ML18018B515
| ML18018B515 | |
| Person / Time | |
|---|---|
| Site: | Harris  |
| Issue date: | 12/06/1983 |
| From: | Mcduffie M CAROLINA POWER & LIGHT CO. |
| To: | Harold Denton Office of Nuclear Reactor Regulation |
| References | |
| RTR-NUREG-0737, RTR-NUREG-737 LAP-83-552, NUDOCS 8312140105 | |
| Download: ML18018B515 (33) | |
Text
l"==- il REGULATORY ORNATION DISTRIBUTION SYSl (RIBS) gS~
ACCESSION NBR:8312140105 DOC ~ DATE: 83/12/06 NOTARIZED:
NO DOCKET FACIL:50 400 Shearon Harris Nuclear Power Plant< Unit 1~ Carolina 05000000 50-001 Shearon Harris Nuclear Power Planti Unit 2~ Carolina 05000401 AUTH ~ NAME AUTHOR AFFILIATION MCDUFFIE<M ~ AD Carolina Power 8 Light Co ~
REC IP ~ NAME RECIPIENT AFFILIATION DENTONiH ~ RE Office of Nuclear Reactor Regulationr Director
SUBJECT:
Forwards revised response to draft SER re Open Item 31 re NUREG-0737 items on in-core exit thermocouple 8 subcooling instrumentation sys,Response supersedes 831123 response
Response
to other open items will be provided.shor,tly, DISTRIBUTION CODE'001S COPIES RECEIVED:LTR JENCL J SIZE ~.
TITLE: Licensing Submittal:
PSAR/FSAR Amdts 8 Related Cot respondence'OTES:
RECIPIENT IO CODE/NAME NRR/DL/ADL NRR LB3 LA INTERNAL; ELD/HDS1 IE/DEPER/EPB 36 IE/DEQA/QAB 21 NRR/DE/CEB 11 NRR/DE/EQB 13 NRR/DE/MEB 18 NRR/DE/SAB 29 NRR/DHFS/HFEB40 NRR/DHFS/PSRB NRR/DSI/AEB 26 NRR/DSI/CPB 10 NRR/DS I/ICSB 16 NRR/DS I/PSB 19 NRA/DSI/RSB 23 RGN2 EXTERNALS ACRS 01 OMS/DSS (AMDTS)
LPDR 03 NSLC 05 COPIES LTTR ENCL 1
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1 0
3 3
1 1
1 2
2 1
1 1
1 1
1 1
1 1
1 1
1 1
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6 1
1 1
1 1
RECIPIENT ID CODE/NAME NRR LB3 BC BUCKI EYzB 01 IE FILE IE/DEPER/IRB 35 NRR/DE/AEAB NRR/DE/EHEB NRR/DE/GB 28 NRR/DE/MTEB 17 NRR/DE/SGEB 25 NRR/DHFS/LQB 32 NRR/DL/SSPB NRR/DSI/ASB NRR/DSI/CSB 09 NRR/DS I/METB 12 NR 22 cG FILE 04
/MI8 BNL(AMDTS ONLY)
FEMA~REP DIV 39 NRC PDR 02 NTIS COPIES LTTR ENCL 1
0 1
1 1
1 0
1 1
2 2
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- CXQE, Caroiina Power tt Light Company SERIAL:
LAP-83-552 DEC OG 1983 Mr. Harold R. Denton, Director Office of Nuclear Reactor Regulation United States Nuclear Regulatory Commission Washington, DC 20555 SHEARON HARRIS NUCLEAR POWER PLANT UNIT NOS.
1 AND 2 DOCKET NOS 50-400 AND 50-401 DRAFT SAFETY EVALUATION REPORT CORE PERFORMANCE BRANCH
Dear Mr. Denton:
Carolina Power
& Light Company hereby transmits one original and forty copies of the revised response to Shearon Harris Nuclear Power Plant Draft Safety Evaluation Report (DSER) Open Item 31.
This response supercedes the response transmitted on a letter dated November 23, 1983 (LAP-83-541).
We willbe providing responses to other open items in the DSER shortly.
Yours very truly, M. A. McDuffie Senior Vice President Nuclear Generation PS/ccc (8599PSA) cc:
Mr. B. C. Buckley (NRC)
Mr. G. F. Maxwell (NRC-SHNPP)
Mr. J.
P. O'Reilly (NRC-RIX)
Mr. Travis Payne (KUDZU)
Mr.'aniel F. Read (CHANGE/ELP)
Chapel Hill Public Library Wake County Public Library 83i2140i05 83i20b PDR ADOCK 05000400 E
PDR Mr. Wells Eddleman Dr. Phyllis Lotchin Mr. John D. Runkle Dr. Richard D. Wilson Mr. G. 0. Bright (ASLB)
Dr. J.
H. Carpenter (ASLB)
Mr. J. L. Kelley (ASLB) 411 Fayetteville Street
~ P. O. Box 1551
~ Raleigh, N. C. 27602
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Shearon Harris Nuclear Power Plant Draft SER Open Item 31 Supplemental Information The applicant has been requested to provide an evaluation of the conformance of the incore exit thermocouple and the subcooling instrumentation system with NUREG-0737, Appendix B, "Design and Qualification Criteria for Accident Monitoring Instrumentation."
Response
The applicant's previous submittal on the documentation required for NUREG-0737 Item II.F.2 provides a description of the inadequate core cooling instrunentation to be used at Shearon Harris.
In particular, the design utilizes a computer based processing system (ERFIS) for primary display of incore exit thermocouple and margin of subcooling data.
Although ERFIS is non-Class 1E, it receives qualified pressure and temperature signals through an accessible isolator, and is powered from a high reliability power source which is battery backed.
ERFIS computes margin of subcooling data which is displayed together'ith incore exit thermocouple temperature on the SPDS CRT located on the Main Control Board (MCB).
A qualified backup redundant display device is also located in the Control Room which will display qualified incore exit thermocouple temperatures.
Qualified RCS pressure information can also be obtained from the indicators on the MCB.
In accordance with the provisions of Regulatory Guide 1.97 Revision 3, this allows the operator to confirm displayed subcooling data, when used in conjunction with ASME Steam Tables.
An evaluation of the conformance of the above system with NUREG-0737 Appendix B is made as follows:
1)
The instrunentation will be environmentally qualified in accordance with
, Regulatory Guide 1.89 (NUREG-0588) as defined in the applicants submittal "of "Documentation required for Item II..F.2 of NUREG-0737," and Supplement 1 of NUREG-0737, (Regulatory Guide 1.97).
For the backup systems, qualification applies to the complete instrument channel from sensor to display.
For the primary ERFIS based
- system, qualification'pplies up to including the isolation devices.
The isolators are accessible for maintenance during accident conditions.
Seismic qualification of the above environmentally qualified systems also applies as defined in CP&L's submittal dated September 6,
1983 (LAP-83-405).
A copy of that submittal has been included for your convenience as an attachment to this letter.
The instrunent range for which it is qualified meets the range required as noted in the applicant's September 9 submittal of Regulatory Guide 1.97 Revision 3.
