Nov1o upeblit
A-, _a A.-I s _ ^_ . _ _Ft
i
9...
-mws J _& ua au&s_ -
toopratuue ft the irratml balme do ~oiaGsg
i_ P. (37 C.) enm thNs o uiwil
so ofm we nlive beuIy
W *. (4A ¢f) usum esm. dhe _,m'ise mewc.
Is p. (XS.0 L) noeu AW el dO be'
- U. mai aku th bolihe. ull Om
.w %no
IdAs UP P. L 0L* ) of ehee Wses vw. WU twlwmp.s_ is all .... en. booat the e.t..d. bolbo
--. -t
1t1-74.
1?3A SmHAI 12? * SMW 131? I
3.0 Emitl (Owelms)
3sa nm-. m - Idlalm ROOM (OteINO)
a
3.2l)
O a1.:1 IsIU~1 awl bS uinlat"aISl
Vstab.5 Ir. ninmm pos5Mtgatea as$"*t0
( 1
Data eh s de'1m heetwi goaunse that alltpe-zatulsa doe dqm"U mt ultetlLe, no cm 13 Wu
am IU W44. Silm* to eqdipm to Ituns no thuatheins~bo. lB qp.,e peeIn to de am test
soe dxm11 hee la un viba" &alp .#etft"us" at this toet UV"i.
3.3-14 113.n gallm btat SUaMe
The pwpsof Ot "hat tostoS . 1 i to a IWhpsfwe"S, of ChM "ees bulia.4etudam "*us gemeI
I
IiiIf
MUM 976" If angU.e
lent 2(a) blothemso ta" do jt reeu.i~o
of il~ Muse qwiuemsa SMI9tute setms "o~uht~of hise tesg.
Mb the UCfm me ftssid to timiui atmkm W o U. a-5 StuDh. to asiet to WASh Sriiu5
Isha1 us won esue Tut LOP FV. smap fevwn(SMUq) gag"tauslt geMwaist of 900C0
nunt
3.2 "~m-utAbest_ awr)
0iS
&s.2. o."om WOn"" et "' u1
.;7 - mt h etUi. .
tast I*. d bet m. hus. do W.
989W an *us& Sb .p.bum of astS..
/1
I m
S
ml
PRI M gqw . 3
So I ( e )
5 .3 1 1 .:f t ~ t
3. . flLa^ 11 - 3 ~ e 4
to
S.
5.
s vtadp *ebetwm of tu to" was
lb e ulr tsfw we s m eb1slstwy _-'ddit of Xh roemat O.m
M suittsl at"- an Mqm" $0 M i igolob" _t 4wstat Ot lb. pM i 01 VW" of w
umn OW tuf. eseal of shmi *UN w pigr tuI Ie
evelinsf" of fue pedeeme.. ew ue"Sm of d mt"au ueterU t5 s 6 by dsm a p ot .* m s -;
flweter peff of vi*ewstmsa . f " ate,"&_mmrallft of _uep nesa mswaseno - e, boa
meaim mu a to *elI aw fn g_ of _'g o gstfin. -iPunt n.M wosbsto ""i NN """Setn "WWIv~ of-, an.a ofse Ioastta Gnu&$ Iead 1
ws ree s wds. , _p u p t s q I s a d a te u m a m s e i etf~~~se~~~a al~; ,:r e p c fi e i e . a
C)
MjUM
(a) t^_A fates dattS Is she~qee,_ es e etbe mld agta vis a as asit se.
(b) Um Gegtstty of poem ad 1_d offlUt-nt somfem 5. " e Us- sasla s.
WSW qwsg7 mi be sm, SW sl1 "stIogms the padea ss of 69 vsar qahU y spes~fietImt.
C)
tv-I
3.0 1wts (Cmume)
3.3 am" a - Pbr ?L.t (Cosmes)
Tabu. MM 1-3 inrtaes the esmete of tb. tamicta MAr Aa1 fastue pwtoio d I derlaggsto,
Table Sn 1-1
C
°aacr wtrt . L OO 755 1021
C_6.21,Uy' 1Its 0 IS0O05 0.20 0.13
e P p 0.2 4.050 4 650 6.050 g.05
Tursdtty ot X 1i .., "a 10 0.23 J1V 0.11 JRf 2.034 0.001 J.X
Iodlf.n-1)l, I.4 .0, 1W 2.235 It-" S.3 0.01
odla-133, Ctlh_ 1.233-w 2.t F-05 t .OS 3-05 4.9 3-5
Gross Activity
-filtrata, cpr/nl. 2 bo w. 43 1.930 1.41 O4 2*14 3404
-cnrw cpmtls 2 n. 4.24 7.4 * S." ON 1.34 0
Cro- -d - - =
Cross £Ctv1vty
-filtratze, cpslml, id .5 wal 1I*8 1.51 an0 5.45 am
-crud, CpO$g fe. Rd 3.0 340O st? 3m1 1.1 *1 Lis 3*0.
Silica, ppb 5.0 4.0830 2.24340 3.42 P0 3.31 3402
Barn, b So p L134" 1.4 0 a.s a G
�M
0
C
BooAL m&a wag U V UMI 2
2.0 R . . s (Cs t _a m)31 IT -w (ftd:--)
, -bb sn 1-1 (oswa)--
I-ow
ft stor vat" (batfmau ) RES 5
m in - *
eu , r 13 .0
- - - - -c on
1S - _- _ Xv0- rraz,,,, 12 4
,- -
-~~ .m ~ _ _
M t -a
X .I . _
-p a tswal isj 1 m m e
m el dee as 24 bo m.ODI
0 1i c .5 c1
bs 24 XX9 Pt45_ 1_ . .b_ .
D_- __ , A..?'
-ir." lb-i Cs,4 etS
2t-9?3Win. d e e *st'
_ . -- .
. 6*1 . _ 0b---
m
a 11_4
FM&L SI*IT .T - IM MT I
3.0 ILIS3 (Jadeved)
3ble 823 Mo (Ootiaved
-l._.- -_ *<"- -9wt 1t"R_@ _ _bt-t _ -8O -- ,lf
755 1026
lh -I Cu-S Cr-Si,
b-1322 as0 to-so ca-SIu-ag lb-SI Co40 b040
k7 1187 Co44 t5a ISA1-7 tWM 08e t
Ob-9 r-I treft-7 r.eWb7lb-I 118 V-lI?b o-Il
8b-Ill AS-?&
nto Dads. _
Coaduativi. g 1M 0.a6 JJ!go. 0,6
Insoluble (gIum 3*b L6.2..Ita.~s* s_ *b *.e . ncbntA -DWS. Efumat__ _ _ -
agae y 2 ," - 0 is
bA- - :
Ciutint. _a<_ -~ ~ ~w .cofitU 30ub16 Wm~e 4.13 2 a 6.01 .2
2,01 *.0 ..L
_ea - (mluble. I .3*anat
s- oluble, pb ___ ________ , 0.29
Et symbol signiffes dautat required by the test fustguctt.
IV.5
a FM SUNAZ IRm? * U_ am ?M 2
3.0 kauts (Castlmed)
T" mSn 1-1 (wstlamsI)
Ust lu0t t6 5r lowerPMOV _ "t -o"
saws Sourc gmd lotaMt Too &1fljZ 2140 L!C
seadvatar (0,stlamod) LI 2 59 3 1025__1t*- - _s 11
.x _
'_ etuxbl. n 0.06m -m
0 m 1 a - I u -1 e . W v . .. . . h ... . B-- s-- -S -
Activity @ WU, OCISaOC-. M.O5 64 47.6 420.4(Z6 rat.. -1
-_ 0 12.6 U_
egamtt - air, cfa 1 2.4 s
_fytim. Rat lots r. 4. L1.Activity re. at stack ^
ttivit, Patt. - i b . l j M . . I
Of fAcs Maitter " _ . . -4 .i ,.b.iu, t. 2_
stack A" tot tiS j 9t a l g cpa -
C () Combis" activity flm Maus I and 12.
UZ syml stplftes data sot raquiud by th. tCst £asgrtioin.
. NEEN
IV-6
FINAL SMfOIAR? REPORT - AUF)IP WI I
3.0 Rsults (Continued)
3. se TV - Power TeStLiMg CtinueB)
3.3.1 STI-1. Chemical end Padlochemical (Contiued)
Analysl
Iteactor Water
Reactor water tondu~tivity was within the10 unho/ca at 25 Co, technical specification maxiuDLimit, throuj'tout tha startup. The conductivity exceededthe operational technical specification limit of 2.0 UMOles* 25' C. for 6 hours from lO13174 untiU 1014174 because ofsodium injection at 601 power.
Reactor water chloride concentration was withinthe 1 ppm technical specification maxlmum limit throughoutthe startup. The chloride concentration was within theoperational technical specification limit of 0.2 ppsthroughout the startup.
Fuel Cladding Tntagrity
Tables STn 1-2 and _3 show representativeoff-gas and iodine dAta obtained during the startup. inceathe off-gas release was low and no evidence of apilingwas evident during startup, a great deal of effort was ct-
expended in determining fission gas release distributtons..
. .9
I a
rIIIA SMhfA~ky IZMO - V7W? MMZ 2
3.0 RSmulto (Cmut~tnued)
3.3.1 S'-..i Cbeziea1 andi RadlocherleAl (Cantlnued)
Table Sn 1-2BrM9E= 2 f -fs Sum
sm() Stc
1121 080 23 68.2 4.7 16.3 4.6 1.3 .0 0.98 4 -Gme 76 28iwlnAl7 11"0 2M9 1W0 47.0 21,4 4.7 1.2 2.7 0.9 70 24.6 .so 23LU18/74 0?19 IM 130 89*6 20.9 S.S5 1.6 1.2 2.1 120 -A 1. 62 4a2sn4* OM 2 2080 1e 4.7 16.3 4.6 1.3 2.0 0.9 40 ISA5. 76 2812121 008 1991 0 53.9 I4.9 5.4 L.A 1.0. 0.8 77 22.9 80 2312I9174 0730 389 100 12.9 15.6 3.0 1.2 1.4 0A 35- 2.7 s 612nf6174 1055 3310 153 75.8 17.6 7.0 2.0 4.0 1.3 108 - - 52 4112123n4 0706 1926 105 74. 15.. S.o 1.6 2.4 0.9 100 - 34.5 76 3212130174 0716 21 .60 44.3 23.3 2.4 1.8 4.4 1.1 77 22.2 SO 30
,6175 08183267 W3 4.9 18.9 5.9 1.6 1.9 1.4 7 * 62 41113173 076 2189140 51.7 18.2 5.6 1.8 2.4 1.3 6 - - 57 5911315s 0922 2M 13S 74.6 21.3 6.3 1.7 2.5 1.0 107 - 16.7 60 78
t117m 0843 0 100 35.6 7.8 3.1 0.7 0.6 1.0 29- -0 19t20m 7 0 65 5.5 6.5 2.1 0.7 0.4 0.5 16- - 123 4
3.24173 00 W7 273 33.5 27.6 10.3 3.0 1.9 1.7 78 - - 29 65
1127175 0703 2219330 65.7 17.2 5.9 1.7 3.1 1.0 95- - 61 3411297 072 1433 10 26.8 10.9 5.4 1.7 1.5 1.1 47 - -Go 73 15
2
CZ) afts" sidWmch.
*.*...�*-<..Ct,--.� -.-
- I
3.0. familts
.3.3 Thmm TV - Nvwer Testing Omtftzed)
3.3.i w a. ammiega and �� eal- "ITA (Cmt1umd)
Table SUI 1-3Xro~mm ftery 2 Reactor Water 10MUS 9020"
1-31 -iic:fa. rusec. Awil. Ao A Ad
2073174 MD50 1980 - 0.02 0.603 0.31 30a L322F747 2230 190 3.01) - - -
MM s s IOU 0.07 0.77 0.357 700o. 0u0720 0 - 0.0140 1.70 0.5 3A.4 0.28
U2429f4 1500 3267 0.22) - - ._Umm 340 2742 - 0.02 3.s . L. I9.5 3.7
213M 0615 2854 - 0.051 2.30 0.743 2.23'. 1.55
!I
0.) 50 VOMWe lbJ dlesnp test22 0!m. -5 o d alb t3st
* ~ .7?
*.*7*<..~'..0 1- 7* - ,. ~ *
-
N, - -'r 1,� A l. .11�` " ,W. " 'Q� 0 YA.
,., .. I
m.., -i�
nV-9
I FINAL SUMMAT R.EPORT - 5TH? UlIS
3.0 Rsults (Continued)
3 3 Phase IV Pover Testing (Continued)
3.3.1 ME-i. Chesdeal and RAdlioabemial- (Continued)
Analyais (Continued)
Condensate
The condensate pump discharge and condensatedemineralizer effluent conducttvittes vear only aslghtlyhigh during the initial heatup and startup conditions, however,they wera within established limits throughout the remainderof startup testing. The following tables SnI 1-4, *hvws the
plaut conductivity history during the startup testing.
(.,
Table STI 1-4srowns Ferry 2 Startup Conductivities (umho/cn)
CondensateCondensate Demineralizer
Pover Pump Combined ReactorDate (Therval) Discharne Effluent Water
7J14 - 7/19/74 01, No Beat 0.74(1) 0.12 0.28(3)
8J5 - 8/9/74 12, Heatup 0.15 0.07 0.15 - 1.4
911 - 9/21/74 15 - 352 0.26 041I 0.901014 -10/5/74 502 010 0.06 0.3 - 2.6(2)9130 - 9/31/74 40 - 601 0.12 0.08 0.5011/22 -11/23/74 70Q 0.084 0.065 0.2012t18 -12/19/74 i931 0.06 0.058 0.23 (2)12/28--12/29/74 %992 q0.06 "0.08 0.15 - I.7
(1) No vacuum on condenser(2) No cleanup test(3) Rana* of RX B20 conductivity during August 1974
SamPling 8ptmN
Prior to startup, a root valve verification programwas conducted to ensure that the origin and approximate
C length of sampling lines was knawn.
0
IV-10
PIM MMR ! RIP61? - SW UNI? 2
3.0 Results (Continued)
3.3 Phbse IV,- Power Testka (Continued)
3.3.1 sTX-l. Chemical and Radiocbeatoal (Continued)
Analysin (Continued)
Itadvaste
Both the liquid and solid radvaste system performedsatisfactorily during the startup period even though Inputs tothe liquid system exceeded design values.
Condensate and Cleanup Dmineralizhre
The condensate demineralizern were initially placedInto service In late 1973 and were subsequently used to cleanwater during construction and prooperational testing.
Both the condensate and cleanup deolnoralimersperformed satisfactorily during the startup period.
3.3.2 STI-S, Control Rod Drive ystem
purpose
The purposes of the Control Rod Drive System test are8(a) to demonstrate that the control rod drive tCRD) systemoperates properly over the full range of primary coolanttemperatures and pressures from ambient to operatIngi, andparticularly that thermal expansion of core components does notbind or significantly slw control rod movement end Cb) todetermins the initial operating characteristics of the entireCID sy tes.
griteria
(a) Each drive speed In either direction (Lisert orvithdraw) must 'oa .0 + 0.6 in. par sec., indicated by a ufull 12-ft. stroke In TO to 60 sacs.
) The average scram Insertion time of all operablecontrol rods3 based on the deenergiuation of the scram pilotvalve solenoids as time tero, shall be no greater tan
I.
IV-lS
nhA SUMMARY REPORT - SPNP UNIT 2
3.0 Results (Continued)
3.3 Pth; IY - Power Teting (Continued)
3.3.2 STI-S4 Control Rod brive, Mstes (Continued)
Critoria (Contiulked)
1=.1 (Cont.tnius4)
2 Tauoited frouFullY Withdrawn
520SO90
Average S&ra* tnsertionTimes (LBc.)
0,3750.902.05.0
(c) The average of the scram insertion tims forthe three fastest control rods of all groups of four controlrods in a two-by-two array shall be no greater thaew
I IWserted fro%Fully Withdrawn
520so90
Average Scram InsextIonTimm. (Sec.)
0.3980.9542.1205.3
I
(d) To Maximum scran Insertion time for 90Xinsertion of any operable control rod shall not exceed7.00 secons.
level 2
(a) WIth respect to the control rod drive frictionteates it the differential pressure variation exceeds 15 pu14for a continuous drive-in, a settling test must be performed,In which case the differential settling pressure should notbe less than 30 paid nor should it vary by more than 10 psidover a full stroke. Lower diffewentisl pressures in thosettling tests ero Indicative of xeassive ftiction.
(b) Scxam tles with nomal aculator chargshould fell within praecribed time li1its.
( I.
.
. . . ...
z ...
IFMI SBUHKCMY ore~ l~ MIT? 2
.3,O. Ressults C tmi) ..* .MMU*)
).3 hs V oe Mastlit(ptpe
44,
acrim.1
* :
a
71MA S=MAI MM - NO1 MTm 2
3.0 Reutst (coutmo
3.3 Themem - power 2!!Mm Clouteine)
3.3.2 Sn-S. Ctt: RIVE Wtem (Contlamed)
Table ST 5'oPtrol Rod Scram Data
Txdtlad ttalca~aetmTt &.aenter Power R(actSf
Date scram die) < : RD 5? .2 9L2
a4um Ad 1002 980 30-27 4.302 0.663 1.400 2.43S
&ro Ctop .0-23 0.300 0.66 1.48 2.58vvde demure34-07 0.322 0.692 1.552 2.676
46-1;1 0.30 0.679 1.488 2.556
. 2I S A n 1002 10-23 0.294 *.66 1.52. 2.63
* Ad 34-07 0.300 0.676 . L31 2.64
46-31 0.303 0.684 1.51 2.5
42-35 0.302 0e6m 1.50 2.57
. ... ... .
, -*b . '. 7:.'....~... .
. , N I-,-
W * , *X .hk *.+Q>< rm *;g ' ^; ; a ' *Ad +
Iv-"
FIRML SUNHR REPORT * BFP M 2
3.0 lesults (Continued)
3.3 Phase - Povev -Testt& (Continued)
3.3.3 STI-10, M) Performee
Purpo..
Th purpose ofthia teat In to adjust the Iater-mediate rante tontar system to obtain an optim overlapwith the RH end Aptsystems.
Cr& taer
(a) Each WI chanel must be adjusted as that overlapwith the BRE's and APPH's is assured.
4
. I.
(b) Te 's, must produce a scram at 1201125 of fll.scal.
(a) The M reading 120/125 of full scale on range 10will be met equal to or less than 302 of rated power.
Malyie
The MN's were Adjusted such that i reas4ng of 1201125.on range 10 was equal to or less than 302 power. The APR14$nhad been calibrated using a power rangQ het balance. Thresults are summarized In tabl STI 10-1.
- t~able STI 10.. ____
APNIC P) la T Av&
__ 16.0 16.0 16.0 16.0 16.0 16.0 216._--= - _=...... -. -: -,j
114 JA B C D I B- GUPr
luLdnaD 102 103 113 Ot 92 110 TRW
RanfE 10 10 10 10 la t 1 0 . l1
P . 4 .1777 ,708 .930 .070 .667 ..
final - -
Pssd ~~A_ 8064i. Al.....iL.. 7ALz~ 7 -
MlA SMHfARLY EoPT - B7? UUT 2
3.0 Results (Continued)
3)3 Ph seIVP9w!rYaatim (Continued)
3.*3. M0 TIPerformance (continued)
JilnsIs (continued)
US 0. would -uct drive and IH I- hbad a suspected.Low gain. These IR's were repaired and successfullycalibrated In accordance with 81 10. at M9.S power. The8RHtIRN overlup was verified on a aubiequent startup. Theresults are vummarixed in tabl*.8TI 10-2. The scraa set-points are checked every three months by normal plantsurveillance test. All test criterai were uwt.
'Table STl 1"2- . I* TRIURM P4.azl drnvlaPn
0.
_ s.~~ - I a- . w- w I" .....
lRE Channel A B C D _ R 1 ..
Raadine 75 10 75 23 ,75 4 10 75Range Switch [ Ji
Position 2 1 2 1 1 11 2
S8M Channel A
Reading 3.5 x 105 2.5 x 104 2.0 x 104 4.0 s lO
readigv* 6 .0 -Ls0 2 s.sx ,
*IRH P date ta3en separately
I
W-16
MAlsL S M REPORT - NO UNIT I
3.0 Results (Contlaued)
3.3 Phose IV - Poaer Testink (Continued)
3.3.4 M--li. MRM Calibratiou
?urpoo -
The purpose of this test in to calibrate the.loca poer rcae nonitor yteM
Criteria
l.a. 1
The aster readingS.of each IM chamer will beproportional to the neutron flux in the narrov-narrow watergap at the height of the chamber.
Level 2
Hans
Analise
The WIM'. ware calibrated at power levels of:approxisately 25, 60,. 80, md 1002. Table ST U-1-. 2uama4teathe calibrations.
Tabla STI 11-I
HuiiuM Power Variations Number oflest Condition Power Level Wuring TIP Set InoosRebSi Mrn o.
1 25 1.11 6
2B 60 1. 21 5
32 80 1.72 3
4 100 1.0I 4 .
IV-I?
C _FINAL SUMMARY REPORT - KPWP UNIT 2
3.0 Results (Continued)
3.3 Pha. .e IT - Power Testing aContinued)
* 3.3.4 STI-11., LIR Calibration (Continued)
Analysis
The largest number of inoperable KPR0ia that wer*encountered during any of the calibrations was six and at alltines there ware more thean 14 operable LPRM'n per APRH! channelwhich in the miailm= number required for any APRM channel toremain operable.
.The process computer programs which are used todetermine the gain adjustment factor (OAF) were verifiedprior to using the computer calculated CAP's. This was doneusing an off-Line computer and manual methods. The CAP'sfrom the process computer were compared with the GAP'scalculated by the off-line computer program (DUCLE) at the25, 60, and 80% teat levels and these calculations were in veryclose agreement (within approximately 12).
Additional TIP sets were required at the 2S and 607( levels due to minor problems with the process computer. At
the 252 level it wa found that the process computer was notseeing the proper reading for LURM 32-49D. This was correctedand an additional TIP set was run. Problems ware found withthe TIP scan program software and corrected, requiring a fourthTIP met at this level. A third TIP set was run at the 602level when a correction to a bad feedwater temperature causedthe fraction of rated power (PRP) to change on OD-1 during thesecond TIP set.
Changes to the TIP system between the first andsecond TIP sets at the 60 and 100% levels caused the cAP'scalculated after the calibration for the associated LPRM's to'be slightly off from 1.0. The core top limit was chanted onsome channels at the 602 level and the drive speed Yas changedat the 1002 level. Both of thasa changes caused small shiftsof the TIP trace, thus affecting the GAP's.
In the few cases where the ULPR GA? varied from L.Aafter the calibration, the process computer corrects each W PF6reading using its corresponding CA?. Therefore, the corecalculations are still valid and the core monitoring is notaffected.
t
FINAL SUMHARY REPORT - BiN? UNIT 2.
3,0 Result (Continued) 03.3 Phas TV n Paower Testing (Continued)
3.3.4 ST? 11. URM Calibration (Conttnued) ^
Analpie (continuad)
The calibration wa perfomd according to th. plant 3.surveillmnce Inattuction, 3I 4.1.-3. This involves adjustin :iu(
the eotr readings of eaoSch U chambci by the appropriate soaf t C;adjustzent factor.(GA?)s thereby setting the U RN to roadproportional to the neutron flux In the narvowvnarrov watergap at the height of the cbauore This satisfted all criteria.
3.3.5 STI-12. APRK Calfbrationl
Purpose
The purpose of this test Is to calibrate the averagepotter raMge monitor lystew (CAPM).
Criteria
Level I
(a) The APBH channols xust be calibrated to readequal to o0 greater than the octusl core thernal power.
(h) Tachnical specification and fuel warranty 1itO.on APRH scram and rod block sha11 not be exceeded.
(a) In the startup mods,- all APV4 Chamsls mustpvcduca a scram at leas than or equal to 15X of rated ther-al.povar. .
(4) Recaltbration of the APN system will not benecessary from safety corsiderations it as least two APIIHchannels per IPS trip circuit have readins greateT than orequal to core powr-.
Level I
Tf fhe above criteria e sat$Af*g4. then AM Achamols will be considered to be rn ding accurately I thoeY.gareo with the heat balance to Withln 71 of ated ppwa,
,
-�l - - -
o 5L
FINAL SiuAY REPORT -BNP UNIT 2
3.0 pRsults (Continued)
3.3 Phase TV -- Powar Test o (Continued)
3.3.5 SZ-2, APR1 Calibration (Continued)
Analwis
At test conditions 1, 23, 3e, 0d 411, the APR e.were calibrated to read equal to or greater than core thetmalpower. The core thermal power yam obtained from the process
computer heat balance (OD-3)h Icbh had been verified to beaccurate praviously by a detailed manual beat balance. "heAPRM's were also recalibrated after each LPRH calibration.
Ln the startup mode the APRY scram setpolnt was Batat , 152 thermal power, and the rod block at C 122. A ocramclamp was set for each test condition 202 above the test loadline,
To verify the accuracy of the APR('s over largepower changes, the gain adjustment factors of each APRHchannel were recorded during the "2* recirculation pump tripof B1I 30 and the subsequent recovery to test condition 4!.
, .Typical results of this APRH tracking test are shown onfigure STI 12-1 for a specific APRUK (t). The worst errorobserved for all the channels was 4,52, much of wihich Is attrl.buted to an approximate steady state background error of ± )"lI22 .^
present in the APRI system. All teut criteria wer* satisfiedfor 8TI l2.
.1J
I ,jc'
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20-8
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IV-21
MAL BU RY P REPORT - EIM? NW 2
3.0 Result. (Continued) e - ::* - ! i,
3.3 lbaas nV- Power Testi (Contiuid)
3.3.6 __1- A. - -O. "stem
. purpose of this ,test ,iS tQfv*,?U7 the operation.iof thm reactor core Isolation ccoUng system In the Injection
Criteria-d
- -- t
Level l SThe ttr. ftom actuating uigual to required flow must
be less than 30 seccads at any reactor pressure between'150 pats and rated (1020 pals).
With PuMP disctarge at any pressure etween 150 paigaud 1220 Patig the required flow Is 600 lppm. (The limit of1220 paiS includes a nmInaly hi& value of 100 psi for
r ~line losses).,S
The RCIC turbine uat not trip off 4urins startup.
If either of the first two Level I criteria is notmet, the reactor will only be allowed to operate at arestricted power lavel.
5..mv~ ..
The turbine gla*4 seat condoenr system oall. Soeexpable of preventing te le"aB to te otmosphora.e
Whtepi"p aligned to WMk suction It"m As condensa'tosorag. tanh and discharge to thl "nael. ft tb o init ilvessel injection tep arrAtIC 8o8ifations . oad. *:o
Th flow controller VW reast Which tosultad In matta- toioperation. Pertinent data from the teat io contained i- .;.table C SI 14-2. Transient response to presented on fligtOn 14-3. All criteria wera satisfied with %he exception of i
KY-21
FINAL SUHARY REPORT - BW MT 2
3.0 -Rsults (Continued)
3.3 Tbase IV - Power Tsttm (Contlnued)
3.3.6 OTE-I4. RCIC Vsts. (Continued)
Avalysis (Continued)
tc hih steam flow isolation smtpoints discussed inphase UIt test8s. ;-
Table ST? 14-2101C njection Data
Dates
Times
Reactor Pressures
Discharge Preausur:
Turbine Speed:
Discharge FlowS
suction Pressure:
Caotroller ffettingst
ra - 2000R/H a so
tme to Rated Flow
September 3, l974
1215 Uorurs
930 psi8
1000 psig
4000 pm
625 gpm
30 paig
19 sec.
4i6*
0 ;
: .
%. '
;* . .
0;
* s..'.
t.
;
-q- A
TOta Steam now
- - -. 5'~fA=!-r .. . . ; ._,,.
, ., * . - - - .. - 1 ,_ I- _, _
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:; _" " .. . .6 , W - *_ ' .._' a. .
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LS - -2-- . --
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e - _- _- - __ . -
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r3=5a
pop 72M .I. __ 6.
* . . W EorbS. O]
F e S= 1-5mc Vessel mdectic
frace f22C)1 seewd per dividm
:4
IV-24
nERL gR 3EPORT - Wr UNT 2
3.0 Results (Continued)
3.3naej-- Pr!w.2r Tostful (Continued)
3.3.7 S'T-lS. WTC? betas
pl.~rpsf
The purpose of th test Is to Verify the properoperation of thu high pressure coolant inection syntax Inthe Wection code.,
I
Criteria
kvel 1
The tim from actuating signal to required flow mustbe less than 25 seconds at any reactor pressure between ISOpsig and rated (1020 pug).
With pump discharge at any pressure between 150psig and 1220 psig, the flow should be at least 5000 ape(The limit of 1220 paug includes a nominally higa value of100 psl for line losses).
The RIPCT turbine mst not trip off during startup.
Wval 2
The turbine gland seal condenser system hall becapable of preventing steam leakage to the atmosphere.
The A? switch fot the UPOX steam supply line highflow isolation trip ahl4 be adjusted to actuate att 1225 ofthe Muximum required steady-state steam flow.
Analvais
prior to this test. aen icrksa in the proportioualband setting (600 to 20002) vas side to the (low controller.
A cold quick start. was condctmed with the pumpaligned to take suction from the condensate storage tank enddischarge to the vessel. Pertinent data from the teat tscontained in table ST 152. The transient response to pre-eante4 in figure TI 13-5. Specified criteria were matufied.
()
a
* 'I..,.,
0
*1
a..,
41.4
.0
-
s B 4 l -* e v |s- -- ¢
tV-25
MAL SUM= REPORT - 31 UNIT 2
s 3.0 ts, (Continued)fi j -. ;
-3: Phase -oI Pmwr TestIn (Continued)
3.3.7 ITt-IS. 1?O? Stem (Coathued)� . :r . .
Table CI 15-2DCI ?Ujection Data
Date: October 6, 1974
Timi 2110 Rours
Reactor Pressuras 940 pal
Diacbarge Prssures 1030 prsa
Tubino Speeds 3500 rpm
Discharge pfovi 5000 apmn
Sucttis Prssurt 32 psl
Controller settinp:
.. m 20001R/He 100
TIM to Rated nlowt 23.5 sea.
()
C) i
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IV-28
FIW. StMLMRYEP=~ - imS aTr 2I-
3.0 Results C(ontinumd)
3.3 phase IV - Power leatina (ntinued)
3.3.8 fTI-16. Selected Process TeL peratures
The purposes amte
1. To establtuh the proper setting for the Low speedllmter tor the recirculation pUpa,
2. To provide assurance that the measured bottomhead drain temperature corresponds to bottom beadcoolant temperature during uormal operation. '-
Criterig .:
LevOl I
The reactor recirculation pump shall not beoperated unless the coolant temporatures in the upper andlover regionh of the vessel are within 145° F. of eachother. O
evel 2 .
The bottom head coolant temperature as easum .eby the bottom drain lian thermocouple should be within So ..of reactor coolant saturation temporature.
An~alysi
Test data was taken on the 50, 75, and 100 prctentload lines. The data in table STI 16-2 showa the pumpdischargo temperatures and bottom drain temperature masluremduring these tests. The 50, 7n, and 100 percent load Unadata was taken during natural circulatlo;. The data abo:that with natural circulation only. the tempavate a La thebottom head remained within 1450 P. of the saturation.temperature a specified La the criteria, The uax-t-difference was 430 F. which ot uxred an the OOZ flow Un..
At the 7X and l00X load lnesa reooirulatio :PmA" was tripped and "" was allowed to continue .-
Thi was to vetfy that the temperature within an i1l loopwould remain stable within 50 F. of the ative lo &siwm of 100 1. difference was also obserode on the ';load Uina.
nV-29
R FIWLAL SOUMARY REPORT - BFPt UNT 2.
3.0 Results (Contlnued)
i.3 Pha9e LeULA (Cowtiued)-,
3403.8 TII-16, selected Procoi t1~6er~at~ures;~- s'
6ayX (Continued)
Also at. tt 75sX 4 2001. loa4 dtles, recrtculatioaptsp "3!' vs. t:Lpp and "AO 'a, a*UQW4 to continue run$,ng.& UUM of lQ° T. dttoept wo also observed on tale751 load line.
Table UI 16 -
selected Prwcsal UpXeatures
TestCondition Recirc. Pup Saturation Bottom Drain
T.Date TYM Rscharg Temp. Tamp,
A
10-26-74 2200 50a 5250 F. 5 20 P. 5320 1. 5080 Fe
11-18-74 0415 751 SLOP 1. 5050 P. 5350 . 536° P.
1-1-75 0625 1001 5100 V. S0t F. 5350 7. 4900 P.
11-18-74 0017 751* 510°F 52QQ F.. s .P. S2D P.
11-18-74 0210 751** 520° 1. 5100 P. 539° P. 519° P.
12-31-74 0440 1001* )S P S1a. 1r. 5370 P. SQQ'. V.