2)
No single failure within the above described instrumentation system will prevent the operator from being presented with information necessary to determine the safety status of the plant and to bring the plant to a safe and maintainable condition following an accident.
This can be accomplished since both RCS pressure and incore exit thermocouple instrumentation have redundant trains.
Additional diverse pressure and RCS loop temperature information is available to supplement the other instrumentation should redundant displays disagree.
Redundant channels are electrically independent, energized from station Class 1E power sources, and are physically separated in accordance with Regulatory Guide 1.75 up to and including any isolation device.
At least one channel can be displayed on a direct indicating or recording device.
The incore exit thermocouple and RCS wide range pressure instrumentation is energized from station Class 1E power sources.
Instrunentation channel availability willbe provided as specified in SHNPP Technical Specifications.
The guidance of Regulatory Guides 1.28, 1 ~ 30, 1.38, 1.58, 1.64, 1.74, 1.88, 1.123, 1.144, and 1.146 have been utilized as described in FSAR Section 1.8.
Consistent with NUREG-0737, Item II.F-2, Attachment 1, "Design and Qualification Criteria for Pressurized Water Reactor Incore Thermocouples,"
the incore exit thermocouple temperature data is displayed on demand for the primary ERFIS based display.
Either one of the qualified redundant backup displays (train A and train B) may be used for continuous indication also.
The back up displays are also utilized to provide continuous reactor vessel water level data on the opposite train.
(Either backup display can be used to display temperature as water level data.)
Additionally, ERFIS continuously records temperature data which can be stored or printed out on demand.
In accordance with Regulatory Guide 1.97, Revision 3, the margin of subcooling is available for primary display on demand.
As a backup, the wide range RCS pressure indicators provide the necessary information
- which, when used in conjunction with the incore exit thermocouple temperature data above, and ASME Steam Tables to determine the margin of subcooling.
Both the wide range RCS pressure indicators and the incore exit thermocouples span the necessary range to preclude the requirement of overlapping instruaentation.
ERFIS has the capability of monitoring 1500 inputs.
The list of specific parameters to be recorded has not been finalized, but as a minimum will include the parameters specified in our response to R.G. 1.97, Revision 3.
Transient or trending information is stored in redundant computer memory units and may be printed out on demand.
The time discrimination between events averages one millisecond; the maximum discrimination is two milliseconds.
The output of ERFIS can be displayed on control room CRTs or printers; a second CRT and printer is provided as a backup in the control room.
Data for each input is stored for 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />.
This data can be manually transferred to magnetic tape.
The power sources for the computer consists of non-Class lE AC power and a 30-minute battery power backup.
~
~
8)
Post Accident Monitoring instrunentation is easily identifiable by the use of color coded bezels etc.
9)
Isolation devices are utilized to ensure that Class lE instrumentation channels are not degraded by non-Class 1E channels.
10)
Means are available for checking channel operational availability during reactor operation.
11)
Servicing, testing, and-calibrating programs will be specified to ensure that the necessary level of qualification is maintained during plant operation.
12)
Removal of channels from service will be controlled by administrative procedures.
13)
Administrative control will determine access to calibration adjustment, and test, points.
14)
'Ihe monitoring instrumentation has included in its design consideration for minimizing situations that would be potentially confusing to the operator.
15)
To the extent practical, the instrunentation has been designed to facilitate the recognition, location, replacement, repair, or adjustment or malfunctioning components or modules.
16)
Monitoring instrumentation includes incore exit thermocouples which measure temperature immediately above the core, and RCS wide range pressure sensors which monitors RCS system pressure.
The margin of subcooling is primarily calculated by the ERFIS.
The backup method of calculating margin of subcooling is provided by utilizing the above 1E sensor information, lE displays on the MCB, in conjunction with ASME Steam Tables.
17)
%he above instrunentation will be utilized during normal operation thus assuring operator familiarity.
18)
Periodic testing of the instrunent channels will be in accordance with the applicable provisions of Regulatory Guide 1.118 as noted in SHNPP FSAR Section 1.8.
(8599PSAccc)
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~, ATTACHMENT SHEAR@,. 8ERIS NUCLEAR POWER PLANT COMPLIANCE 'lITH REGULATORY GUIDE 1.97 IRMODUCTION In order to enable plant operators to assess plant and environ conditions over their anticipated (bounding) ranges during accident situations, various instrumentation and information systems have been incorporated into the SHNPP design.
General Design Criterion (GDC) 13, GDC 19 and GDC 64 constitute the basis and framework for which this instrumentation has been orovided.
The ob]ectives of GDC 13, GDC 19, and GDC 64 have been satisfied as delineated-in FSAR Section 3.1.13, Section,3.1.19 and 3.1.'64.
Further information may also be found in FSAR Sections 5.2.5, 6.4, 7.3, 7.4, 7.5, 7.6 and 12.3.4.
DESIGN BASIS The guidance of Regulatory Guide 1.97 (Revision 3) has been implemented along with that of NUREG 0737 Supplement 1 Section 6.2 in establishing
,the guidelines for variables to. be monitored.
The line-up table titled "Implementation of Regulatory Guide 1.97 Rev.
3" addresses SHNPP -compliance
.~ these guidelines.,
The selection of variables and the basis for their
.sign is to provide information as follows:
~e A
Permit the control room operators to take specific pre-planned manually controlled actions for which no automatic control is provided and which may be required for safety systems to accomplish their functions during design basis events.
'Type, B Type C
Determine if the reactor trip and engineered safety features are performing their appropriate functions (safety functions being accomplishe'd).
Determine if there is potential for causing a breach or monitor a breach of the barriers to fission product releases.
Type D
Verify proper operation of safety systems and other systems important to safety.
Type E
Determine the magnitude of release of radioactive materials and to readily assess such releases to allow for appropriate action to be initiated as early as possible:for protection of the public.
The five classifications of variables for SHNPP is consistent with the regula-
" tory guide.
Instrumentation may be applicable to one or more types of variables as well as being used for normal power operation.
In addition, some instrumenta-
0 tion may be used for automatically initiating safety actions.
As such, the classi-fications are not mutually exclusive.
The determination of type A variables was based on an assessment of the general operating procedures and the Preliminary Emergency Operating Procedures (EOPs).
The EOPs are currently being developed.
As such, the selection of Type A variables
- are subject to change consistent with applicable revisions to the EOPs-.
If it is determined that the selection of Type A variables should be modified, CPGL will revise the line-up table.
The Type A variables include variables already identified as Type B, C, or D. It should be noted that the es'tablishment of a variable as Type A does not necessarily infer that a specific action will be required.
Besides specifically required manual actions, CPGL has given consideration to those variables which'ould alert the operators to the need to reactuate safety equipment even if the equipment was initially automatically actuated.
The Type B, C, D, and E variables noted in the lin~p-table-represents adequate instrumentation required to monitor variables during accident conditions.
Additional instrumentation may be utilized as warranted in order to confirm or deduce plant status.
For the time period following an accident, the same would apply.
Instrumentation which may be utilized when inspecting, repairing or cleaning up the plant, would actually be determined at that time and are clearly beyond the scope of this regulatory guide.
l "3)ESIGiV CRITERIA The design and qualification criteria for instrumentation are consistent with the three categories discussed in the regulatory guide.
In general, Category 1 instru-mentation meets the requirements for Class lE systems.
For Shearon Harris iluclear Power Plant, instrumentation which is cat+orized as Category 2 per the regulatory
- guide, may actually meet the requirements of Category 1 or may meet the intent of the regulatory guide as justified.
As noted in the line-up table, some instru-mentation meets alternate environmental classification.
These meet the intent of the regulatory guide since the associated systems are not required 'to operate after an accident.
It should be noted that even if an instrument channel were not fully qualified it does not necessarily equate to not being able to monitor the particular variable.
This is especially true of instrumentation located in a mild environment (e.g.,
RAB).
CPGL has used good engineering judgment in procuring instrumentation for its service environment.
In other instances, the intent of the regulatory guide is met through the use of diverse indication which would be qualified to high standards.
Certain instrumentation is in the process of being procured or upgraded.
Where information is currently unavailable (such as sensor tag numbers or ranges),
the line-up table will be modified later. It is anticipated that instrumentation will be implemented prior to commercial operation.
If it becomes apparent that such a schedule can not be met, then the NRC will be notified as to the revised implementation date.
The footnotes which are provided for the line-up table delineate the design criteria utilized as well as define the meaning of information shown.
Add-itional information regarding the footnotes and use of instrumentation may be found in the applicable FSAR section.
The Environmental Qualification Program is currently under way and will address the qualified variables noted in the line-up table. 'dditional information is presented in FSAR Section 3.11.
Seismic Qualification is further discussed in FSAR Section 3.10.
Redundancy is noted where applicable.
The sensor tag numbers also serve Xo note how many points are being monitored.
The RCS hot and cold leg tem-
-perature information provided meets the intent of single failure in that
.~ditional information is provided to allow the operator to deduce the
~tual temperature of the RCS.
The steam generator wide range level transmitters meet single failure criteria on a system basis.
The steam generator wide mange level transmitters are also supplemented by the qualified and redundant marrow range level transmitters.
A description of the power supplies for instrumentation is provided in FSAR-Section 8.3.1 and further discussed in FSAR Chapter 7.
The back up batteries are also discussed.
CP&L has implemented a qualification program in order to assure the availability and proper functioning of instrumentation.
Further information regarding the
'SHNPP QA Program may be found in FSAR Section 17.2
kMEAMON Nhktlg NUCIEAR FOMER FLAMT RECULATOMT GUIDE 97 FOOTllOTES Nocesl (I)
Torfsbl ~ Types (I.s. g, C, D, K) are Chose noted fn RC 1,97 (Rov. 3).
variables ere 1!aced fn the cone order ss they appose fs Table 3 oC RC 1.97 (Vv. 3) ~
IdenCIClere ore grouped by Cunecfon (e.g. rosetlvlcy controly core cooling, aofncslnfng reactor coolant systea fncegtlty)o (I)
Category (I, 2 or 3) noted I~ as defined fn RC 1.97 (4vo 3) ~
(3)
Tee lndlescee tbot SRMFF le ln cospllsnee vftb the Category and range requlrouence ot RC 1.97.
Intent ln4lesces that Sggtt seeCO tbs facont OC RC 1.97 as discussed fn chs roasrks eol)<<)o
[I) ~4I t a litt t)4 (I4t t t
~tt, t llttl4 tt ol tl )
RF Instruaoatsclonc SOCOSF rslace4 fnscrusontecfoa (up to end fncludfog electrical lsolocloa device, IC spylleoble) ls qusllfled fn eceordooee vltb RC 1,59 (Vv. 0) snd aechodofogy oC NUREC-0555 ss aote4 fn the SNMtt Environ<<seal qualification Report (FSAR Sectloa 3.11) ~
IREE 313-N hss boon utlllced except vbere lgtg 313-71 aoy be noce4.
Cables (sstoty related) are'qualified fs accordance vlth IEES SS3-74o Safety related fnscrwencstfoa located outside contsfnuent en4 aot sub)oct to DRA toiyperacuros or pressures sre qwlffled Cor tsdlstlos
~XPOS)lfeo L
Non-Ssfocy related fnstruaoncstfos qwllffed Cor service envfronaont Cor vhlch Instrument fs locoCsdo Ntgg lnstruaootstfosc A - Croup A donotoe lnstru<<station (sensor) vblch fs qualffled Cor harsh
~nvfronaoot end high rsdfatfon.
Inscru))oncscfoa (sensor) aeoCO the fotsnt of RC 1.59 (Rov. 0) end fe qualitied fn seeordonee vfch either Ittg 323 N aa docuaonte4 la TCCAF-S557 {tov. 1) or IKEK 313-71 as 4ocuuoncod fa NCAF-7410-t y TTCAF-7709-L end the Uoocfnghouoe 5upple
<<ncsf tnvfroouontoi Ctusllffcocfon Tesclng trogrsu.
Associated foscruuont csblee (ROF) srs qwlfffod fn accordance vltb IREE 313-74
~n4 IREE 353-74.
g Croup R qualtfleotlos aocbodology fs described in NCAF-55gy (4v. I)
UCAF 7410-Ko UCAt 7709-L eod che Usocfnghouoe Supple<<ntsl Environ aeacsl qusliftestfos Testing trogrsa Aosocls'ted lnsCrlluont cables (ROt) oro quollffs4 ln accordance vlCb 'LEER 313 74 Old IERR 353 ylo
'C C oup C donocee non safety related lnscruaontscfon vhleb ls designed coup for lta sorvfee envfrolvyonc (Nigh
$bQIfcy cooaorefel credo) ~
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(5) g@lo@ic IQI ff oc10$ 1 SOF InocrusenCOCfonl I
lnotruaeotstlon (up to en4 fneludfng electrical Isolation
- device, IC spplleobls) fs qualified fs sccordsoelt vlch IREE 3ll-75 end Regulatory Culde 1.100 (Rev I).
9 Kqufpaont ls designed to vlthscsnd sorvsf aeehsiilcsl vibration sxporfoncs4 ls ics location Ngtg Inotruaoncatlonl A or ~
N555 (Uestfnghouoe) fnecrwontstfon fe eotsaleslly quslfCfed fn aecordonee vlch IREE 3ll-75$ IREE Sll-71 an4 Regulatory Cufds I 100 ss delineated ls UCAF-5557 "Nochodology for $7wfffyfng Uestfnthowe FUE-SD supplied N555 Safety Vloced Electrical Equip<<nty" en4 UCAF-S557 S)q)PIO<<nt I Nhore llulcffreqwney biaxial fnpucs are eaployod for tescfog, Che aecbodology described fn T)CAF-5695y "Cenerel Icothod of Dsvelopfsg Ih)itlffequency Rlaxfsl Test laputa Cor gfetablee," fs eoployod; Vcordera (vhfch sre lndlestsd by ths tsg soabor) sre qualified to starets after ~ solssfc eveot.