12-31-74 0650 i0Q. 5 51° . 5170 1. )70 1. 4990 1'
*Pup "A" trpt .ped
**Pwup "Br tripped... ,. .. .. -.--.- -.. _-- --- _-.-'-. . :
.. I
IY.30
IIWAL SMOIARY -PCT -M BNIT 2
3.0 Resulta (Contimued)
3.3 PhJase IV=- j jti (Continued)
3.3.9 Po
Th. purposep. of tbIA test era: (a) to confirmthe reproutobAi4 Y. OIt the TI nyat redipg, ) todetermin.u the cort powOE 41strbtion- t ttie diamenion,(a) to doteruine coro poer ey~otry.
0
Criterigi
Not applicable.
In tOe. T repr*4ucbA*y. tat, the TIP tr4cW -ibhodd be reproducible witthin +3.5 re4latwva error O-;0.15 Luch a. &w) absolute r- t escb A4 poaItor*.~hchever i pter.
3a gre~oducibilttZ
Iii. I *lt1 91. qt $ T! r dvqi;Skkky ON A&-Uarlxe4 in table 8! 18-1. The teat. criteri * t.MiX-ao both test Q9P4Lti.M V. en& TIM,
. . . . . .
3upary of TIP Ueproducibility Da.W
----
Relative -- Absoluta
4:
Va. RelativeError/I~achine
Haxiu hbsojqtqUrorhNachina
Tset 4on iti k I23X Powaer46.6! Flov
.5XI . .
Test Condition 2x60X Power104% FloY
4.42/i t.&W/D S,5#
0
.... ...-
IV-31
aFINAL SUMMARY REPORT - BFNP UNIT 2
3.0 Results (Continued)
3.3 Ihase IV - Power TestiLM (Continued)
3.3.9 U-18. Core Paver Distribution (Continued)
Analysis (Continued)
Cop Power Distribution
The core power distribution was calculated ateach appropriate test condition following a complete setof TIP traces. The results at 95X power are shunm infigure 5TI 18-1 and table 18-2, Figure STI 18-1 showsthe radial power distribution (bundle powers in Hit) forone quadrant of the core. Table STI 18-2 shows an axial(Z) distribution for each of eight radial (R) rings, thecore average axial diotribution, figure STI 18-2 shows thelocations of the eight radial rings.
9X Rl- Power elftribution
( NERLVL
Cor0 Top 12'11X
109
765431
Core Bottom IANZ
1 2 3 4 5 6 7 a ASVE
0.6711.290i.5301.5530,8720.6960,61B0,6620.8000,9470.8760.6100.927
0.6041,1 61.3711.3891.2811.0610.09370.9951.2131.4471.3680.9921.151
0.5691.4 V1.3431.38Q1.3201.0740,939.1.0011.231,i.4651.1950.8531.125
O.547-1.1121.3411.4011.3311.06i0.941.012
1.4161.3180,9481.131
0.5081t, 0211.2431.3211,2271.1091.0531.137.1. 3S1.4151.1670.8231.115
0.433
1.0011.1961.2361.1821.1751.2691.4711*5431.3600.9571.150
0.3240,6730.9071.0301.1261.1481.1661.2451.40.21.4751:1640.7691.037
0.1920.402O.S620.6620.7400.7690.7870.8340.9?0.9570.7780.420.676
0,3010.7061.0031;0951.1061.0341.0061.761.2521.3401.1280.7721.000
C
IV-32
FINAL SUMMARY REPORT - SF1? UNIT 2
3.0 Reasults (Contlitwd)
3.3 Phase IV - Power TestLnLc (Continued)
3.3.9 STI-i8. Core Power Distribution (Continued)
a a 3 3 I t a I I I _
30
26
21L
2
20
18
16
12
10
08
o6
oh
02
31-
29S
27-
2S
21-
21-
Iq -
1;.39 3.67 1."1 S.141 23 3.373.544 4.54 - , C
- i - * I � .1. - .
L2.i4i1 i.Z. 33 }.16
3.+615 .1}
4.21 SOW&
2.42 1 351 4 4 12.2t 3.17 3.226rC. 4.10 rjA.511
1.992 1 02
1.56r2t.6
3.26 14.I4 4.66 14.50
3.1+ 4.4
17 _ -- - 0 -1
is 2.15S 3.$10412 4.56 4.2.2.42r3.14 4.'07 3.3t
13 - _ __ _
1.1[4 2.75 .311- _ -3
os- Iz 1
4.214.7 4.-914.S
4.96 4.86 4.95 4.93
4.54 5.08 5.1614
4.;4.9 3 53
4.51S614.951
3.55 4.41 4.69 4.31
3.74 4.3B 4.31 4.61
2.85 3.93 4.27 4.62
2.7§1}0 3.39132
4.31.66 4s.954.251 3
Lti7
4; 52 14 83 14 6 4.24
4.7 I E4.7
_
@ 4.0S 1 4.6 12 4.154.Z 4.64 4.43 4.19
4.34 14.8S 4.98 14.52 4.4 '
5.01 15.00 5.04 r4.88 4.
4.70 14.69 4.93 1461 3.784.7 4-0 .9r,10 .A
C)
4.04.40 14.96
4.69 r4.74
5.04 JL.24
l4.?9 14.99
4.09
41i9
. qO--N. , _
07-
05-
GI-
a
- Iv
,5,1•I���
1.23
1.1.3
14.61 14.7t1
3. 2 3I414.94 Sj. 19
4.30 13.74
3.21
3.176,
O.1'
r
- U *� 9 � p � g � urn
I-.-.
2.71 L2.991.5512.01 2.2is 1.43
3.61 13.S9
12.52 1 261
3.91
J - .- I I I- I I I . - a � rn m
F
I I I I00 02 0 06 06 10 12 1a *6 is 30 22 Ih 26 28 30
01 03 05 07 09 U 13 15 1U 19 21 23 25 2T 29
figure ST1 8-1
aundle Fows (W#.) map at 15S favor
IV-33
FINKAL StRARY RPORT - BFI;P UNIT 2
S.O Results (Continued)
3.3 >,A IV - PoEr eittina (ContLnuad)
3.3.9 871-18. Cosg Wovro Distrlbution (CoAtlnu4d)I -
a
U
St
a
a
a
a
A
0S
0-
s. . +_ _F _ _
61 _ -- - - I. +*2
_-+ +**)s
n- .. .*-1z.
u- -- - T T m E .EE .
-1-- + + wl~
se " da .t a. us a ,* * sq "w 444 445k.U.S
.. ..
.... ..
;-..if
. .,, :5.,
. . . _ . .
",' :'; v
.: v^:'
:. ,." :f
.'S-'- ̂ ;'"4.
.:-.: s
'' :'
o' i
. . '
':' '
^ , i... .
, - ': . .
.*.
.,
. .
.. . }
. .
'1': t-
i' 4
- t .
. .,
'-\ .,t:,
. . @.
., ':;^i...'..< & > t
'''- 1:';,'
; -.r ,,,*\'g.-
'! ' '
. j
.: ".
.. ..
.- ' .:..
" I' ,i; :;,;
'i.,;. .F . -
. ' 5
. . ' ,' .}. .,
. .'
Flgt 4N' TI J84
ALG& 0N0) PSAp
- ^
IV-34
FINAL SUMHARY REPORT - BFNP WT. 2 0
3.0 !Psulto (Continued)
3.3 Pha.a IV - Power Testina (Continued)
3.3.10 OTI 19. Core Performance Evaluation
Purpos
The purpose of this test Ls to evaluate the coreperformance parsueters of core flow rate, core thermal powerlevel, core minimum critical heat flux ratio (HCHFR)$ thecore minimum critical power ratio (HCPR), the maximum averageplanar linear beat generation.rate (MAPLUGR), and the maxinalinear heat generation rate (WIGR) of any rod Ln qy fuelassembly.
Criteria
(a) The maximum Linear heat generation rate ofany rod during stoeo*-state conditions shall not exceed thelimit specified by section 3.5.J of- the technical specifi-cations.
(b) MCHFR shall be daintalnet at or above theflow dependent minimum fuel warranty HCIWR limit (lian '3",figure 19.3-2).
(c) Steady-state reactor power shall.,be limitedto 3293 MWt and values on or below the design flow controlline (defined as 3440 HOt with cora flow of at least102.S x 106 lb./hr.).
(d) Iha minimu critical power ratio (MCII) shallbe maintained greater than or equal to 1.2.0 times kf.
(e) The maximum average planar linear heat genera-tlon rate (HAPLDOR) shall not exceed the limits of the planttechnical specification 3.S.I.
ahe significant core performanc parameters suchas maximum fraction of limiting power density HFI)PD),minicum critical boat flux ratio (HCUFR), minimum crltlcalpower ratio (HCPR), core thermal power, maxLium averageplanar linear heat Boneratlon rate (MAPIGCR) and maiLx .linear heat generation rate (KW/ft.) were monitored through-out the test program at each of the test plateaus. TableSTI L9-1 contains a summary of the behavior of theme
INNER
IV-35
FINAL SUMMARY REPORT - BFNP UNIT 2
3.0 Results (Continued)
3.3 Phr e IV - Power Testieg (Continued)
3.3.10 St1-19. Core Performance Evaluation (Continued)
Analysis (Continued)
parameters. In addition, the test criteria for acceptableperformance at each test condition In presented. FigurosITI 19-1 and STI 19-2 show the MCHMR and 1CPR data plotted,compared to the limit lines. The test data shown oan thesefigures is from the test condition on the lOOZ load line.
extensdve effort van expended to verify theprocess computer calculations. Beat balances vera verifiedby both hand calculations and off line computer calculations.The off line computer program BUCLE was used to calculatethe core performance parameters Which were compared withthe process computer calculations. Close agroemeut wassoon betusen the process computer and these independantcalculations.
As indicated by table STM 19-1, all test criteriawere satisfied.(T
0
FnAL SMEM M - PMP MIT 2
3.0 uls (Cned)
3.3 Daes V - Pover Top! Un (Cout:Led)
3.3.10 o__ __ePefram Lluto (Contud)
Table STI L9-1
Summay of the Behavir of Core ?erforue Parast=
Test_nfIitlm '1
ri8'I
Mal
Valu Limt Value T~wf kWt kWfre.". unt
_D' kTlft u hle!-
1 31 47 8.63*8.65
21 60 Ot .4.422P 23 '28 9.732D 42 75 *5.033C 48.7 50 4.733D 64 .5 3.4551 52.2 103 3.14
*3.133. 39 33.7 5A74C 67 19.5 3A44D 78.7 70 2.894E 95.4 3.5 2.694U b.6 33.6 '5.34
2.82 2.575*2.484
1.90 1.8554.10 2.3522.17 2.1722.74 1.7632.30 1.5151.90 1.480
1.4803.30 1.5102.75 1.4992.75 1.3741.90 1.3243.30 1.809
1.3621.3621.201.4461.2181.3441.2571.20a.201.4301.3411.2481.201.430
3.85*5.917.893.55
*6.907.459.3.
10.75*10-87
6.49.93
11.2512.37*6.71
14.51*14.5115.05l5.0
15.07
*14.4615.1015.4815.4915.17
*I4.43
.266*.274
.535.244
*.47.0.500.622.743
*.745.432.658.746.830
*.443
4.92*5.07
9.904.51
4o.709.15
U.51U3,75
*3.787.99
12.1713.802i5.36*8.20
28.00*18.00
18.3317.96
*17.9618.35L8.3318.35
*18.3518.3318.3518.3518.35
*18.33
c4
CM
* B = xaaaats
XV-37
S1 FIL SWMA.Y RMMLT - BPZP UNIT 2
3.0 Bgsults (Continue4)
3._ thIse - Powvr TelLtint (Continued)
3.3.10 8AZT-9. Core Performance Evaluation (Contlntted)
:::
::-
- .
:--.
. .
:
; -
E: iI 4
.. i~~ I*. !iS H f I " If S
I :* I.If. !i i 2I-o I! 11 .- -ty*l1, -K m. P. .. amls @ & .. i..
neaR Ltimt
X MOR Tlat Data_------ --- FM41
O .. !, RMALI
I,I8 ttl 0 .tis ffhS4t
*IItI th: 1t1 1 Sum514 -1.: t54 .
--]Lob
LO0. 0111 1 1M.M wB WX 05
VfI R M i944- E 04jfi" Ba 14W
^ .^ .. Ell
t
2.0
0U w Ir W w w w le
RATO FM (S)
a curne for Fuel Warranty termination
IV DI
FIuO STI 19-2
C.
vI
11-38
FINAL 81MOARY REPORT - bWP INST 2
3.0 Results (Contimma)
3.3 Bhass 6V - Poer Testisg (Continued)
3.3.10 S-T 19. Coro Performance viawluatfj (Cortinned)
a
1.9
1.8
1.7
1.6
.If1.5
K- -A,-. 1 .E'
.... .... .... K ciax Test Data
*. .. ...... ...
SO 20 30 40 50 60to 7 0 go go 00o
01.4
1.3
1.2
1.1a
coar plw (2)
MsUMe ST? 19-2
HCPR Teat Data
C0
I I
IV-39
.INAL SMARY REPORT - BFNP UNIT 2
3.0 RRultt (Continued)
3.3 'haso IV * Power Testing (Continued)
3.3.11 STrIli. Plu Reanonseato Rods
Purpose
iUe purpose of'this test La to demonstrate thestability of the core local power-reactlvity feedback mechanism 4'-'
i ~with regard to small oerturbations £n reactivity caused byrod movement.
, ~Criteria-
level 1
The decay ratio must be loss than 1.0 for eachprocess variable that exhibits OSCillatory response tocontrol rod movemont.
Ievel 2
The decay ratio must be loss than or equal to 0.25iCO for each process variable that ehibits oscillatory response
to control rod movermet when the plant is operating above-. the lower linit of the master flow controller.
Analysis
The stability of the local core power-roactivityfeedback mechanism was proved by observing the local andMacroscopiC effects induced by contsol rod vements.
Generally the rod was moved near a location with'the most limiting thermal conditions. The local power
i deviation was monitored qeing the nearest LPRM. Othe grw sscore. paramoters us control valve position, dome pressure,.tvater level, core flow, Steam flows MA AmRl atdicationwere also recorded. Table STI 21-,L Su=Tcrij~eth testresults* Except for the L!RM f1u=, no discernible oscillationsor instabilities were noted for the observed process variables.The LPBM flux, upon rod movement, moved promptly to 4 -. :iSteidy values, showing only a minor well-damped oacillition.IIdiately following the rod displacement. The test Cerik I
; ere _t.
t
I
0
FZM SMNAI iRE - MpNP -us" 2
3.0 Rsaelbt (Cmitimsed)
3.3 PXmV - Poer Testlx (Contitued)
3.3.1 LT_-21. 1' Response to Rods ( tied)
TAle STI 21-1
SuwMY of t. rul Respomse to Rods Data
Tst R Rod In local Power of measuredCniin Mvd Disullecement Monitord -Chow" Vsriables
1 22-47 LO - O 24-49w -151 '.2510 -4 2 + 5.
21 30-55 42 - 36 32-49A -71 .2536 - 42 + 7.
32 22-X1 40 -_ 6 24-09A 12 .236 -142 2 +1
43 46-23 40- 36 08-25& -101* .2536 - 42 4.20Z
l- IwX= f ms only varsable dhowum aoy oscSLtion
IV-41
YINA SU NARY REPORT - - NP UNIT 2
3.0 &eults (Continued)
3.3 Oise -TV-- Paer Lesties (Continued)
5.3.12 §TI-22. Pressure Regulator
Purpose
The purpoess of this test areg
1. To demonstrate the optimum sattings for thepressure control loop by analysis of the transientsinduced In the reactor pressure control system bymeans of the pressure regulators.
2. To demonstrate the take-over capability of theback-up pressure regulator upon failure of the controllingpressure regulator and to set spacLug between the setpolutsat an appropriate value.
3. To demonstrate smooth pressure control transitionbetween control valves and bypass valves when reactorsteam generation exceeds steam uacd by the turbine.
( Criteria
Level I
j$he decay ratio must be less than 1.0 for eachprocess variable that exhibits oscillatory response topressure regulator changes.
level 2
(a) In all tests except the simulated failure ofthe operating pressure regulator, the decay ratio is expectedto be 0.25 for each process variable that exhibits oscLIla-tory response to pressure regulator changes when the plantis operating above the lower limit setting of the masterflow controller.
(b) Pressure control dsadband, delay, ete., if
any shall produce variations in steam flow to the turbineno larger than the values of rated flow specified In thefollnmlas table, as measured by gross generated electrical
Percent of Full Powar Percent of Rated low
90-1007. j0.51Ck 70-90 :1.5 to ±0.5
70 and below ±1 5
I V-42
PINA1 8UMURY REPORT - BFNP UNIT 2
3.0 Moults (Continued) I
3.3 Phase IV - Power Testing (Continued)
3.3.12 ST!-22. Pressu*t Regulto (Continued)
Criteria (Continued)
(c) Optimum gain values for the pressure controlloop shall be determined in crder to give the fastest returnfrom the translent condition to the steady-state conditionwithin the limit of the above criteria.