Sslsale quollffcstlos
~sthodology fs delineated fs UCAF-5557 (soe ftea 5, abave)
~
C Comorfcsl grade fast()Qont fs designed Cer soracL vlbratlos OC location.
Ad4ltlonsl lnfocastlos regarding the obovp s*joct aoy bs found fn F5AR Seecfos l.~ (RC l.100) sn4 FEAR Ssctfos 3.10o t) lg fnstru<<station (up to sn4 including snv Isolation devise) fe sub(ect to che nuollcv assurance proarsa ls ~:cordonee vfch 10ctR50 Aspondfx R.
Tbe aufdonee OC che goculocory Cufdos lolgo lo30o I~ 35 ~ lolg ~'I~ 44 ~ lo'74y lolly lol13 ~ lolll I I4% are uctllxo4 os described fs ygig Section I.~ {as spsllesble) sn4 FEAR geccfoo 17.5.
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~4) I Instru<<station vesta single failure criteria.
Redundant or 4fversa channels are ~Ioctrfeally fodopondsnt snf physically aopsrste4 (up to and including eoy Isolation 4ev)ee) iron each ocher en4 Croyf equfpasnt not clsoslfle4 fvpxreont to
~sfety is accordance vfth Vgufstory Culde 1.75 (Mev I)~
NA -
Single failure erfterfa ls sot spplteoble.
(5) totter lg touered off tbo L) bus Non lg Nigh rellsbllfty otter source vbfeh aoy no'c necessarily be Scend-by touor.
Dt5
- Dnfnterrupcfble b~r Supply It) ~SI I
$ Coot
<<Contafoaonc Reactor Auxflfsr'uffdfng Ntg Noses tcoeesslog Sufldfng
'Tur'bfns gul14lng NET Neceoroiogy tocflftfes lly)
~OI I lt tl I NCR
- Nolo Control gtxyrd CR
- Control Roon Egtlg 4 Esorgoncy Reste tse tscflfclss laforaotlos Syetea
- Auxiliary ControL tsnel
'T50 4 Tsebnfeel Supol)tt Center yssce troesssfrg gul14fng RCR Tsrfsbls fs ce'srdod on cbe Vcordor tsnel (Control Roon)
Auxf]fortgqufCoonc tsnoL N]g Nuclear Isscru~cscfoa Syecea RNS Rsdfacfon Iforitorfng Systea Nocel Vbors s variable s recorded (indicated by the display eolua))o the recorders ere povored fros the aon-lg 075 distribution panel ~
Additional fnCoraatfos regarding esvfronaescaL quslfticatios asy ba foun4 ss F5AR Section 3.11.
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latest TE-413 I TK-423 I TL-4)) I I'lant speci(le DIOOoV Q
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Tea PT-440 I I'2-441 II Plant epcclllc 0 3000 pslS A
A q
s IE NON RCDR Kkylb ACI'T-440 snd PZ-ill are provldcd sap lkv(
14e RTLIS.
Diverse lhloravtloa rt 1S RCS pressure I~ aval labl ~ (roa FT s.
and tf-40) vblc4 are used for L)OP.
Core felt Teoperstvre I
Tes Tl to T25 224 to T51
~last speci llc D2)OOoF A
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KNFIS Cohtslsaeht Mater Level - Mlde RsnEe Nsrrov Rsnre(KCCS Suap)
I Tes I.T-)14)A LZ-1142S I
Tce LT-11404 L'1 111 VS Plant speci(le Pleht speci !le 0 to IS.5 lest 0 - 1002 K
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IK IE Coat Cont IIL'5 KREIS IILS KRFIS Re(er to ~.3.2 Coat n Ishen I NydroAc a Cv.nrrutratlon I
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(by vnlvae)
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Dent Fover location location Rcssrbe 4 ~).I RMSI lcv> I I
fca I.T-990 I LT-991 ll I.I-992 III I.T-993 IV LR.SSO plant speci lie O-IOOI S
IK RAR NCR NCOR KRFIS 4.3.2 tressvrlccr Level I
Ies LI-459 I LT-460 II LI 461 III tlant speclfle 0-10OI A
S IK Cont OCR RLDR LRFIS ACI'.
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Level (asrrov csnde)
Icn LI-4)),4,5,6 I tlsnt sPecl lie 0-)OUI LT 48) ~ 4 ~ 5>d ll L'I 49) ~ 4 ~ 5>6 111 Coat IICS RFDR
'ERFIS
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Ice FT 4'l4 ~ 5>6 I plant epcclf IC 0-1)00 pstR FI 4C4 ~ 5>6 ll FI-494>5>d Ill IICS RCI'R KtiIS ACF
.5.1 Ancillary Fccdvstct Flov I
Ice FI-2050 A FT 2050
'R ff-2050 C I'lant steel(le 0 266 K-Ib/hr K
oa ecch AW line IK ILS Rcdnadsacy ls provided oa ~ aystea baal ~
KRFIS Dlvcrelty ls trovl4cd by tbe stean Kcncrnt ~
ACI'evel ~ (Iten A.d.l)~
~ 5 2 CSI level I
Ics I.T 9010 A LI-9010 ~
Flsat speci(le 0 IOOI IE IICS KRI IS ACI'.1 tnntslaarnt Stray I
Tes LT-)150 SA Fleet speal /IC 0-1002 Addltlvc Tanb Level ll-)Idb 5$
IK tlCR fRI IS
ble(l)
())
(1)
SRNI'P Sensor Tsg I(lee Ysclsble Dcsert t Ion ClT Cos lire Nosher Rrqulre4 ksa e
.Eel sting
" Rss)e (1)
(T) llu)
(l)
(S)
(6)
Rcdus (0)
Seasor Dlspicy E
Sales lc Ds st Poser tocstloa tocsc loll Rrslrbs Neutron flue Nl )I~ snd )2g Nl-)Sl snd )I~
NI llg, l2R, i)k tlg IU 4 to IUUE full paver I Io lu CPS (Source)
IU II to Iu 2
Asps (latrrsc4) 0-l201 (Accrete Fovcr)
IK Con I Cont IItg (NIS)
ERI IS Is:k (NIS)
IRI IS NLR (NIS)
ENI IS Diverse lnfsisstloa ls pcovlded by Ibr fogloulsgt I)
Conceal Rud Poeltloa Indfcsl los II) garou Cosccntrstloa vis PASS III) Core Kelt lhrrascouple Nosltorlag (14I ~ vsclsble ls ~till under lavretlgstlos Control Rod poeltlsn Tes RI'I Full la or sot full la 0 to 1)0 Steps Noa IK Coat Alp-I Rod Pnsltloa-fully lseertc4 snd/or fully lkFIS
'ltlulrsvn ludlcstrd on ERI'IS 1
RCS Solul I~ Norns 1
Intent Cosrcntrsc ton 0-6000 pcs 0 to $000 pps C
NA Nvs-lt, RAS IN:g ERI IS Olreree Inforsstfoa ssy be obteli~ I4 PASS (Refer to K.4.I.)) el ~ greb
~
.es (44 caelyefs)
~
present boron art~
ls edrqvetr fur eatlcfpstcd range ts hIO II kCS Cold teg Vster
)
Tes ig ilu It Tcsperature
'IK-l)U-II sur Io htuIP 0- yuu A
) A IK Coat Ntk khok ERFIS AI,I'his variable I~ sddrr ~ ecd by ltcs ~.2.1.
I RCS Ibt trg Nster I
Intent TK-ll) I Trsprrsture 1K-61) I 1E 6)) I SOF Co )OOF o - Iuuf IF.
Cdnt Hcs RIS>k ERflS ACP TI.'ll ts svt dlsplsyr4 coat lauously, luecrs4 ~ It ls
~ est tsbc ~ sn srsssd thos thc fkFIS cosruccr.
Diverse lsforsstloa Is provided by the csee eall theravcovples.
Sce ters C.I,I, 2
RCS Cold trg Vstrr I
lucrst TK llo II Trspcrsturr TE l20 II IK-l)0 II SOF Co IOOF o - 200/I IK Coat NCS RCDR ERI'IS ACP 1K-l)U le aot displayed continuously.
Inst It le svsllsble on drssa4 (ron t4O lkflg coaputcr.
Diverse Inforsstlon I ~ obt ~ lae4 by che stean Ilae pressure.
RLS Pressure I
vrs I'I hhu rr-lht II 0-)UIN PS IC 0 )UUU pslg IK Nt>
INIIS ACI'T-ito snd P1-ill are provided ss part of I NTI.IS~
Diverse Infnrsst ton reksr4lng Rrg tressure Ia pruvldrd by PT lu2 ssd rv-hu) uhlrh sre nerd fnr I.T(IP.
Core Felt Teaperscure
)
Tcs Tl to 12$
126 Io 15I 2INF'F to 2>INIOF 2OUOF to 2)UOOF Cont IR I NI IS Ih rcs Cstrrory I rtqul reseat ~ rcr C I ~
Variable(l )
())
stanrt.
Ident ilier Vari ~blc Utter tpt ton CAI Conf<Iles Stnvoc Zsg Nwber Rttvtrtd Ra~sr Iclstlng Rln)e (1)
(9)
(IO)
(4)
(5)
(fi)
Rrdun-(g)
Srseor Display
~E Stloulc Dont rover Locstlou lnrat lon Fs asrks 1.2.$.
I'oolsat lavtstory I
Zes 1.1-1)12 LI 1)22
~of tna of Itot Ltg tu top of Vessel
~ottoo to top of Vessel S
a IK RAR CR Coolant Inventory I~ by ttlt Reactor fess<'I LLIIS lovel Instrwcntat loli Syatra (RVLIS),
9 2.6 Degree of Subcoolfng 2
Tt0 Sce gcaarka 20ty'f
~ Subc oo I Ing to )$4f Su pc rhts I 2004F subcoollsg to )54f Superheat IE See Rcaerk fgflg Degree of subcoollng vill be coapute4 by tt LRFIS ronputcr util ltlag the core call Irnpersture (Itea 9.2.4) oad RCS presavre (Iten ~,2,)),
Dcgctt of cubcoollog can ali bt dcteralaed by vtllIcing tht safety grot.
RCS Fresevre sn4 'ftnperature la cos)wctf<v vlth Stean Tables.
4.) ~I RCS I'ressurc I
Iee FT 440 Ff-441 0 to )000 PSIC 0-)OOO PSIC A
Q IC RAS NCR RLDR I.RFIS ACI'efer to ~.2.).
g.).2 Cont ~ Innent Susp Usttr Lcvcl 2
Ies 2
Ies I
Ies LC-llfiOAand D
LE 11616 snd g
LC ll62A asd S
Nor ron Range (Swp)
Nscrov gangs (Siinp)
Uldc rsage (Flenl epeclflc) 0 IOOI (LCCS Suap) 0 4 fret (Cecity Swp) 0-19.$ feet (Olde Range)
C I
Q S
C I
Q S
K I
Q S
IK IK IK Coat Cont LRFIS Ntg LRFIS 0-1001 for Nsrrov Range Corresponds tu 0-60 turtles
~.).)
Cont ~least pressure I
Tes FT 950 I 0 to 0-5$ FSIC PI-951 II Dcslfn FI 952 Ill lrtsaurc rf-95) lv S
S IE WS Design Frcssvre ls 4$ pslg RIDE Eaf tg 1,4,1 Contalnnc4t Isol ~tllvl I Tco Valve Fosltlon (eaclvdlng check valves)
See reseat ~.
Closed not Clnsed Not Closed Not Open C
I Q
S Valve Ll~ II Svl tcli lk.g Zaire Tog Nuubers sre sliova oa FSAR AI.F lsblc 6.2.4-1 f.trig Coats lnaeat prcssure I
lcs FT )Ibt<A FI llbOS 5 I'Slt tn Design I'recants
-5 to l)$
FS I0 I
Q S
IC IICR ERFIS Itis vide range trsnsaltttrs
~ te noted la ni to sonltor prtssures belov cero pslg.
Dlv<
Inforastlon ls nott4 by Iten ~.).) vhlch covers I osltlve pressures beyond~ISO.
Addlt lonal lnfaraatlua can bc oV )I frau tnntalnntnt Varnun tello( Instra.
I<a I thc rouge 5 to +5 I~chtv of vsttr fDI ysgtIASA< IOI 16CORSR.
".I.l Cert Ealt Zeuprrature I
Ies 11 to T25 200 I to Tlh to ISI 2)acr'f IWOF to 2)OO f A
A S
j
Cartable(l)
~~fIden<Icier veri ~IIIC Otocrl alon
())
(1)
S<<NFF Sensor Tcg CAT Con I lee Nosher Rtculrcd Rll~n ~
(I)
(3)
( I0)
Kc le tlag (4)
(S)
(4)
Redua (S)
Scseoc 0<Op!or Sel cslc Oe st I'over Eoc ~alon late<Ion keaerho C.!.2 RC4<oscttvlty Coacestretloa or Redlat lan Ic'cel la clrcalatlng prlaery ceo!sac I
Intent Scc cent<ho I/2 Tech Spec Sce etna<ho C
C Stt Ccoacha See Resorts tn lla< t I~ It<0 I late tech spec llslt Surtog oper ~tlooI ahe Cree ~ Failed roti I<elector vill br utlllced ~
Thl ~ Ortector
~oaltore dry ye4 seutroa prccureoro, lbe Nrttccor I'aol ~ tcd upas recclpt ot ~
T
- Slgasl, II the Octector I'ot svsllabl ~,
~
greb esupleo aey be tetra vs the FASS foc I Aaalyel ~.
Stc lars C.I.) htlov.
C. I ~ )
Analysts ot Ftlsery 3
Tce Ste rraorhe, Coolest (Cawo arectrua)
IO) Ct/OI ao IO CI/al (oc TIN ltgae
~outre I~ r~ Is coolant volant)
See tenach'
L V
NA
~
RAR FASS ae7 b\\ uetd lo oht ~ I~
greb eeorlee ot tbe prlsary coolest tor I~ b onoly ~ I ~
C,1 I RCS Fracture I
Tea FT 440 Ft 44l 0
)000 FSIC 0
3000 FSIC A
IC Na Str Ites S,2 ~),
IRFIS ACI' IOR
~
'.2,2 Contnlnsrna Freeeurr I
Tte I'-7l404
~I-I)cog
-5 rSIC ao 0 elks
-5 Co l)5 rSIC Frteeure IC Na I.RFIS Refer ao
~.4.2 C.2.)