(d) During the simulated failure of the primarycontrolling pressure regulator, if the setpoint of the back-up pressure regulator is ortimnly set, the back-up regulatorshall control the transient such that the reactor does notscram.
(e) following a +10 psi pressure setpoint change,the time between the setpoint change and the occurrence ofthe pressure peak shall be 10 seconds or less.
Analysis
Table BTI 22-1 summarlses. the pertinent data coan-earning each of the pressure regulator tests. Figure SnI22-lAI. shows the trassient recorder traces for test con-dition 4E, 9S-1001 rated power, lOOZ flow. Using built-iLtest switches located on the EHC pressure regulator cards,positive and negative 10 psi setpoint changes were msda oneach pressure regulator. A test switch which simulates apressure regulator failure is also provided to test backuptakaover.
As a result of the information obtained from 5TI 22on unit 1, the unit I testing was greatly simplified. Anotch filter was added to the EEC circuitry prior to thebeginning of startup testing which allowed the Initial adjust-meant of the pressure regulator to provide the fast responseto step changes observed only after the 50X Load line testingon unit 1. The pressure regulator settings were initiallyset at approuimately the same point as unit 1 and did notrequire further adjustment at any test condition. The EECpressure controller setLngs were left as followst
psl regulator a 3.1 tucns (3.3X valve travalIpsl)lag pot - 2.0 turns (6.0 sea.)lead pot - 1.4 turns (1.0 sec.)
.0 I
ZA. SM ! MM - WM T 2
3.0 ,Regilt (Cnle)
3.3 rate 'LT - Pam= MT MSd (Coutimed)
Table STI 22-1
?ressure Regulator Test
TC
1
2E
35
4c
4Z
-
* Pams:Rmca
23
60
75
39
74
96
-
Flow
43
104
97
47
70.5
101 .
DatePeftoimped
9/2/74
9/30n
1/17/74
3223/74
1/19/74
12/20/74
-
* x
.z za x
2 ZSR
a x
-
Transient
so,
16
29
48
65
56
61
Data
823
1!176
2470,
1937
2411
31L65
m
coreFlow
43
106
98
48
72.3
103.8
.Pres '
- . ("i
* . 963.
. .. 945
* - 970I...
. 938
960
983,
JF- Flow
*. Cadbfth.)
. 2.
.- 7.5
.7.4. I .
9.4
12.8
Elec
188
630
80S
621
794
1065
.4I.Wi
I
. ... ::,:' <.~~~~~~~~~~~~~~~~~X 7,M;.5 ...........' 'X,',- '...... ': , . .
11 a
FINAL SMB LY REPORT * DPW _MflT 2
3.0 Results (Conttnued)
3.3 &hso IV - Pove? Testing (Continued)
3.3.12 IST-22. Pressure Regulator (Continued)
Analvaif (Continued)
At test condition 1, a fast response to stopchanges was observed which was greatly Improved as comparedto similar testing on unit 1. Slight oscillatory behaviorwas observed ln the reactor water level and APM powertransient, but the required 0.25 damping criteria was metin all cases.
Test condition 2e and UE netted similar resultsas compared to test condtLon 1 except that the response timewas slightly longer, as expected for higher power lavels.Reactor water level and AURH power transients continued tobe the parameters with the highest decay ratio, althoughat all times the 0.25 damping criteria was adequately met.
Pressure regulator testing on the 1001 load linewas smooth and performed as expected. The paramter observedto have the largest decay ratio-was in all cases, total feod-water flow, however, the decay ratio of this parameter 0remained much lese than 0.25. Steady-state limit cyclesproduced an observed variation of fHIMe (0.0032) at testcondition 4E however this remained vell below the ±0.S%criteria for 90-1001 of rated power operation. limit cyclesat all other test conditions if any were not measurable b5ordinary means thus are considered non-ezistant.
As a result of ths installation of a notch filter,the pressure regulator was capable of being optimized toproduce a fast response to setpoint changes. The time betweenpressure setpolat change and the occurrence of the first
. presaure peak was measured to be between 3 and 7 seconds on.the 1007 load lise which was a satisfactory response whencompared to the acceptance criteria value of 10 seconds.
Pressure regulator testing on the 1001 load linesatisfied all test acceptance criteria. A sueary of theworst transient cases for test condition 4C, 4D, and 4A Ito contained In table STI 22-2.
As a result of testing the pressure regulato atall test conditions listed, it vas possible to plpt therelationship of control valve position versus total sam.flow, This plot is found in figure SI 22-2. From thegraph it can be meen that at 100I steam flow (13.38 mlos,/lh.),control valve position to 451.
nFMnL StI iR - mvUT2
3.0 tesults (Contlnued)
3.3 Phase TV - Powe Mt= (Contiuned)
3.3.12 MS-22. Presrme eMIAIM (Contined)
Table STS 22-2
Tra==aiat Suary, 1007 Test Platea
Test Comtou 4C 4D 4Z
Trae No. 65 56 61
8cep Vam - 0 Psi I -10 10 Doi -IO0 psML -i. vat +1i lRlator UB AB B A I ID
aaster master aster master Master Haster master Master HautesMaual Kerma maual Manual mamua l Ma gml annual ma1_al
Valves CT/VBPV .PV CY Cv Cv 1W am Cv B??_ _ _ _ _ _ _ _ _ _ _ Incip ent __ _ __ niciie ut
.ld.l D8Le!! P -938 Ps1 926 va7t s944 2.ii 9 D2.5 I2ma 92 Ps9!82.SFinaJ. Dae 3Pressure--928 im iL"!1L 2)3K 9 96 as 955 PS9. 973 Psi% 973pe-I 983.5 PTe to Fixut (1) 3.5 3.0 3.5 5.0 3.5 3.5 7.0 5.0 6.0Pressure Pea ee. see. s*c. e80. sec, see. see. usee. __
a er of Higest (2) TOW Total pW Total FW Total Total FW Total FW Total FW Total T PDecay Ratio (ratio) 710, rim Flow Flow ri Flow Flow Flow Flow
TKmt (.23) K25) (±.251 251 (425 1 _
SS S - - - B03- -
M.Isp,
notes.
(1) lava 2 criteria lxmt Is 10 see.(2) 2avel I criteria lnit In 0.25(3) lama 2 sttela Umt Ss 40.51
M(Uit Ces Is siNurs by tiudleOW total stem fkw at steaystate conditions)
ZIhAL 924HARY 1ZPORT - DPFIP Wt 2
350 pamults (ContiAued)
3.3 Ipbas- V - Pot=r Lesting (Continued)
3.3.12 8U1.2. Pressure Regulator (Continued)
praeite Zoput Signal Initial* Value pargame Ho. value DIYtalon.
APRM A 1 97 1jAPU I T 91 1-Core dP * T 20.5 2. a
E3 -2.9 - ilb/ r.Total Stea 6 - - 13.9 04 iilbhr.
=Watr _- 33.5 :95 inchTotal Core Flow 104 0 1,0 Mlb/hrControl Valve Poaition. All 9 -47 .. 1.eere. Driv1 Flow A -152 .JS.L 1.0 kR
EUC Output 12 - 2%Rx Dome treasure WR 13 983 0.5 PSiRtectr. Drive Flow 3 14 49.5 -1.0 IC*D
pas. Valve O. Pition s1 _2 - 2.022
*easurod wtth "A" reguator in BPY control
legend for Plgur STI 22-1
Recordor Calibration Data
0'
0
0.
0 0
^ -I - * .
a . - . - - f_.
c tWAt
I swan r' r
- , i. .* A:
Ie . I
-�
ea. -
a 4 dIfCb St�*. �. - *-.*.
XI l torzct
I - A.-.. ' ':, . ..
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IV-54
FINAL SIMOMY REPORT - RFN? UNIT 2
3.0 Results (Continued)
3.3 phase IV . Powr Testipn (Continued)
3.3.11 STI-22. Pressure Legwulator (Continued)
0
t20
110
100
9Ol
A "'ow
1 0
9H' 3 0
20
10
I
_ ;~~~~~~~.. ,-.. . -. .. . :-w .r1.
.... ... . ._ r... _I :_3_=? ......... =F :J
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I VNI9194 fail,4- _
ft! M Sr
.
L0 20 30 40 50 60 70 80CV Peatldom (percent)
90 100 110
Figuae 611 21-2
CV Position vs Total Stea= MIov
U
IV-Ss
,PI S1LARY RRPORT - XFOP UNIT 2
3.0 Re ulto (Continued)
34 &*.e n - Power Testipa (Continud)
3.3.13 STI-23. Feedvster SInte.
lur~ooe a
mho purpose o£ thn test ares
2. To a4j the feedvater control system for
4ccptl4s1 ro44t4 w4ter level coUtm1.
*. 'SQ 4Wonstrotw stable reactor response to
subcoollng c;h~apg
5. To demmtrate the capability of the automaticcore f1ow runbuc feature to prevent a low water level
scram following the trip of am feadwater pump.
Criteria
The deocy rat4o must be lhes than 1.0 for-each
proceas variable that ,*ibite oscillatQy response to feed-
vater system changes.
(r) ¶14 4eqy r4tiQ is xptctA4 to be lass than
or equal to 0.25 for 4a0 process variable that ozhibit:
esAcllato;y Uspona8 Co Ces4vsr system changes who t
plant is operating abovq the lower limt of the astor flow
(b) uoy1OViC a 3.uch level astpoiut stop djust-
moAt An threq-i1ae, ntrql, the tins from the stpoint
step clg# unt4 0h1 6wva lvel Ped oo curs shall to lossth 35 qco44 qthqut uea iv fdvater swings (Ch
edvatr flow greater than 251 oA rate4 flow).
W() T4 augwatic recirc flow rupa* fotU Wshall, prevent a scram from low water level following p trip
ofg OA of th operakwa fe.4VAter pumpas.
(4) With te O sAto syatem operating U"MOlV
the ub tub upeeG tlt *hll pevent pimp damage
Ic to 4&nUSUO.
IV-56
FINAL SUMMARY REPORT - BMIF? UNIT
3.0 Rosults (Continued)
3.3 fhase IV - Power Testing (Continued)
3.3.13 STI-23. Feedwater System (Continued)
nalgsis
The capability of Phe feaedater syStem to satiS-factorily control reactor water level was demonstrated atthe test conditions sumarized in table STI 23-t. Transientrecorder traces were taken of the specified manouvers whilein alternative modes of system operation.
Due to problems associated with maintaining opera-tion within the preconditioning interim operating require-ments (PCIMffR) the automatic code of the recirculation flowcontrol could not be used. As a result testing of thefeadwater system in the auto mode had been deleted midwayinto the startup test program on unit 2. Plant operatingprocedures were written requiring that the rcIrculatioUflow control system be operated in the mastr manual (NM)or local manual (DH) modes only, therefore the auto modewas not tested. In the event the PCIONR limitations arerelaxed such that the auto mode of operation becomes possi-ble, special testing will be performed at that time, upon 0approval of the KSRB, to demonstrate the operability ofthat control mode.
Water leval netpoInt step changes were performedat various test conditions, and a one feedwater pumptripwas performed at test condition 4E on the feedwater system.
level Setpoint Mhanges
Experience from unit I startup testing of the feed-water control system provided valuable data which could beused to minimize the "tune-up" procedure an unit 2. Approzi-mate controller settings could easily be determined whichprovided acceptable system response at test condition 1.The intial controller settings were as followas
Ptoportional Band a 360X. Resets a 0.4 R/mLin.
During testing at TC-1, the controller proportionalband was reduced to 300Z. Plus and minus 3-inch setpointchanges were introduced In the 3-element node, and ±5 inchchanges in single elemant. The time to respond to the met-point change and the time to the new steady-state level wereshortened with the Increased glain (decreased proportional band).
pq
TDAL 5M= R E - MWN MNIT 2
3.0 Results (Coutlfsed)
3.3 as xV - ?O=mm mmtm (Comt1tl)
3.3.13 STI-23. Meetbate Stateml (Cntned)
Table 511 23-1
Feerdater SYstem Test Data
- . -
_ Reactor kcl=. Date Tranatent core Co"s Reator 7W _A-left As-laft RUATIPower Flow Perfor4 Trac Thmal Fim Preseure rim potpronsl set(1) tl) lb. Power Oabft.) *(psig) (b z.) .0d
1 25 44 912174 19 790 46 919 2.5 300 0.04
2 60 104 1016174 32 1950 106.8 942 7.6 300 0.04 Reeirc inMatnual
60 104 10/6174 33 1950 107.8 945 7.6 300 0.04 Ree=re inAuto
3 75 97 n W1/74 47 2466 99.1 969 9.8 300 0.04
59 46.8 12123174 67 1938 48.0 938 7.4 250 0.04
4D n1.7 70.5 12219/74 58 2360 72.3 955 9.2 260 0.04
4M 96.6 101 12120174 63 3181 103.8 984 12.8 250 0.0498.2 98.7 12/30174 71 3233 101.2 985 13.1 250 0.04 Ome pmp "I
-
iV. 58
FIN&L SUMMARY REPORT * BFUP UNIT?1
3.0 Resulu (Continued)
3.3 Phasd- IV - Power Testing (Continued)
3.3.13 MTI-23. Feedwater System (Continued)
Analysis (Continued)
level Setcoint Changes (Continued)
Test condition 2 was the only tiue the feedwatersyatem was tested In the auto recirculation flow control
code, since the deletion of this mode had not yet beenfinalized. Transient response In the auto kode, whensubjected to a +5 Inch level change produces an unexplainedminor excurslon of about 6 kgpm in recirculation driveflow"A"(caused by pump "A" speeding up for several seconds).The cause of this anomaly cannot be further investigatedsince future testing in the auto mode has been prohibitedby the Nuclear Safety Review Board (NSRB). Testing ofthe feedwater system In the master manual flow controlmode vas satisfactory and did not produce the transientresponse witnessed In the auto mode. Plus and minus 3-Lachsetpolnt changes were made In the 3-element mode usingboth the 'W' and "B" water level reference column, and ±
Inch changes were made in the single element mode againusing the "A" and "B" column. No further controller adjust-ments were necessary to improve the response of the feed-water system.
At test condition 3E, ±3-inch setpoint changeswere made in the 3-elemant mode, and +5-inch changes. inthe single element mode in both cases using the "'" waterlevel.reference column. No controller adjustments weremade. All test criteria had been satisfied for the testsperformed.
On the 100l load lina, testing was performed atthe test conditions suarLsed in table STI 23-2. Uhen t3-inch changes were made in the 3-element mode, a fast responsewas noted and the water level attained its new uetpointvalue without overshoot. only a minor overshoot was expeic-enced In the single element tests. All test criteria forlevel setpoint changes have been satisfied an the 100X loadIne tests. All process variables which exhibit oscilla-
tory response had decay ratios of <0.25. The time to waterlevel peak following a 3-inch level setpoint change wa o 35seconds.
'I)
FINA SUM! R - BIP MT 2
3.0 Reolts (Camti!3d)
3.3 PhsV-Poe=ak (Coutice)
3.3.13 S=_-23. feehateaM vstesm (CotIned)
Table 8? 23-2
Test to TSu to TIM to DecayRF tRe foals Cont BOx. or xaz. owr Tfte Ratio
Sracetie ModefC.1I Response. level Mi. level_. C0aege Critedr CriteriaB9R. _ I F Seconds Seconds Seconds (M of rIntI&61 .L. pip
250 0.041 3l/A/13' 2.2 32 .2 P4C67 -250 0.0 3. //+3" 2.7 _29* 29 - p p250 1 0.I 21 - 2.0 49.5 30 26.3 P
- 2501 0.0. 1 4" 2.0 46.5 29 18.4 . p260 1 M 3elB-3" 2. 26* 26 10.0 p
4D 260 0.04 3l -3 2.5 19* 13 ..0JSK6 -1~.04- lel/B/4-51 3.0 42 28 19.8 p_ _D
260 0.04 le/91/YW 2.0 55 - -24.5 23.0 P ._250 0.04 elB+3' 2.2 19.25* 19.25 1 P P
463 50 0.04 e1B 3" _2.5 3 .5* 31.5 -r2e0B I04 .4 2.0 44.0 34.0 p
20 00I/B/.r, 2.0 44.5 3. 15.7 - P
!3
"bovershoot tzparleneed
P - waSr - aI
.. ".. .. ..
.
...
tv- 0
IPINAL SMMQUY REPORaT - BFNY IT I
3.0 Results (Continued)
S.) h-asa nl - Poier TestAIu (Continued)
3.3.13 ST- 23. Feedvater 8vstain Ccontunuai)
Aval satioint Changes (Contioued)
A4justment to the feedwater controller duringthis series of teots resulted In final controller settingsas follovws
Proportioal lUd * 1501Resets - 0.4 R/min.