Contslaoeat Soap a<catt level Tee Tcs I
Tee EC yleOA snd
~
IC-)Ielg en4 S
ag-)le2A aad R
Norrov 4nge Top to botcos (Soap)
Nerrov longe Top au hot ton (Suer) t<lde kenge (plant erect(le) 0 ICOS (ECCS Suap) 0 4 tact (Cavity Cusp) 0 IS.S tcct (Olde Cenge)
Q S
Q S
Q 5
IC IC Cost Coat
<<a FAFIS IR FIR Ekflg NCR kttcr to S.3.2 C.2.4 Costa lnarat Arts 3
Tea RI<<-3)el-ASA I ta IO R/<<r
.Ol to IO k/hr C
Red let los Rt)< )5el RSR Rfll )54l CSA k<3<-354I.OS ~
Q S
IC Cont IRFIS Three soaltors are
~ lee need to Inlllatt contalasent laolat ton.
C.2.5 Ettlucst ke4loect lvlty 3 Noble Aee
~ttluent tron Condrncrr Alr rtaovel tchco ~t Inteat Rat< ITV )534 RI<t-1IV-)534 IO etCI/cc co IO 2 OCI/cr I0 encl/CC L
aa SilO CCI/cc NA IK RAR tR IJI IS CIfrr to C.).1.4 C.).l RCS trtceurc I
Tca FT 440 ry-44l 0 tn 3000 ISIC 0 - 3000 rslc IC Na,g Sre R.t ~ I kat<A ERI IS Acr
Var labl ~(I)
(3)
~t~~
(2)
SIRIFP Srosor Ted IJentltler Vsrlsble D>sert tlon CAT Co~elias N>ebrr Rrtulre4 Rand p Eslstlud kao e (4)
(5)
C Selsolc (1)
(4)
Redw (R) 4 Dent I'over (9)
Sensor Iocatlon
( I0) nlaplay Iorstloo Rrasrbs C,),2 Coat ~ Ioaeat Nydrodea Coaccntrstloa I
Tcs ISP-14)d SA ISI'"14)d Sb 0 lo IOC (Csl>able ot nperstlnd froa
-SFSIC to ass.
Jes Idu pressure) 0 to IOT
{by volsue)
IK tR The hydroten esalyser I ~ cstsblo ot ooaltu>
(ravelole) lroa -5 FSII to 4eelda pressure.
Refer tu FRF IS fSAR Sec I Ion 4.2.S.
Rtnk C.).3 Coot ~ Inacnt prrssvre I
Tcs PT ll404 I'1-)Ibud
-5 FSIC to 3 tlaea C
I Q
S decldn pressure
-5 to l)$
for concttle PS I0 IK Coat IICR KRI IS C,).4 Costalnaent Ktflvcst 2
kadlosctlvlty Nobl ~
Case ~ tron Ideatltle4 tclrase polar'ea
~ 1st IAv )S09sA IU pct/cc 0 a Ind r CI/cc E
I S
to to In-> 1 Cl/cc d s IUS pCI/cc IC IAFIS RNS This vsrlsbl ~ ls addressed by aonltors not>.
~t Iten C.).l.5.
Retul ~tory Colds I.91 (Rrv )) Table 3 footaot ~ IO ~lieu~sr cooblnstloa of ~tresss prior to 1 Qe.
C.).5 Cttluent 2
Tes
~Fll-IAV-)$09SA IO-h I Cl/cc dcl 0 K pCI/cc C
I Q
S kadlosctlvlty to to Noble Cases I0 r CI/cc Sslnd pCI/cc
{I'enettstlon, ltstchee)
IC IX tklIS Also refer to ltea C.).I.S.
O.l.l Rtik Systeo Flee 2
Tcs
~ tater 0 to IIOL Destpa Flov tater NR Noa IK RAS UPS NCS keck-up Inforsstlna ls provlJed by pwp not KRFIS estreat and valve st ~tw, lhe reaRe vllI ACI' ert or rscee4 0-llnl ot 4eslsa flov.
D.l,l RRR Ikst Fschsnter 2
Tre 4ter Outlet teaperstvre 40 F to )SOOF 4ter.
Q NR Nos IK kAR UFS IN:S RtDR CRF IS Rnrkwp lodlcat los I~ provided by CISr teaperstvre cult lad the kestdwl heat kea.v Nest Kschanrers.
The rants vill sect or esceed 40 to F
1$UF.
D.l,l~
Accusal ~tort 2
Inteat
~
LT-920,922>924 Tank level LT-924,928.9)0 lh Task Pressure Intent FT Vll,9l),92$
I'T 911,919,9)l IUL to 902 volwe 0 - 1$0 PSII:
0 IOUT 0- SOO FSIO C
C S
C C
S Non IK IIFS Non IK UFS Coat IICR LRI IS IN:~
RRI IS tank Level snd Frcssure sre ooaltore4 by Ic>holcal Spccltlrat lose durlad aoroal oprrst Ion.
Safety Grads lsolat los Valve lodlcat too ls provl4ed.
Slace tl>r Systeo I
- passive, lever to valve.ls locked out at the Clrcult Rresker.
1her> tore ao Iouedtn>
Operator act lon I~ sntlclpsted.
Tank
~tat ~
rsn be Interred froa the RCS Pre~a.
D.l 2 Accuuvlstor Isol ~lion Valve posit I > n 2
Teu Rd>S>4 CI ~ s>'4 dtnbo
~>r
- pouts, nrvn Not Clos> 4 IL>t t>len K
I IK Coat IN'R LRI IS pasltlnn svlrrl> ln provided tor vslv>
0.2,)
Roric Acid 2
Tes Lstcr Chsrktnk Flov 0 to IIOZ Den lkn F Iov later
'srlsblc(l)
())
~1Le (2) slrcrl'encucr
'lsk kr9ulred Eelstlnt
~deutlllrr Variable Desert lion CA'T Co~allen Nuaber ksccSe Ran c
Durlsk tice la)set los phase (ofter terript
~
sn S
~ltnsl) ~ Itea D,2.4 Ilov 'Irsncalttrr acy be vsed to aoaltor Soroa la)ertloa Fluv Vlcc Rsccke util acct or esceed 0 to IIOZ nl Deslkn F)cw.
c I Pl I
e cc P
p NR Noa IE UFS HCR LRFIS (I)
(9)
( Ill)
(4)
(S)
(4)
Redun-(S)
Sc nsor Display PC Dent lover Local los IPPrst toa keasrko 0,2.4 Flew la Npl Systca 2
Trs Cater 0 I IOZ tcrslka Flew later NR Noa IE kAR UFS LRI IS Nrl I ~ by cherklnE Fuap.