Figure ST 23-lk, Be C, and D show the tramsientresponse for teats performed at test condition 4L.
C)
Trace Initial Value ParParameter Name No*. VAue Diviston
-APRM A -1
Core dP 3. 2.,o PsiRxDonme Pressure NR _ 984 4.0 93Total 7W Flow _ 12 6 0.4Total Steam Flow. 6 14.0 0.4 Mnb/hr.RX Water LevealR _ _ _ 32 O.S lngTotal Cora Flow a 105. l.0 MA=F1 Controller Output so 80 1.01
Dirc Drive Flow lIA it _St 1-0 kg'm
B a lue PositoMO I Closed 20
legn4 tfo Fiure LTX 93-1
Feedwater levsl sotpoint- Canges
Calibkatita Data
0
a
e0
.iA
* -Iva s~nqwAfAP. 0*~3afr &euca?
q Aft *MCO*-v7
ItZnAR-A&I6UV
."4,&*.z X A
. ~ -Noftww"s* ___ Ire PI..?E~ ?
S IsI
- 0
for. wfr)j.f _'0 . ..
I.
e.
. ... .. * . .
.. . . .
. . .
..
. . .
q~p 0~~. ,4 .f w X
- -ga 23 - a B?W level Setpoiar cha~ent . !
s±utep, 3-olem Z t
.~- - a L -w-;.
.. .
I*..* -4Fs.
7I41
t
-
.. .. -
: -,.. ..
. .. - -, , 0 . - . . ~ ~- . .Ce'
* . . *.1$..
* - *... I-v-a'..-'
.tz -.
'a.
p. *
. .. * ,- -U. *..
1 -<
V0
½ 9......'
� I�'* *'t a:�¾S4w �
. 4.w
4.
Piguni 23-iC
45" stap. S1t1s lvamut-la.
mi
s0 W
M-1- I -1 I 1-1 -11-1
0 0 ...0-I: .
.w ." .
1* - *�*�* �*-*.�* � *r-, � � �
�a*��*
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p
**'*..* 4. . S ..
3
.
C
' 'ds SC 23-D'
-. " steps, -SI.- element
;.-,,-'j,*-Lf-;X-E -I- ,,i*~ ,, ,;~ C
S.E.44"I
Lpg
S
. Ii
i ' > _ _ __ S_ ;. .Al
0 : . : , L...-.
m
� �-t I..* &t�.-
V . S.�4L. �
.* . . v. .�rts t �.�t4.
a .�
* . *�..* ..�jicz.... .. . * *�. �6 - .� -a,.s.'-. . ..n..,spt � �
0*�
U
flguvsSfl2S.Th(coctiuut) 4,..10 tonI Setpoln �nps,
-5" step, tingle eilin.t-� . -. . . A. - *�Ae,-rAtw3 4 J",t� ft .. � I.
'p
r *4t� -' �j �. ;
-- c't. 't���.4
v' A . � �. - 3 * � r..�t..CG/.C' A,� � a� ... $.(' ' -
(* .v. -c ,4.-'! -C
4-4*--
Iw65
FINAL SUIOMRY REPORT - BPNP UDUIT 2
3.0 Results (Continued)
33 &are TV * Power Testing (Continued)
3.3.13 LTT-23, 1eedvateM -SytI (Continued)
Analsis (Continued)
On PuZM Trip .
The feefwater pump trip from test condition 43was performed by tripping the "B" fee4water pump from a caon-ditton with all thmne foedvater pumps oporatlng 4nd thefoodwater controller in the 3-element mode. PoXming thepump trip initiation. the sequence of events wor4 as followsl
(1) Feedwater flow began droppipg In about oneseOond.
(2) The feedwater controller at the same timebegan responding to £ncrease the speed of the two remaining
* ~~pumps. ..
(3) At about 3.75 seconds following the pump trip,f > feedwater flow reached a minimum oS "10.1 Hub/hr., a drop
of 3.0 Hlb/hr., and began increasing at 4.0 seconds.
(4) Water level began a steady descent at the timeof minimum feedwater flow and decreased tO a minimum of 22.5inhebs at '30 saconds, which wax a drop of M.S inches.
(5) Houtron flux docroased to about 6X at 13seconds Into the transient duo to changea in inlet subcoolingand continued dropping after a sei-aquIlibrium condition athe reciod pump runback circuitry took hold and began 4acrean"lag recirculation drive flow.
There was only a 2 inch overshoot, an4 equilibriumconditions vore reachv.d in about 5 minutes. The cspabilityof the automatic recirculation flow runbso featurg waseatimfactorily demonstrated to preVent a low water levelscrea following a one pump trip. Reagtor power detreased19.3 percent of rated to 78.9 percent duo to tho recirculw-tion flow runback.
The overall transient wasam oth and the systemresponse was excellent, and is 4umuari ud in tbl. 23-3figure 23-2 show the transient response for the one puimptrip teat.
a
FtJSWOIAY REPORT- - MPN VNIT 2
3.0 Results (CozittauW4
3.3 Lhaa 1 f Tectu (Cotimtw4).
3.3.1.3 0111i3, ee&Ate1Syt Cgi~tret
Analyuts (CoutU=w4)
ft LC coativuzd)
Om~ NiW Trtj. VAM owumary.
Wate'r lov.1. 1)op (Jutjtt4a-iuU~p 15 4rOP to 12.5"sLeVel Overshoot 2Time NW Flow Start Xn0!easing 3. secondsTime to I&VOI 4U4 Flow Utea4y-St~to 05 minxutes
s
I
IV- 67
C VIRAL SUMMhRY REPORT - BIN' UNIT 2
3.0 Resultn (Continued)
3.3 Phase IV - Power Testfnp (Continued)
3.3.13 STI-23. Feedvater System (Continued)
c:
Parameter Trace Initial value per_N_ ame _ ., ~ Diviolon
APRH B I 97.5 1.01
IPRK 24-25A 2 92 1.0X. __ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ ___ ___.___.__.__ _ I
FW Punp A Trip 3 -_
Scram Indtcation 4 .
Total FW Flow 5 13.1 0.4 Ilb/hr.
Total Steam Flow 5 14.2 0.4 Hlb/hr.
Rx Water Level NR 7 34 0.5 Inch
Total Core Flow 8 100 1.0 Hlblhr.
Control Valve Position, All 9 52 1.0O
PW Controller Output 10 .. 1.OX
Rx Dome Pressure WR 11 985 10 p8L
Px Water lavel WR 12 %.30 10 inches
Recirc Drive Flow A 13 49 1.0 kp3m
Beclrc Drive Flow 1 14 47.5 1.0 kgpm
f~wFump BTrip 1
Retal MG Speed A 16 86 2.0X
IRciro MG Speed 1 17 b5 2.0.
FW Pump C Trip 18 - .
Lmagand for Fiture SII 23-2
Feadwater Pump Trip Calibration Data
(;
?
. I
-1 . -- . .- -... - . - . - . - . - -,-- - - --
_. * e .. W< ' .99 .
. , , - e , .
* .. _z v.
- 9$
-. -w -
.. i. _. -- V . . .
-.. - - . . , _ . _ __ -.-, . . .. . . .. .
9- -. rz -- -
... - .. .. -z;:L = ~ -- -" ~ - , -i"
e
.e.st 0 - iA
..
S
I . . . . .� ^ I a * ,, .. . _..I....... ..-:.I A
-7--�-, - . .- .-
9 9 .9
a"A4.9 big
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*c�c o� raus�op
LO
1.
0
E
S
5
I :
* A
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eX ~.r An -wl', .nd .
* *. - . - - - . - - -
- - .--- �-.--
:- 1. 4
0.
*0 *�.. .� - .-
- .�. - 4
- - .
WIgue STU 2342a p Tr (C3)
0
0
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4 M
I e P-'1 X; o .
inob
i .
'v-Jo
FIN~AL 8IXWSNY IEPMT - BFNP UNIT 2
3.0 Results (Continued)
3.3 & to v Po-oer Testins (Continued)
3.3.14 STI-24. Evmaua Valves
The purpases of this test aret
(1) To demonstrate the aility of the pressureregulator to ml le the reactor preaura disturbancesduring an abrupt change In reactor stem flow.:
(2) To demonstrate that a bypass valve caA betested for proper functioning at rated power withoutcausing a huh flux orm,
Criteria,
evel1
The decay ratio must be less than 1.0 for eacprocess variable that exhibits oscillatory response to. by.pass vaLV changes.
level
(a) The decay ratio ls.expected to be los than o-equal to 0.25 for ea,4 pro s varLale thot axbibltg cacilua..tory response to bypass valve chagwes vb* the plant looperating above the lim llde settLng of. te mater flow.controller.
(b) To avoid approaching eo ste he low pressure:isolation, the maximus pressure deora; at th turbi inl. e..durln8 valve opening shail not xceed 50 pj..,
(c) Th regulttors hAll. lmt: the pressure ds..turbance during valve r4olosur4 so that a MTBU of atleast 52 shall be maintained below A high flux scram,
(d) System pTGesure sAll reah a Stmag tvalue within 25 secoads after the bypass valve has beenopened or closed.
Analysis,
The ability of the pressure regulator to mthe reactor pressure disturbance during the funitional test-ins of a bypass valve as well as the capability to functionally
FINAL SMLARY RMMT - SPNP MNIT 2
3.0 Results (Continued)
3.3 Lhast. -IV Power estin (Continued)
3.3.14 8TI-24. lpass Valves (Continued)
At (CoantL nu4)
test 4 bypass valva, at rated power without coRing a highflux ucram was demonstrated satisfactorily at the test com-dtLot.s listed La table STI 24-A.
Yor test: puiposes, the BPV opninqg tima was adjuvtedso thAt the valve would tpe in as short a ti~m as possible.The maasurad valve tiw Vp" as follows:
BV openinj tS* a 3.0 secondsBPV qJ9o0.4 i m 8.5 seconds
The "sSure4 bypass valve cappctty in percent rated &teatflow was approximately 2.n7i
Table STI 24-2 cooi$tsx , smWary of the bypa-s
( valve teat transient datA fiop ejI test conditions, :Inaddition, figure STI 24-14 z~ a shBow the trasnt rcordmrtraces froa test couditin 4*. g
Dve to proble. MAu1pi.e witU m4, t4ining opra#?ation within the precondftioIpg -int r4M opeion roqutr -m-nt
(PCIW). the autoM&;Lc M"j o. the racocu4tio flow. cw.-trol could not ba ued, A& :SMt, t.4t.$r o ths. bypassvalve in the auto-q odpg . bos dqeted fr, tht unit 2startup tet progr4 £. PI tLtwng pina o4uree werewritten reqArin tbkt the r rcm1la4tio flowt woqrol systq.
b operato in th ates.,-l a local pS' w4oonly, thlkrfor the auto %oft Ws;, not tost4ed,. Il tb ev6#'
th# PNM. V 4tk T1g0d such tM thqA; to t4.pof operatioa beoms posibl, speciLal bitt4 . h WfoMid 4t that UN. upor& Approvgx of ft W.$ kg: 4qM4r#044 -thp opr4bility of that cotrol ao4*.
Byp#o Volve tosting a all4 tept C.Qp044 MUR0.Aiin tablo SUT 24-41 gsteffed all test acceptp qrLtq~1.p.
Thvouho0t ths 8aMtupW test P:pFgrq 41t.. W .ta4 to xtapolags for. th W4= ELu*t u i to q 'whan oeratin at 1001 rAt,4 ppr. Thea larapo 4F !
points is shown in figuT 8TI 24-2. Eacl test- netau
results which showqd this mrgin.to be L161 of res4:~op~Wwhich satisfies th level 2 cqitsrla.
I
FNAL SM!Y BE= - DMN I2
3.0 Bmt (Continued)
3.3 .14 IV-- .mm e Vatve (Contitued)
3.3.14 SZE:M MM9 AM (Cwtum)
Table Sn 24-1"ypass Valve Test Data
coreReactor RC-B. T.ant Therm, core Reactox _m
Power flow Date Tracm Po0r Flow Presure FlowIT M 2)WO. ll)_ablb.) (~g gb£
. 25 44 912174 i8 750 46 919 2.5
2A 20 NC 10/26174 42 659 30 940 109
_ 0 -930/14 30 1978 - - 7.5 Rte in aual, Bad Transent'.E 60 104 10//74 34 p976 10476 945 7.6 rain 1 UMO
56 10/26/74 f8 1844 106 920 6.6 Redxc An Mm..
3E 15 97 1731214 49 2470 9. 973 9.8
_ : t/S 7S 3 5.44-A 44 NC 1I/31 , 75A151 35 9305.
5 59 47 1123174. 66 1938 48 938 7.6
4 72 70 * 319,74' 57 2373 7 9S5 9.3
41 96 100 1M22M74 62 *3169 103 984 12.9
a 0
IV-J3
fIL 8tMY REPORT T B N- MT 2
3.0 Results (Continued)
3.3 PLh * TV - Power Testlin (Continued)
3.3.14 8TI-24. Byass Valve, (Continued)
C(
Pareter Trace Vnitl Yalui perName No . Value Division""
APRH( A I 96.5 1.01
LFRK 48-41A 2 91 1.0x
Core dP 3 20.5 2.0 Pal
lx Dome Pressure UM 4 984 4.0 paL
Total FW Flow 5 12.9 0.4 Mlblbr.
Total Steam Flow *6 13.9 0.4 )flb/hr.
Rx Watei lavel J 3.5 0.5 inch
Total Core Flow 8 1 1.0 Nlb/hr.
Control Valve YOsitious All 9 48 1.0%
Recirc. Drive Plow A 11 50 1.0 lIapi
EHO Output 12 2.01
Rcirc Drive Vlow B 14 49 1.0 ispa
Bypass Valve tl 1t Clogd 2.01
Xaged for :tgure 8TI 24-1Recorder Calibration DateC,
F*. .. _. - .. . .
r... a 8
* ' t .- .
7C 3'aS VAS * iqwwffiZ4 . . .-
I
La..
* A -- �
* . ..
* '4
a - a. - .c. L - - a a...S.
* . 11
-- . ~ * * . =,-***.~.*. ... --- 44-. . . .
I4
0
Sg': 2U-2AWPV Cpas-
0 . .
.I . t VI!rb
a
I
FO w
.5
P.
.41�..�...
'I -
-�il
A
- v , .. -l * 4 *- - ." .1-7 - - - 7 e e 0*":04 . is : :
. i-.* . .7 ..-
. i
. A
- 11 . .- ... .- 1.t-. - . ' ..
IAd* l
I -- * a- . . . : .... . . .. a
I:
- - . - -~ - -- ~~-~- a ... aa* ye
Flgure S= 24-l3NV7 Close
S p. a iFasm~
r m i i i
a
'1
.9
-'. -� �, :, : :. - - . . - - - �c .
.d�....
. .
Ž: ;.v .. -.
3. 0 Resulta (Contlmuie4)I
3.3 Phase TV - Power Testliu (Continud)
3.SJA4 SZL-24. Atyass Talves (Contimied)
Table SS 24-2Bypeas Valv Transient Date Sm=
Test Conition Uzt 1 2A, 2Z UI 4 4C 4D 4ZS
_E~eelre Mbde* .__ N C 2E M NC NH tM =WPV Th-br ____.__ -'-mb - -
Intl AU_.G 20 SS 7S so 58 -2 90-.5Dato F lux15 16 16 16 16 _ _ 16
stiale D __ome 919 940 920 973 930 938 9S5 9U
Do_ pessure On opeing O 1 2 1 2.5 2 0.75 O.8Decrease (PSA) A50 p.1 - - -_____
Dowe Pressure Ott closing 4Docres 15 - - - _ _ 1 2 1 _ 2 0,75 oa
'e 25 40.25 '0.25 40.25 '0.25 40.25 '0.25 c0.25 '0.25Rt_ o _______ *__J AP (A_ _ _Pres__ ) U £1 t Z M tr l M Wtr L) Lxc Press
0oesc 40.25 '0.25 '0.25 '0.25 '0.25 cO.25 0 2 CO5Etalo esigs) W atv LI M Wte Wv) Rx Tr 91) esLAM (AM Pressl(f Wt flbt Mgr Lul(xlerL1
! Z 5!ig im 25 see 6 20 9 8 3 4 2 4
_etin i 23 see 5 ll 7 7 3 2 2
I
*M~ - rAster %IUS a LOC8l IManul
EC M atUral irclt
0 ... O O
��M 0- -- -- --
qw
FIL §MOWM REPMX - N Mt 2
3.0 Results (Continued)
3.3 Phase IV - Power Testing (Continued)
3.3.14 STI-24. -ypass Valves (Continued)
12
110
nA
_____Scramat 10 Fl o w
Level 2 Criteria, 5% Margin Limit :_ I_
*-:d ;1:: 1; ' J---i -.;.; ,' , ,L, , , ,. .... -....
.. I ...T....* .r @ i 1 -
. . ut .. * . 1 * i '
v AA -~ p -- .----~ 9
_t . .:: *i '-.; .;
. .. . .. I.A.,I -.; : :, ::. . ..' ...
J' _- ~ 9-'i
t__ ....... ....
.
UV_ * ! '
*-- I- _ -, -
7,Ti
_ _
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,.. I_ :
..n
.. ,.,. .. _, , , ;,.. * - - J.i j -..
-IvIr _,.,;;::A-; A"
-r : o*l- *
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. :
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--. _.- . . 11_ __ .
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11
E _: : . - . i . -. .. S z .. .= I,. . _.:
I . 1 . - ..
... .r... ... . .. _. ... _ ... .I ... ..:.: .;.:.: :..- :.: I . .: ' '' ::.:!:: :1 ,.. . .. . I . - . .' .1 . . . . . .. I ... . .. ' e''....i : :t_,_ .. 1. .; _ ...
- . -- - - ------ --
.. ! .. . .. iE... --- *.1....... i a. . .2 , ..... -!...' : ------ 4 .*
- ' :.:. t . I. M rin
I.., .. ;1 ..I*
. . .:1 : ' jili.ff. I .:z �: -... ;TA ... .... .....:! -' - !V -- i- tA�-..L= -- !::J-- I.-.II. .. .
-- I~'CTC-3B).:
.. ..... S...W* Pr-:
I-JI
:1:'. " ;:! 1P.. a M J.. . . . .. .1.if T..1,::.: : IM a ut H111' ..." .. - ...11 ..�::' -ifi, r.; . :- ---- ;: .;::.: HP! 1:1 IJ i-S t :..
&,A . I... , .I. :.. '.::: i ::'i I.. , . M, j .- .. ''. ~~. . rT ,i.,... ., ... T.-.11.1 ...Tn..._Itt . . . I ... __ _ _, _ _ _ _
, ... . _= v ... .- _- .... . -.' o.r pii 4---1 1 I :: :... . D ..... ... ._ ...-
::: I.. :': . :. ' _ _
.:. t.'.: , :.1- -r--t--==-?-. -.
:'.';:. ;:
Ir . I " 'I .1 : .._. _ 1 . . H.... ....
401' .1 1- _
_ .,
.,1: .tJ _
...1 .
'I . L.,
:-. r
, 1,_
M- 1-AJ
. Iz.. -_#_ .. H .'*s':-.*:|Se..T h 5 L 1 1 1 I ; 1 1 7 .- .7 1 -.r -.T -I --- -L -F .. .F -r -.- .- J # :-~ ' -P 4 ' -. A . I u. .i ! -' ' ;-1: -=r- -:.i T. _ IE. I 2 i : t; ,: .. I .. . I,.. - Eqz;.T ;.;.H: �- . I, !L� a - . . . . . - .. . - " . .. I *. '---.l l- .- i.i;- -i -. ;... . . .. ... I._ ... ._._....
s^1 W . . w-- s s ..... ;r _l; Tr.; l-- r ; i- {- z.............. .l @ * ._. ........... .. .....-.
< r t . I . - :-' ! .-CT s1-7 :- i1, 1 - i i. .'it' -' ' 1;'' i: ..............|
] ................ t - ;:vm 4-t 't-..1..1..:-*.lOt-Tts--
10 20 30 0 50 60 70 s0 90 100 110
Fripge STI 24-2pypage Valve, Ft= Margin to Sorm at 1007 Rated POm:
IV-78
FINL SU!ARY REPOReT * BFNP UNIT 2 03.0 Results (Continued)
3.3 Mhsae 1i - Power Testing (Continued)
3.3.15 ATI-25. Maiu Stem Lne Isolaton Valves
The purposes of this test are tot (a) function-ally check the main ateam line isolation valves CKSIV) forproper operation at selected power levels; (b) detemainreactor transient behavior during and following alultaneousfull cl'sure of all MSIV and follow4ng closure of one valve;(c) deteri.ne isoation valve closure tlme; and ( deter-mine the maxtmus power at which a single valve may be cltosewithout causing a reactor csra.
Criteria
- Lev* I
Closure time must be greater than 3 and less than5 seconds. Reactor pressure shall be maintained below 1230psig (the satpoint of the fitst safety valve) during thetransient following closure of all valves. . a
Level 2
The maximum reactor pressure should be about 1190psig, 40 psi below the ftrot safety valve sotpolnt follow-ing closure of all valves. This is a margin of safety forsafety valve weeping. During full closure of individualvalves, pressure must be 20 pai below scram. neutron fluxmust IO 101 below scram, and steam flow In individual linesmust ba below the trip point.
Analysis
I4SIV Individual Closures
The MSIV 1n4±viduW4IoOIa test is. Mo W aSeDatonly, therefore the tests at condition 2E (40-601 power,'104% flow) were performed at test condition SC (411 power.44X flow) to facilitate scheduling. This test was performedon November 6. 1974, end all valves closed wIthin therequired 3-5 seconds.
The peak reactor pressure following valve closureswas 939 pugl. The steady-state reactor pressure was 920psig. Main steam line pressure was not effected by KSIVclosure. Main steam line flow, reactor water level, and tur-blns Inlet pressure .were slightly perturbed by KBIV's closing.
�I
IV-79
C
I
C)
FMlAL SVMHARY REPORT - EFNP UNIT 2
3.0 Results (Continued)
1.3 Phase IV - Power Testinl (Continued)
3.3.15 81-25. Main Steam Line Isolation Valves (Continued)
Analylas (Continued)
For the testing at teat condition 4, the powerwas reduced to ^t70% to perform the test. At thin conditionthe maximum reactor pressure was 3010 pug, a rise of 50ps1 over the pretest condition, and the maximum power spikewas "4%. No isUoltion trips from high steam line flowoccurred. All level I and 2 criteria were met for each ofthe 3 HSIVa'.
Table STI 25-3 aummrtoes main steam isolationvalve closing times for all eight ZHISV's at the three testplateaus of interest. After appropriate adjustments whererequired, all valves met both level 1 and 2 test criteria.
SIV Simultaneous Closure
On December 21, 1974, a simultaneous full closureof all ISIVYs occurred from 98X power due to vibration ofhigh steam line flow instrumentation. Transient recorderdata was obtained for all pertinent parameters and all levelI and 2 criteria were met.
Table STE 25-3USIV Closure Times
Cloauro Times - SecondaTC-30 TC-4D
USIV Valve lOX 421 70$Number 8-26-74 11-6-74 1-1-75
fCV-144 (Ci) 4.4 4.4 4.2
FCV-1-I5 (2A) 4.1 4.2 4.2
FCV--126 (1B) 4.1 4,1 3.5
ICV-1-27 (IB) 4.4 4.3 3.4
YVO-l-37 (IC) 4.1 4.1 3.7
VCV-1-38 (IC) 4.1 4.2 3.7
YCV-1-51 (ID) 4.2 4.5 4.1
FOV-l-52 (ID) 39 4.6 36C
tIV-so
*FINAL 81J0AY_ REBPORT - BINP UNflT 2
3.0 Resul (Continued)
3.3 Lhasa f - Power Testing (Continued)
3.3.16 STI-26. Relief Valves
&Mose
The purposos of t11s toet arat
To VerIty the proper operation of the primaryeyetex rellif V41ves.
To determine the capacity and response character-istics of the rglief valves.
To verify the proper seating of the relief valvesfollowing operation.
Criteria
evel,,I
lone
. evel 2
(a) Relief valve 1eoage wst be low enough sothat the temperature measured by the thermocouples In thedischarge side of the valves returns to vthin lo0 Y. ofthe temparetu* retvvded before the valve wa" opened.
(b) Sum total of capacity measurements from theeleven rplief valves shall be equal to or greater thean8.2 z 10 lbs./hr.. *orrected for . ltglt presura of1112 Pala*
(c) Delay t4mes measured vih th# ultrasonictrnuslator probe during relief valve manual eatuationas 8s1abe not greater than Ot4 seconds. Pela t4Wq La defined asthe elapsed time from olectrical itiation sign1a4 to thetige thq main disc strts to opei, Thor qhl1 be at leastI hour elapsed from any earlier actuatIon of the Xallefvalve of interest for this crLtor4* t9 4pplyq
Malyst*
All valves net timing, tp4Va.ty a.4 reseatingcriteria for this test. Table 8T1 264 suiariie the teotdata. The total measured capacity wVa 6.7 X 10 lb.Iht.compared to the criteria of 34.2 x 10" lb./hr. The slowst
TMeI
a FI L 810IJY LP.PTR - MP UNIT I
3.0 ealta (Continued)
3.3 ?has IV- Powewr astim (Contiuued)
3.3.16 MT-26. Reltef VAlTas (Continued)
AnyauSis (Continued)
dalay tim vas 0.32 secona an valve 114 compared to testcritSria of 0.4 sucond. All tailpipe temaperaturea tura d 4to within 00 ?. of their initial temperaturee.
* lef Valve 1 Manual hatuagton pata
Co~rected Reseatt8gmeaBured Delay Initial Final coeptable
Relief Cppaaity Time Temp. TWp. (Ppass)Date Valve No. (10° lb./hr,) (sajC) (to.I (fP .) (Fminfl
.9/. 74 1-4 .32 .32 260 265 P
1-5 .s20 .27 256 230 P
1"18 .804 .23 340 248 1
1,19 .811 .26 250 2S3 P
1,22 .764 .24 230 230 r
1-23 .787 .27 123 229 P
1-30 .796 .12 352 261 P
1-31 .787 .2S 250 250 P
1-34 .804 .26 230 232 * P
1.41 .777 .j .240 215 P
1,42 .796 .16 264 372 1
Total Capacity - 8.678 X 106
(1) Cp&c4ty corracu4 to design proemur of till pots
C)
(-t
m
-
IV-82
3.0 Result. (Contiuued)
3.3 Msa IV - Power Testign (Continued)
3.3.17 STr-27. Turbine Stop and Control Valve Trips
Purpose
The purposes of this test are to (a) determinethe response of the reactor system to a turbine stop orcontrol valve trip and (b) evaluate the response at thebypass, relief valve and reactor protection systems. Thepirametric responhes of particular interest are the peakvalues and the rate of change of both reactor power andreactor steam dome pressure.
Criteria
[Avel I
(a) Reactor preossure shall be maintained below1230 psig, the .etpoint of the first safety valve. durtU8the transient following fast closure of the turbins atopand control valves.
(b) Reactor thermal power, as indicated by thesiulated heat flux readout, must not exceed the safetylimit line defined in section L1L1A of the technicalspecifications. The turbine control valves must besipto close before the stop valves during the generator loadrejection. The turbine stop valves must begin to closebefore the control valves during the tuzbine trip.
(c) Feedwater system settings must prevent floo&'£n8 of the steam lines following these transients,
Level 2
(a) The maximum reactor pressure dho.li be leosthan 1190 psig, 40 psi below the first safety valve setpoint,during the transient following fast closure of the turblnistop and control valves. This pressure margin shoul4 pro.vent safety valve weeping.
(b) The msasurement of simulated heat flux mustnot be stgnificantly greater than pro-analysis calcaue~tons.The pressure regulator must prevent a low pressure reactorIsolation.
(c) The feedwater controller must prevent a lowlovel initiation of the HPCI and HSWVo as long as fed V
water flow remalis available.
C. VIAL SJMI4ARY REPRPT - URFNIT 2
3.0 Resultis (Continued)
3.3 !'.", j V-Pr Testing (Continued)
A 1 .3.17 ITI-27, Tubinte fte and Control Ya ve TEL (Continued)
Criteria (Continued)
JUA(Cxtinued)
(d) Tho load rojectiQo vtthin bypass capaeity matnot cause a soram. The trip anram function for higbor po rlevels must meet R1S spectficatSons.
Fast closure of the main turbine stop valves wasdezaonstrated at 00t of rated reactor gorittons,
loqusnca of ovseot 4i4 the tum respocttv. to theturbine stop valve trip are presented in tablo aTI 2741 belvw,Table $TJ 27-2 gu iArlas th4 prbctpal VaruwteWs vmauire4v
Table O 27.-cqueance Ma Events fa lisin Turbine StUp Valve Closure
Time(a (OC.) -J _.... nat
a Turbi.o Tvtp
.15 fitrt of eV CloawU.
.19 It~rt of CV 0196UtO Mi4 1V OpeOiAU
.21 ReartOr scram
.25 HAxNM Boat Flu%
*39 eV INl 0loto
N/A SPV fall 9o'sR
4,al ' eap^to; ftoueJw
%5 gec. Mianz ll4CtQ; llatw X4v" lRapto ts1ol~tt~zq
10 sac, HsWU b0ptor V~t#T l W fs t
( I
C
U
I
3O0 Results (Continued)
3.53 Ase W Powel Tasttwa (Cantinued)
3'.31 ITU. blne S 0 au et . _L. _ ___ (CoAtcaSrd)
.Table TI I 27.2SUiaY of PUncIPal PaUetor
Turbto Stop Valve Trip 9tQ. Xo00
Parameter IPt -4 Actual
Peak; RoOTtoVt u 4UM '190 p61 1085
Haos Het llux l% 1,m?.
MJllum Reactor Water Wet 011owl#;p (.flu) .35 tnches
Hu#= Reactor hater v41 astea line (N30") 64 inuchos
Control Valve Closure TOU 0.2 4Q9. .2 soot
Anals.is (Continued)
Post c@osusr Qf the main t4i;bIW 00akOl V41,Vwas demow geld *t 15%. s 0o % Qf :etq4 tavtoT qtio.
At the ZS% xqsQ$tqL cond4tton, the tralent VPwithin the capacity of the bypaae valve a system en thehvalves open fast enouih O Vrtuafly e1iWlnat. 4 prozss rspike.
A low-low wtor lavol lsolation gaurred 4urta.both 8TI-47 t;IV grqi 1007, poFom It mg not withbui thicapabiupy of tK fo4water cotrol, oystQ to pr tlow vatcq 1vql Co4#4i0 1x4a Qcowrlna a. tvquired bythe Isvl I Iriteria. For the generator boa4 rljeott,the teit Vu PUTPOGOOly $;arteG Pro 75 hisur than pQ;"llevel to provent ths 1AGcatiton. Hmmvqro ta intial opV4; togPQ aW29l #d 0t fV44 for the aeeW49t; &ystft tQ QQWpousateo Since 4 reactor ieolatiou does not onstStutq 44q(#ty prbqles*, tWh* PUt10 Of thio ^ e Wk a ZaCptc4 aatisfactpry. The IM level tlaUtion problem in baegnvwed by GE and TVA DED.
0
0
V -85
1INL SURY -REQORT - PNOP T 2
3.0 Results (Continued)
3..; Phs.. U -Powe-r TestIM (Coutilu.d)
3.3.17 x-&7. TuMtn0 Itotgg WAStM!vtlveA' (Contued)
TAble ST 27-3Foast Closure of Ikn TUrblpo Contol Vaklv JaPas . .st e * at&*
Seconds Event
0.0 Initiate Generator hip (Main Breakar- 1)
* 0.07 start of CV Closure 1A4 BV penian
.184 CV Pull Closed
0.53 Reactor Scran
0.37 BPV Pull open
' 3.S Peak Reactor Pressure
% 3.6 )ULAm 9avatow water I4l RE*to Iolation
'%43.5 , Aim Ra,,to; Wate; ,s__.
(
3.3.318 O5140. legirculattou S&stem
To evluate th reciUqul~tioq flav a4 po; evsltranasint folloving trps of caew a both qf th4 rvi;rcu4iLn
To Qat 41n VoqiT4 4tiQ sysow p s4or aaz 44M.
To verfy 4 4t rup sltin eye t t*towill aocur in the opiso re1 p we t r psfiN
,.. r, it eri a.
MM sbell bo petsr thz4 1.0 4qiawg the VXVPtrip tronalent.
IV-86
ErqAL SUMARY REPORT - DFNP UNIT 2
3.0 Results (Continued)
3.3 rhase IV - Power Testina (Continued)
3.3.18 STI-1O. RocirculAtion gysteln (Continue4)
Criterla (Continued)
for oCoh pump trip test , thl Mnimum transientfClWa based on operating datu divided by the corrospondingmLntml transient MMF evuate4 from dftan valuog igexpected to be equal to or.g$r4ter than LQ,
UecdrMAtW A BystM pe;OTOaMW dAtA wae 'Oon the 507. flow control lin 4t va840s qombtiattoM otpump apeeds as welt an At pach end of th 75. AM4 NOS flowcontrol Uaes. Performance of the system Van aatts(4eorYat all conditions.