Vlcc tsnEs vill eeet snd/or c srerd 0, lo IIUZ ol Drslka Flew J,2.5 Flew la LPI Systes 2
Tre Later 0 to IIIPZ Iaier Deelka Ilov q
NR Non IE SAR tll'S Nc'R EIIIIS Lpl I ~ by RRR systca.
Refer to Iten D.l.l.
0.2.4 kefuellnk Deter 2
Ves Starets Tacit Level LT/LI 990 I Top IT/Ll 99l Il Sottoa LT/I.I-992 III LT/I.I/99) IV 0
IOOZ IE Ntk RCIJR ERFIS D. ). I Rcector Coolest Trs Fusp St ~ tus KI-Ul60 LI.UIAI EI Olbl 0
SNJ 0 SOU Asyo Au ps V
Ne Non-lk.
SUCk AUR SUS IN:S FSF IS I.
c p D 1.2 Frlasry Syetca s) Safety 6 h)
Relief'alve posltlono, or Flov throukh, or Fracture ln Relief Volvo Llnca 2
Teu (s)
SUIOA SUIOR SUIOC (4)
FCV 44SA FCV 4459 FCV-444k Closed Not Closed Cloerd Nnt Closed Not Closed Not Urea Not Clnsed Not Open q
s S
lt Nsn )E tRF IS NCR Fcc ~It Inn svltch I ~ provided for vslrr shccvc Rsckccp lndlretlon ls prnrlded lcy tenprrstc<<c*"
~nnltoto dovnstresa of the valves.
0.).)
Frcssvr leer Carel I
Tcs I.T-AS') I LT-44U II IT 46I III Top 0 IOOZ to Rottoa q
s NCS ERF IS ACP cr D.),4 Frrssurltc r Nester Statue 2
lntcat El (J444 Llcctrlr U 400 Current Anp NA Non IE FUR tips 'IsT Ills CT Nl ~
Instr<<oratorios ls located la a slid
~ avlt ksrtvp ladlrstlna ls prnvldrd by prcssccrlr clrrcclt breaker ststus la csntrqNaktw.
d 0 ).5 qucnrh lank ter el 9
Tcs LT 4/U lop Ice Rot ton I'rcssurlrrr Tsuk 0-IOOZ C
NA Noa-It Cont lcrS NCR LRFIS AC I'
YJ ~ table(l )
(3)
Iyp /
(2)
SUN I'P ldtatlgler Tsrlsbl ~ Deacrgptlon IAT Cns) II~ a Sc>iv>>>t Tsy, bunker Required RJ>>>>dc Eclstlilk kanf,c (1)
(4)
(5)
(4)
Rrdu>>i (0) 0 (9)
St acne loca> Inn (101 i>IlI' s 1 location ktac Iks t)>>>>tach Tank Traprralurt
)
I>>>>tent 1E-4)l 50"F to 150 I'0-2$0'F C
C NA Nua IE Vl'S Coat lk:b AI,F FRF IS Since Fkf D>>alga I'resaurt I ~
IOO pslk (R>> ler In Iles D.).1) ilia Su>lure l>lac la Jt Jpproclsalely hd-IW pulk, Tact
)1).k'I Jl ltu> gnlk
~
sst
- u. ),1 t)>ra> Taiik Frrasiirr tet Fg 41)
U lo nrc lhn I ~ cl sure 0 IUU PS IC NA Nnu-ll, Coul VI'S I>cb 1.> F Ikl'IS kul I>>i>e l>lnr scc to bluv prior tu Ibu pvtl,.
0.4.2 Sttaa Centralnr I'erasure 2
Tes I'1 414 AS,b I FT 464',d II Fl 494 AS,d lll Ftos ~ tnas.
I'rrssure lo
'u>>Z above Icwc~ I valve
$ >> clink D.d. I Stean Ccaetstot I
latent LT 411 I I'c>>>>n Tube level I.1 451 II
$h>> el la I.1-491 III S>> g>>acsloca 0 IWZ (Vide rang ~ )
0 l)00 F$ 10 (Stesall@e pteaau>e)
IL IE Coat IN ~
IRI IS A>T Nrk Alr k>1>R IRFIS 1lieur vldr t<<i?r ttasasl tltr~ ncy be svpplrnented by ilia tcd>>u>dsut
~Jrrov raaLc ltasaslttct ~ ou earl>>
alta Stscraloc Stc Ilta A 4 I c
In Jddltloa, dlverslly I~
prvvlded by ust ol stean line presaute Jnd Jvslllsty fctdvcltc Stran lint pctnture Is seacvred laattsd og atran krnerator pressure.
I';-
0.4.3 a)
$.>gtty/b) Relief calve Fonll!Oas or Ik>tn Stean fIov 2
Tcc a) )NS Rl thrii RIS Closed I) FCF-30$ 4 FCY 10kb Llustd FCT )OSC a)4b)
Nol Closed Vol Open
~
4 h I)
Poult Ion svllrh 'ln provided for valve
~Ivan D.4.4 I>J Ia fee dva Iet flov 3
Tes11-414,)
Il 444,)
f'I 494,1 U-IIUZ nea ISa I'Iiw 0-5 all!los lb/hr
~
for ecch l>IV I lae IE IX.S 1'.>l ~ taa4e covers 0 l201 os each aal ~
LklIS lrrdvater llov lint.
t D. 5.1 Aiiclllaryor Est>St>>>cy frrdvctct glov 2
Tcs fg )DSUA IT ZUS>>k Il-20500 0 lo IWZ Dtc lrn I l>>w 0 24S,OVO Ib/hr E
on cacli AID llue IE RAS Nrb ALF FRFIS Tlil~ rankc cnvrrs 0-I)OZ na ea<h Juxlllaty lrc>>lvatrr llov line.
~ >>
D.$.2 Cniidensa>e Storakr leuk Vsltr Level I
Tes I.1 9ntt>A 1.1 9ulnh Flaiit Sl >> r II lc
>I S
lb.S Act'RFIS I'i<<les>>J>r t.iil level vill be r ~ rv> Itd I y Ikl'IS (4>>u>>I>>>ter )l.ir lnl >>>> nat I>> u.
y.
D,d. I Cont JI>>>ocul Spray flin>
2 Tes I.1 1l))A I.l-)I2)lt
>> I IOZ Dculrn I li>>v I '>>le'r
>)
NA RAR ERFIS lransalttrra vill le purchased I ~ vert tlic trh Auld>> rruul resents e,
41
?
a
'c O
srl Able(I)
OE>>
.Irac lllcr
.6.2 Neet trsornl by tuat ~lsarnt fsn lccst Rruorsl Syetcu 2
Tro (3)
(2) scscrr bl ~ n In~le I
Sensor TOR Nunber Alt I Alc 2 Alt )
Alc-4 RMlvlrrd Roa r Eolstlne RAA e rlsat Spcclllc Oa/OII Ronnlne St ~ tuo (1)
(5)
( I0)
(6)
(5)
(4)
Rcdua (S)
Sensor Dluploy E
S@l jalc Ds st puvcr lurstlua I>>cot Ion FRFIS Rcs>>cks Dlrcrelty Ior Aonltorlns operotloa I ~ pcorldcd by use ul tbe coal ~ Isocnt tcupcrslure ladled toro, Sec Itra D.d.).