A test for caviti$gn in tho TeOVi~A0tt Gy4e0was performed on ft 507 flow pontrol lion 'by Insert eon'trol rods in the revorse o th£ pg4pal rod u4qu,4t e. iwhile recirculation pumps vwre uaintain*4 at R *?p*4 to $iLvapproutw.tely 104 Mtbq,/hr t041. core fqw, lirtiallysthrecirculation pump runback s. apcunteru 4 at app-ftsilaly26% power. ho rCulpack V9orepit WON leowT.4 04 the testperformed again, In thin ratett, t;he M.back VeWq qpqnterq4at approxzmtoly 22.52, power, No 4ituito pf eastionwere seen li either test. Duripa the aa eetting tf th# VA-back 4stpoints a pVitgt#Pn 06srot WON pOTCOMd do toapproximately 207 power, with tho Cee4Vater runba4C% 4artVLock jumparad. No cavitation acpuwe4 I
R#gi$Ta;ion PjUPp tg'ps ware psprfomqrw At $75.P to t907 povw4F with 10PD% flow, by tWiPine th4 9a pdrive xotors. 8ingla pump trips werk pnfaMd4 at 50 a,4100X pwer with 1007 flow by trippiug tbh drve wtpon, A#Lqgti pup ;rip ipJ peffop4 507 Powp; , ith10 #l0iwby opening the generator Ua14 breaker on pump "a," At4n*tpRt P"49ti WFrLip$ hFpt fluxt ritu p CMCUfl) 2AnYl8tava4 a4e0 for tba 504 g4 1X PoWr tP QP trlp en fthe I-pump trip itiated by opoigng thp gqwaretav t*e4sbreak&er. The analysis va4 perfpwd os pn pez nd AU;v4durlng the transient by using the off lln tow qTho {qputer (BUCLE). Although rop r"qutrxu by pus; ;;ltO$,transient minlmum crLtical power ratio (KM) unalyqp Vispueor 4 rp; ;bp %gam pu tq *s were the HMCIR en4ly*ss, t )
IV-87
RVIRAL SLINARY REPOr- ANFP UNIT 2
3.0 Results (Continued)
3.3 Ph- ) IV - lover Testine (Continued)
3.3.18 AT1-30. 12eefculation ytem (couttnued)
Analysis (Cpntinued)
MLPB remained wall above the 1.05 l$i4t during allanalyzed transients. M1fjR remained above 1.0 during allthe transients. This satisfies the Isvel 1 criteria.*Tbo level two cEiteria requiring that the ratio of themitnima transieit operating MCHFR divided by the manlamumtransient HCHWR be greater than 1.0 was satisfactorilymet for all analyzed transients. At test condition 2E(%50Z power) the steady-state MCHMR wYs 4.10, while thepredicted experimental MCH=R was 4.25 for the l-pumpgenerator field breaker trip. The steady-stat. MKCuW isa function of the rod pattern prior to the initiation ofthe pump trip, and does not violate the criteria, MCHPIiumediately began to rlse In magnitgad during the transl-ent and was above the predicted values during the transi-ent, therefore the level 2 criteria wvre satisfactorilymet.
figures STI 30-1. through 8T} 30-3 pqMpare plant.pareTaters wnd XCIWR, as calculated fror the trazsienttraces and JVCLE, with the predict4 behavior-for allanalyzed trips. Table 8£1 30-J, eb.. M$Hy4 HQP9behavior during the two pump trip fro lQOX pQWvr. Thistest was the oma; 4imtigg cas4 of the nalyzed trips.
C.
I
6 .0L SM%.%RY REPORT - B , 23.0 R'esults (Continued)
3.3 E -Po cor Tes:.in, (Continued)3.3.18 S .-30 Recir-clatior. -rstem (Coatinued)*---Core Power '
:---.-----Core Flow 4 -
*- ,:... -,_-_____ . .- - - - -rive Flow A B .1 3 j _________Drive Flow B .
I * I * j I | __.____ -Generator Speed x.t1 i - 1tCHFR l
I.:,: 1.:1:: :.: ;1:: 1::::f -- ::I.... ... .. .- , . -...-..0
II
I....,.r.I **:****E**?**I**1****II! LJ�J
r[T
i
7j.i ; I; ..; F. *;-,
1 .Z ~~~. . . .. . _. . . ,. . ... . . .. I "zI v!771 i:T; TI7 .I~1. . . I .i; I.-~~~~~~~~. -0 -!-- . r.- 1: ! |- -.-
.I.
00%4.
-4
CSaL)
laU
0
If!
ft.
10 t. .. ... .. .. '. I .D 9~- - - ... -.. ... --.
o a~~t | t: i §; ; SI... ... .. ....T T ... .. t...i.-l. . ...
0 6 i/ 1 1--1 |*- ~~~~~~~~~~.... . ........................ .... .... ....: ... .... -.... .. 1 1 1 : - '
0.4 l _ _: :* La-L .P 1'1 g'itdZEe { -~-0.4 .: . .I,.,, Ii,^t~ ,.
0.3
0 3 - *li .. . i ... .l:.. :--. - .: t | l L ; I
...I - .-... i
0.2~= IT .-- . T z TTIT I-. 1 I*
I-
-4
0 .iq I42,In=*7-
'4Ob
4r
..-v...--l-. L..|_ r ;0.01 ;;:!,0
71 1 -; -1--1 i[|I-; ' f* -t-&lri z t!^ -:t*1:4i:':-* . .. 1. ,I1 . 4. 5 6: 7.. -8; ''1 ; .: . l ; I; .; :.:I i; . :; ;: M . it. ;;;;; I $I
I z 0 4 5 6 7. a........... I..................
9li-i i31,
10
Time After Generator Field Trip (Seconds)
Figure STI 30-1
3293 MHt Plant Ro;!i0latio4System Performmn". . _.. ... _VA _ ___
0PFL SUYARY! RIOC - IPM Mn 2
3.O 0 Reults (1:ontizued) .3.3 Ph.,se n? - Pawer TestinM (Contited) ,
3.3.18 T RecircultionSte (Continued) "- ....
s . ,- -I....11 - I
. L 1 . *. -1 - I . ... .. ... .. .. .. |...... . . _1..... 1 o *' ii .... .:....~ .:!s.:.t.... .. : 2.. -.-. ...... .. ... . . . . .. . . .... , . . . '.:-I III I -I .'
I : . o -E!; -_|- 4---s�. 1 . zt-
I.1 I . , *.- . .. . ... ' ... -
- - .. . .... .. .... . ... . ... . . .. . .... . .. I. ..... .. .-
* I !. :I: i
I-----Core Power-----Core Flow (3
_ --- DDrive FlowA ElA Generator SpeedA.
-_ ---- MCHfR b4
�jji1� -t-w--1 - I TIT Th¶�.
�:: �iL�I1�
*-:. .. .. .. - : : ..;i- I .i. ;,.I- -. : -:;- :- .- . ::.
T;, I:.s. Ie'.- t;;
4---I--I 1I; 9
l.O It . @ -'i " I.. _4'. i 9:.. ! . .;I p.; ;.:!; .. 1 . .. . :.l .l. ̀ 1 . I
J
r. 0.9Z-4
a0.7
el 0.6
-4
0 0.4Z4
I -
-F * I -
=,.'.:.D.,-. ,I-. I :
I ' !1 4. .s -: :........ .: : - :1- . ......... . . ::t. I ..X: :} w ...........' 1 -.:: I *-o~I .:-1 . i.1 i- . . ilt mi.;. . -f.> : . -
'-Z
:- -P.,
i
i l
; 17
'-40-
PC
NY
10
0.3!
0.2
0.1 w ~ IIII I ::'t:: I ...t
0.00 2 3
*1I
4 5 6TIME AFTER P"P TRIPS (SECONDS)
7 8 9 -
I.
Figure STI 30-2
3293 HWt Plau Recirculatuou System PerformanceFollowing Trip of Two Drive Motors - 50?. Power
FI:.'~AL -~~ -F:P- T-
3.3 -~ :- ?.r*r~ (Conti.r:,ed)3.3.~ ~T-3 Recirculation g~stem (Contin-aed)
-.---.---- ~-tore Plowe 12
__________ y Generator Spee
............ . .t. .. ".5
. ..4.t L..
........ .I .. .! :i .n.1.1 _ Q1.
0.1.~ ..- v...%
....__.... .... .... .. ....i...
o ~~ ~ 4 ~ 4 4: .22 .. : t
$20t-0
lo
0
Li.
a
I-
M
1.
.4
9
'-I'a
6_- I-;.: L: V. A i;-T-1U . . n .1.... . . ... .. I .... 1:r-* # 1 . I- : . @--Hw 1 ago-Fits:;-ado
0.41
A31. m:. .... ::n ..... .... .... .
.4I- . i--- f--!!! I. - " f.. 4 of ... - v- #-fit . - . - - - -__ .- - ---- - --------------- -: .... ... ... . I.......... . ..s I . .. .L. I.... 1. ... 1 ...... ....... I....I.... ... - 0...� ... 4..- - - -. . .... ; -..I , ..... .... I :!:,I--- --- .1_:!t11--1:1 .T It. TRIT __ T- : .: F�A_ F-7 K-T-E... . .5 il+.- -':
.. .... - ..;.&; .... .. . . ::I:!--,.. ... .... .. . .. ... . 11 ". -3: . . ..U.1.11.1-111-11, . . ... ........ ......... .... I...... II.I...:;"&=1.11....I....I........I....;....; .... .............. -... _. ... -1 ...... -T - .I.E.-I It.
1:n:;n�. Li- - :- ;..;I! .. I. .t g . ..L......... I I :'. .I.V i til :.:& ;; .I. t:1 .:Zs , :i% '. W 449 9;" 'L i :;Lts.4- &:.- - I 1-
0.1 I is ;: L~:~:gi;:;j::.. j. I:Zr: :-.: ; '--Loo !- :''' "'' ... * ' ' *i s" '' ::§- -- 1'- .... S.... -
;I,: if -PiUn -1 .!!I. 1!1 flat -!::fill M1 3M.... VI, MI f f 5 A -1
I0. i: Amirjilpanel. "I'll i_
0 1 2 3 4 5 6 7 8 9 o ' '
TIME AFTER PUMP TRIPS (SECONDS)
Figure STI 30-33293 SWt Plant Recirculation System PerformanceFollowing Trip of Two Drive Motors - 1007 Power
IV-91
r FIAL SUIM Y REPORT - EFNP UNI 2
3.0 Results (ContLnued)
3.3 Paue IV - Power Testing (Contimued)
3.3.18 OTI-3O. Recirculation system (Coutiuued)
TaSle STY 3Q-1
Transient MHWI and HCIWRTwo Pump. Trig
Timekfter Marg'inTrip ?ICPR to 1.05 melQD to 1.0(seC.) value Limit PIF Value Value PhF
0 1.257 0.207 P 2.65 1.65 P1 1.251 .201 P 2.64 1.64 P2 1.223 .173 P 2.63 1.63 P3 1.18l .138 P 2.67 1.67 P4 1.116 .066 P 2.77 1.77 P5 1.180 .130 P 2.96 1.96 P6 t.18s .135 P 3.14 2.14 P7 1.189 .139 P 3.33 2.33 P8 1.214 .164 P 3.60 2.60 P9 1.222 .172 P 3.76 2.76 P
10 1.241 .191 P 3.96 2.96 P
3.3.19 STI-1 . Ian of Turbine Generator and Ofauita Power-- -- -- __ | _ _,,
purposo
To investilatq teo rector tramiont peformanceduring the loss of the main ganaiator and all qffoSat powpr.
To damonstlat@ the aooeptabl PerfQM q of tloStation elctriel, gupply syntea durinz tho 1o0; of tb.man senerator and all .ffUito pomr.
Criteria
(a) peactor presauve sa*l be maintsined bolw123D PUBs th IMtpoWt of tho ftret *aSgY v Olie. 4uringthe tran$ont.
(b) All sadty oystam, auch " the vesator pro,tection system, RCIC4 POI, and diesel generators, ustefunction properly without mannual assistance.'
.I
I
e ----
KV-92
FIA ~SMWY REPORT - BFW? MMI
3.0 Results (Continued)
3.3 pas.1: V Paver Testing (Continued)
3.3.19 _ lss of Turbqe Generator and Ofatt ?powe (Continued)
CrWtGLa (Continued)
Level- I
(a) Thu =aNim= reactor pressure should be lessthan 1190 pol# 40 pas below the fCist safety valve eat.point, during the traient. This pressure margin shou ,14prevent safety valve weeping.
(b) Nol reactor cooling systems should be ableto maintain adequate suppreasson pool vate: temperature,maintain adequate drwall cooling, and prevent actuationof the autowdepressuizgation system.,
Analysiso.
The test eas successfully performed oan September 8,1974. The reactor was at 4 '31% power with tha main fanaratoroutput at 277 NW. Prior to the test, th. plant slctriual,system was aligned so that the only sourc. of por to theunit 2 auxliarles wasi the unit 2 station service transfowmerand also, so that the teat would not affect unit I Qporatton-
he auxliary electral.41 ahut4m eystem wye alignad sothat only 4-kY shutdown board "C" was feeding fria unt 2.The unit 2 480 volt shutdown boards end motor operated valve:boards ware tsolated o0 that their mob source of power was4-kV shutdom board 'C". In this coufiguration, all unit..End shutdown auxiliaries for unit 2 uae being fed Cra theunit 2 main generator and could not be supplied by unit Ior the plant con electrical system.
The reactor va8 operating at atoady-retat. con4tA.Lons with normal feadvator ¢ontrol for one reactor fee,4
water pump operation, vhen the turbine generator was trippadby manual operation of the generator negative phase asquencerelay.
Reactor Response
As anticipated, the reactor scramd due to gon-trol Valve fast ologura when the turblap tripped. Threactor feedwatet pump tripped iedt4ttly due to the lOs4of NPOH which was caused by the automatti tripping of thecondeneate booster pumps. The reactor Vater reciroulationpumps also tripped tmediately on undervoltage.
- �1
p
IV-93
C FINAL S!ThARY REPORT - BFKP UNIT 2
3.0 Results (Continued)
3.3 Phase IV - Power Testing (Continued)
3.3.19 STI-31. Loss of Turbine Generator and Offaite Power (Continued)
Analysis (Continued)
Leactor Resoonso (Continued)
Thirty seconds after the reactor scram, thereactor isolated by MSIV closure due to the RPS X-G set&tripping on undervoltage. The reactor water level continuedto fall until the ECIC pump was manually started six tat-utes after the scram. The water level at that time was27 inches below normal operating level. The level droppedsix more inches before the SCIC pump began restoring cool-ant inventory.
Peak reactor pressure (1084 psig) was reachedeight minutes after the scram when three relief valvesautomatically operated. At that time scram recovery opera-tions were initiated with reactor level and pressure con-trolled by RCIC and ranual operation of relief valves.
During the turbine trip, reactor scram, and reactorisolation, the reactor parameters followed their expectedincreasing and decreasing patterns. Drywell and suppressionpool temperatures and pressures remained essentially unchangedduring the transient.
Electrical Response
Following the main generator trip, the unit andreactor recirculation pup board fesder breakers lumadiatelytripped on undervoltage, resulting ln a loss of voltage toall unit and shutdown auxiliaries associated with unit 2.4-kY shutdown board '"C" autamatically isolated itself 5.4seconds after the generator tripped and voltage was auto-matically restored 1.8 seconds later by diesel generator'IC". Alt other automatic tripping and switching operationsoccurred in the time sequences expected.
3,3.20 BTI-32. RacirculatLon Speed Control and toad Following
zurpose
To determine correct gain for optim=u performanceof individual recirculation loops.
C
IV-'94
PIR& SU?(ARY REPORT - ffRPMWI2
30 Results (Continued)
3.3 hat tL.-LrweatipB (Continued)
3.3.20 p1.32. Recilrculation goeed Control and Load Follognst (Cout.)
Purpose (Continued)
To WateIUS that the recirculatiom boops ancorrectly set up for desired speed range and for acceptablevariations In loop-gain.
To demonstrate plant response to changes in recir-culation flow.
To determin that the load following loop operatesacceptably over the desired range of recirculation flow.
Criteria
The decay ratio must be less than 1.0 for eachprocess variable that eohibits oscillatory response to flowcontrol changes. * 0
Level 2
(a) The decay ratio should be lose than 0.25 forany process variabl that exhibits oscillatory responsa toIOX speed change inputs in local or mstor manual modes.
(b) n autowatic mode the flow control range limitswill be set to include that portion of the total flow rangeover which the decay ratio io loen than 0.25.
(c) Steady-state limit cycles, if any exist, must*ot cause turbine stem flow to vary in esess of ±+0.5rated flow as measured by the groso generator eloetricalpower output.
Analysit
The racirculation flaw control system was set ,up during the initial haatup for good stable operation.gaistLng diodo type damodulators in the Bailey pouitionerewvre replaced with a tranuistorLsed type and the slavedriver remained as a part of the system. These units werefine-tuned for maxioum trackina ability and their perfor-macen was acceptable. The Initial settings of the system
lY-95
F AL UMARY REPORz - 9PNF UNIT 2
3.0 Results (Coatinued)
3.1 "%&s. IV - Power Testia& (Continued)
3.3.20 STI-32. Recirculation Speed Control and Load followint (Cont.)
Analysis (Continued)
controllers vere as followes
Loop "A" 10001 P.B. 15 RJRLoop "1B" 10001 P.B. 1S RNhmaster 1000X P.B. I RJR
An power yas increased to the various test condi-tdons, it was noted that the two loops performed adequately,however some problems were encountered in that the two loopsdid not track each other as desired. More adjustment andsome component replacement on the Bailey positIoners improvedthis condition but never completely relieved it.
On the 100I flow control line at rated conditions,it was found that the settings on the system loop controllersmust be changed to 2000X proportional band to maintain therate of power change to less than 151 per minute on's largerstep change in speed comnand (10X). This meats the resttLcvtions of the PCIMG. Uader these conditions, all of thocriteria of the test were met. The system response wasstable but heavily damped. The "A" loop did tend to drifta small amount under steady-state conditions but within thetolerance of the criteria. Representative results of teststep changes for the initial and final controller settingsare shown in table STI 31-1.
The H-C set scoop tube positionar gain curves areshown in figure 3TI 32-1. It can be seen that the curvesare slightly exponential which results in better speed con-trol capability.
The portLion of the test Which required operationin the automatic wode was not completed and was carried asan exception on the final test report. This part of thetest can not be accomplished until the Nuclear Safety ReviewBoard approves the automatic mode of testing.
I
TV-96
MINAL SuMMRY REPORT - SFW U NIT 2
3.0 Results (Continued)
3 Phase IV - Power 1estin (Contlnusd)
3.3.21 -32. Recirculation H- Bet Speed Control (COntifted)
Table $lU 32-1Representative Results of lacirculation Controller System Testing
Test Pley Powr Controller Total AP Rx lumCondition MIb/br t Setting Tlw pai
step. I
PBa2000Master
2B 104.5 1938 A PlB0100 -10 0 -2.5B PB-1000
Ai 4 B R/h*lS
31 99 2470 same asTeat cond. 2B "S -1 _3
.PP2000Master
42 1t0 3262 -10 -S -8P1B2000
_ .R lS
0
0
, SMIARY WORT - ME EgT 2.
3.0 Results (Continued)
. 3.3 Thase IV - Power Testing (Continued)
3.3.20 STI-32. Recirculation Speed Control and Load Following (Continued)
Controfler Output tea)(Input to Scoop Tube Positlomr)
leigure S71 32-1
a0nY-gs
FINAL SUMMfY REPORT - DPMP UNhT 2
3.0 Results (Continued)
3.3 Phase n - Power TestinR (Continued)
3.3.11 SS1-33. aift Turbini Stopg Volvo SBrveillance Test
Purpose
The purpose of this teat in to demonstrateacceptable procedures for the daily stop valve aurveillaneetasting at a power level as high as possible without pro-ducing a reactor scram.
Criteria
Level 1
Not applicable.
Level 2
(a) Peak neutron flux must be at least S5 belowthe scram trip setting. Peak vessel pressure must remainat least 10 psi below the high-pressure scram setting. o
(b) Peak steam flow in the main steam lines mustremain 10? below the high flow isolation trip setting.
Analysis
Turbine stop valves vero closed individually at selectedpower levels. The design of the main steam lines provides.
. cross ties upstream of the stop valves5 which prevent largoperturbations as a result of tha stop valve closure. Table
STI-33-1 summarizes the U st results. Included are theparameters of greatest interest: Peak neutron fluxg peakveasel pressure snd peak steam line flow. little perturba-tion was observed due to the valve closures, and the peaks
listed in table 5?! 33-1 are not such different than one wouldobsarva as background variation at steady state. BTI-33demonstrated that the stop valve surveillanca test ray be satis-factorily performed at full pcuer. All test criteria werb met.
0
FinAL MMAfl RZ0 - 3NM UW 2 f
3.0 festlts (CoutinUed)
3.3 Phase IV - Pavez Testin (Coutmed)
3.3.21 STI 339 %din Thrbine Stop Valve Sre12auee Test (Coutrued)
Table m7 33-1S ry of tine Stop Valve Closure Data
Raaefte Pawer 252 59.52 74.92 99.2X
Peak reutan flu 262 60.5% 792 10l _
fLn to Lilt _ 10! '>102 V10? '10!
Pea Vessel Preen" 919 d 95 p 970 PgI 988 pid
MIarrtin ta, U t 12.92 10% 8.052 7.3!
Peak Steam Uns F3m 1.0 6 2.2&. 2. 3.95_ _ _ _ _ _ _C Er B r_ _ _ _ _
n to UUit 752 482 40! j ,
5Rt thet data abowe w pe* vatm at eah Uet termt. AP nmrn toXvtte mv dsf ied by the folkrweng ti'p Urits:
atr - MDepends On peaking factor set LnVessl Press - 1055 p"isPak Steam 14w - 140! rated flov, 0 4.7 Mb/lr
to
lY-10O
VIRAL SUMMARY RESORT - BFNP tNIT 2
3.0 Results (Conatnued)
3.3 Phase IV - Pover TestnR (Continued)
3.3.22 sn-34. Vibration Ifassuremenets
purpose
the purpose of this test Is to obtain vibrationmeasurements on various reactor components to demenstratetha maehanical Intesrlty of the system to flow inducedvibrations mnd to check the validity and accuracy of theanalytical vibration model.
Criteria
ThM vibration criteria, used to judge the resultsof the vibration measurements, is the procalculated vibrationamplitude at each sensor when the maximum stress In any one ofthe Internal's structures or components equals lo,0oo psiincluding stress concentration factors. This stressrepresenti approximately one half the stress limit given inAMHe Code Section nIt for 40-year life. Necause of theircomplexity the criteria are not presented here but will U Sevaluated by the CE vibration test engineer conductingthe test.
Vibration test data was taken in conjunction withthe recirculation pump trips, one pump at a time and then bothpumps simultaneously.
These tests wera conducted At 5O, 75g and 100 percentpover levels.
The coneral Ulectrie Vibration Specialist states thatthe vibration amplitudes are wall within criteria lmitse. Afinal evaluation vdl3 be made at a later date by the TWAcentral office staff or by an Independent conasutante
I.
9
- -
D-101
FINAL S1T0MMAXY RRPOT - FNI UNIT 2
3.0 esults (Continued)
M Plsaise IV - woar tTestns (Contiwued)
3.3.23 LTZ-35 Racireulation S stem Vlov Calibration
The purpose of this teat In to perform a completecalibration of the installed recirculation system flowinstrumentation,
level 1
gIot applicable.
Level 2
(a) Jet pump flow instrumevtatlon shall beadjusted such that the jet pump total flow, ecordar Wilprovide a correct core flot.indicattion at rated conditions.
(b) The APM/RM flowbese bst mmntatfoA shallbe adjusted to function properly at rated condrtions.
analyuis
Recirculatton eyntau floY data was taken on tho501, 75X?, and IOOX flow eontrol linsa. &du4mait 4atawas taken at each teat condition and calculattona oro uadoon each sat, atilsinx the vendors' cOmPuter system(JPUMlPS and IPUPS programs). The fsult wra analyz4eat each test condttion; howevr, it Swsa not necessary tOmake any instruent adjuotments until rate4 condittons wreattainded At this point the data aalysta rovasled tht theindicated raairculatioa flow ac approxuatoly IOX MiAheW t0nclculctate vauns. Ilv flow ;sle* coofficisent weredetermined bases on the calc4atsd alves of flow ustR pmcharacteristics. Prom the nay oolsle cPefflosntat n w flowtransmitter c.Ubratian rmnge wes doermtno4,
Fnal callbrtion of th or f1o mauT$R8 5 twas based on the data ta en at r*t.4 coitIons". CorqATPUof the double tap jet pump tiu. with the staple tAp jet popfloe allow that they are wIthin approxaiatoly %X of set other,To a4ddtion, the H-ratios are wIthlS the bond of "iptstheoretical valuns. The pan *djustweat footOTs Cnd th*&$-left g^ans are as follows
I.
IV-102
MtHAL Sw1) Y RiPORT - 371NP MIT 2
3.0 Reutel (Continued)
3.3 Phase W1yjQtrTestin (Continued)
3.3.23 STI-3S& Recieulation System now Valbratteo (Continued)
-Analsis (Contnued)
InstrumentCain Adjustment A le .
A 1.041 0.5205
1 1.04 0.52
The APR)SHRBH flow bias lautru msntation was foundto perform its function adequately at rated condlitIOnaRovver, an unrnsolv*d problem wys encounteved in thisarea. It was fouu4 What a non-liveavity Oxteti 1*tow:ntha recirculation flao (dwtv Clow) and the ove tow -which C4tB.. prTua0tiru To4-okS At lQw powe 1eVOLSO r-flaw 1a4 Mstruuantation to sot up at rated 6o2ditiofnWhan thb flovs ara reduced, the Monln"ArAty cGuGes the dtviflow to decrease at a fester rote than the core flovwcreating a rod4blocl conditton. The problem bas not beensolv*4 at thio ts howwvor. the vendor hbo pwpoi@s4 Asolution and is presptly om4srgotpa evaluetton-
A
�1 �1
IV-103
VPW. StROAR REPORT - BP? UNM 2
3.0 RISIltu (Continued)
3.! s T (Coatinued)
M.M24 GTIT-_. &,1I Atmoheda 0611t !et..
Th luipos. of ithis test to to VtTify the abilityof the dvlu atmospheri cooling cystes to maintaindesign conditions the dvsll duiing opexattat xonditn. .-
None*
(apTM Uty C t Shal have a st.n4bycapuli lo 21 31 oft rthte 4 beat "ra wa ow tUvtyt
(a) Tho drp.ot coling 67stem. sh4l MaUtW t*Im -htfvep 44 the dvyM1l bw th following dosign values 4uViAwRonal operation.
IIWing -.rMal Reactov ('prittions
"I36s 1, (014 C,) samw e LEQ t rewool", dpim
wtoffl .I ' Ft2 .0fiX44 9.) mda tor 4Uw Pthv ,-1150' Ft (f$§' o.) "4*w let g other nr:
'300't 1,§ C9;P.) 1hIW09 thu bilX4hh,
la Busr btex shutdowmn
V414R 1' 1.e (63' C,) ipf p1.pvd 'QQ1IR.vtn talet twoPravr 'A 4el avess beaeath V*
, bVf14to'dry4 pll bulWOW,
m
tY-104
FINAL SMUMY REPORT - AFWP UNI1T 2
3.0 Results (Continued) L.
3,3 Phase TV, Power Testinp (Continued)
3.3.24 ST!-72, DryWall Atmospheric Cooling 8sten (Continued)
Criteria (CSontinuod)
ca~gWater SugPlys
-'100. *. maxim
Unifotm Circumferontial Ten erature at Uhieh the
14aunined :
oWLthin 250 P. maximum point-to-point variation
Ana lyst*
At lO0 power &U points vithin the drywell matthe 1SO F. axzimou temperature cr*terta with the exceptionof TE-80-13 and TE-SO-14. The averalg drywall temperaturewae 124' F. It should be uoted that RUCM temperature intothe dryall wdas 83.4' P. It to expeatd that the Inlettemparature of RBCCW Into the drywall will apprcach lOS1 .Tduring the uimer months. At these conditions it isdoubtful thaC; drywoa temptratre. voM14 meat desigin criteria,DED will evaluate and resolve thto ppoblei.
The 4ryell heat loud was measured to be 6.11 x 106Btu/hr at 1002 power, This compares favorably with the designhea load at 6,t9 x 106 Btu/lb with the drywall sump pumpcooler out of service,
bate wax taken before and after on, of the fulXpower scraUuu to itluatrat. the ability of the RCCU SysteM tohandle scram heat load,, Although at ten hours after thescram the average drywall temperature had not decreased towithin 15'P. of kha KRCCW tr4at temperatura, only 8 coolingcoils and fans were in service during this time, Ten collsan4 fans vere placed In optr#t4on and the temperaturedecreased to within 15' F. of the RXCCW inlet temperature,
I
0 1
'V-10S
. FINAL SUMMAY R FORT IMDFP UNIT 2
3.0 Reut (Continued)
* 3J) Voss IV -Power Tiesti.g (Continued)
3.3,25 §1!-73. Cooling Vater Slateas
Th purpose of this test to to verify that tbepurtorance of the. reactor holdting closed c~ootiR vater(MtccwJ) system to adequate,
lervel I
(a) Vorification that the sya4tex PerOrmanrce nouttbs cooling reqtdvre'ents onotimttteitsmatistactoryi couplotionof this test.
loa ~f (b) RBOCV was 4.stp4 to tirgipstor Mium1!4 heat
IP f3:W3 10 I44r tu order to limit oqupSwt 101I '
no beat load as §6asurad oft thr 1MV aie 4 of thu -U04t pipbanspr WAR sta w s~5 1tphvt Asawor sI5144 tootIlPA d OR h foot Fpap WitO a-rPhaits-ro.th UOCw V 2DO Pwt
Ophnpr hPt.transfor rot. would he v4th4o ax of tha dwepi
Nu oatepstoras PVtpChP#LtotAs drywall u 101l T. IPr soru vonielt~o trh' eOV0148t04 Ioraw cooling water flow WAR Vur o~T~,Ipg0149RtOOD VIA# oold rtvor topoanprTOruu PV#It d vl toof ;Mh baa OXAMRRO a; ratad O"4P~ TAW fooUAS vateropporlitnr And flow, PwT %414 OVAMlSo OR I14 rePOIMe 1
V-1
FIALBINARI RXPJRT - SFMP UNIT 2
3.0 aesult (Continued)
- 3.4 Phase V -Parranty Tests
3.4.1 8TM-20. electrical futtut and Prelflm!Mtv Fat Rate
| t~urpose.
Th purpose of this test Is to demonstrate thatthe requirements of tha- goem electrical output warrantyae satisfied without exceeding reactor power level warrantyof 3292 Wt and to demonstrate the not plant heat rateo
Criteria
l* v.l 1
U(a) Ih demonstrated gross electrical outputmust be greater tha or equal to t098.4 We. at rated.conditions. J
A(b) Tha reactor power level oust be aqual to of w
le~s than 3293 HU\t at a groan eloitvc4. oxitpu, of.1098.4 we.
i() The net plant heat rate must be equal to orless than 10359 Btu/kWh at a reactor poww.. level equal. toor les than 3293 ther4 megawatts -.Analysis
Test results ar s4WMrtu4 ii W1 tblqTX 049.whicb sumws that.¢ ave qTUrOUxi (M,) Ba Cc), 4.tiufiad.CriteWLQR (a) wa, set4pft*4. excqt foe x. brief. Povewrreduction P gQl Q.. This brJ4 a3151qf U. @1, UPconsequence to the demonstration of ar!oQ electriql-#eueration..
Date- Time Interval Caus.
316/75 0310 - 23OO Pariad los U i Otg4vwater flow.cagxe4 by i.ed pusp tkrp. POTR.ja -duIc4d to ?0U.;
V-2
FINAL SI REPORT - IFNP UNIT 2
3.0 Results (Continued)
3.4 Phase V - Warranty Seses
3.4.1 Sfl-20. Ziectriteal Output and Prelmnary Beat late
Table STI 20-1Electrical Output and Nfeat Rate Test
Test Interval. 300 Era (L)
Corrected gross electrfesl output at 1114.2(2)aenerator terminals Me)
Assumed auxiliary load (contractural-MG) 24.4
Nat generator output (KWo) 1089.8
Core thermal output (Ht) 3277
Not Plant Reat Rate (MtulIM) 10262
Not Plant LUficlency (2) 33.26
tl) Wrifng the 80-hoa- warranty interval, me nOmequental pompreduotifon ooaawd.
Corr"oation LV1 male few 03 2A hW'd .0., JA 7 mot eO. **. Afe.ma theea'vr meumvfad on tAs iantioal wtt I inatallatom c04ad b fvolt" Iew
4 wE? 48 the fotaotg &diavtiatMo fd ra4td t eraft
Warranty Condition Aaeu!&
Condenser RAckpraasure (ti US aba) 1.47 2.0
Poer factor (unitlees) .9996 0.9
Canarator Itator Coolant Pressure (paig) 49.44 55
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