.4,)
Coatalnncnt Atanepbrto Tcurctntvrc 2
Ice IK 1562 Ar~ OC 60of IL-)SII A.S,C to COIPF K
I S
le Cont NLR LttfIS 6 4 Cont ~ Iancnt 2
Teo Tl )l)IA
$0 F Soap Vetrr II-1l) IR co Trot>>rsturr 2$0sf SOF - 250 K
.),I I4keup flov ln latest FT-Ild 0 IDOE Denlen flov 0-l60 CCIC Noa IK SAR RCDR ELFIS Ibis syetca rsrlobl ~ lo not plsnt obucdovn.
Ibe eystea pleat protectloa
~ ISAOI ~,
cctolccu ~c I~ lsolst dc, l>>tdovn Flov ouc 2
latrnt FT ISO 0 lo IIOI Drnlen flov 0 200 CBI Noa IK RAR VFS NCR LRFIS
~sate covers 0 to !25'I, Ibl~ eystcs csrlsble I~ aot rctutred Ior soir plant obutdova.
11>> eyotca I~ lsoloccd on picot pcoteccloa oltnol ~.
l4olsu~ Lct dovn llvv I~ l20 Spa
.1 ~ )
Toluuc Cnatrol Incest LT-II5 Tank Lrrel Top ta
~ot lon O-IDOE Noa IK RAR OFS IILR
'lhl~ eyetra rstlcble le aot rctulred lor eo4 ERI IS pleat sbutdovs.
14e Syetca I~ lool~ ced oa Acr floAt protcctloa oltaol ~
I
~,S,l Cosponeat Cool lac Vster Tcnprrnturr ta FSF Syecra Tee
'K-6N IL C)5 COOF tu 2(NIPI S
4 0
IE RAR IICR Rl'DR ERFIS Ie 6N sad IE-615 Indicate tcupcrsture out uc the CCV Nest Kocbooscts, Ibe Teupersture ul CN lato thc Vest Eochonscre I'adlcnced by IK 6)l end TK d)2.
.Ic.)
rusronrnt CoollAS VACCC fluv to LSF SIACOA latent II 6$ 2 f1-45) 0 IIUZ Iu' ISA Flnv 0-I)000 CIN Noa IK RAR IN.~
Rchn ERFIS FI-644 ead fy-445 lsdlcste CN llov to l4O Rlln Cvst Lorbsserro ladlcstloa aoy 4>> ~ Iou Inlcrrcd Iron FT-dtt snd ry.d50.
.S. I Icccca Level 3
- Irs, LT 600I Inr Rcdlosrt lee Llquld (Vsote Icsldup TAAC) In Isn'I Lrvcl I.T dlccl Rnt Con (II. Drsla Tost) 0 lc'OlI 0 lcncI Noa IL Nua IL VC'R 0 I'R vrs-cs KREIS RclS VC' C IC ref IS dii)
Varlabl ~(I)
(5)
~XI (2)
Slatpp Seusnr Tsc 1drntlf ter Vsrlsbl ~ Or~sert tlon FAT Cuu l tea Nuaber Srqv IreJ 4sSr Ke let lof 4njo (I)
(4)
( 5)
(4)
Scdun-(4)
Selsatc A
Dent paver (9)
Scaeoc Location (I0)
Ul~Ilsy local Ion Rrnsrb ~
D.9.2 Kadlosct lee Tca FT-IO)b tu Cas Iloldvp FT-IOIV Tash Fracture FT-IQSE to FI IO55 U
IIVX Ocul'ressute O-l50 FSIC C
0 ISU FSII' Vsa IC Don IK VFS VIS ID KAFIS VI'4 AIet OPSIA AFIS O.IO.I ynerScacy Vent IIet Inn Duapec Fosltlon 2
Tcs I's r Ious Open Closed Status Vnt VI<a Hot Closed IK Valet ll~ It Sv It ch IICS D II,XX Statue of Standby Fever 4 Other tnrr47 Sources laportent to Solely (electtlc hydraulic, pneuastlc)
Trs See Variables LI~ ted Sclov D.ll ~ I 4.9 LV ISIKS bUS 2
Tcs El 4954AI aad Sl Float epeclllc 0.900uy Volt IE Svfc Fal IICD ELI IS O.II.2 Diesel 4'enerator 2 Tce, Kl b9554 aad 4
plant spcclflc 0 9000 Volt IC ICS KbyIS O.ll. 9 Diesel Crnerator 2
Tca Cl 495th aad 4
plant crest(le 0 ISOV ylcld Volt IE DC Coat Fal IICS D.l 1,4 D.I', Ftrld cuttrnt 2
Tce Cl 49504 and
~
plant speci( lc 0 SNI aup K
IC DC Coat Fnl III.S D II 5 O.C. Keactlre rover 2
Tes r
Cl 495SA and 4 Float spcclllc e IO IIVAA C
IK DC Cont Ful III4 D,l I 4 O.C paver 2
Tes
. El-I95IA and
~
plant speci (le 0-4 ISI OC Coul Fat O,tt I O.C. current r
Tes Kl 6951A saJ 4
Float etwctflr 0 son Aop f
IL DC lost Fnl IICS D.II.S Lttl Carcrnt 2
Trs I.I 494)A aad
~
I'last speclllc e AOU Asp IL Sectary pal IICII AI'I'
srleblc(l) 7~L (2) slscrp I
Ill I
Srueof Tsg Vusbrr Rrqulred kill e Cul ~t lag Res (I)
(9)
(IU)
(I)
(6)
Rcdus (S)
Srasuf Ulapl ~ 7 C
Scleslc Os st puvcr 4cst ton Iivst Ion kcuscta
~ l),9 Sett Volt~
1
'Tce RI-696)A sad
~
Fiant spcclllc DISOV 0
s IL
~st lrry IICR Pen r I ACF ll.lO IISIV VyJrsvllc 2
Tre
~
)IIS VISAS I plant slvcl (le SO.ISO pell Accusulatoccreance 2)IS V25AS-I
)IIS V)SAR I I
S IK VA IIA c-c,ll II IVIVVydrsullr 1
Accusal ~ toe prcssure Trs 2IV-VISSAS I 2IV V26SAR.I 2IV-VISTAS I plant speclflc 4tcr C
I n
S IK SA IIA c
I ~ I Coats learnt I
Tcs RN )SRV SA I atk Ares ksdlstloa ttll )$90 SS to Sigh Rsclgc RIII 3$ 6) ASA IU k/Ick Tcs RN-3563 RSR 4tcr Inter I
q S
IK CS Ck CRF IS RIIS Addltloasl sonltors vill bc purcb for uee Inside rontslaarnt Rra oat Ice err for tOST lOCA sonltorlng.
Kn
)sngcs
~re Table l2.).t-l.
anted la FSAR cs I2.).6 I S.), I Rsdlat Ion Kspoeure kate (Inside bldge or Acres vhrce access I'equired to service cqulp. Isportsnt Io
~s(CIF 2
Tes Rftt Ilk )$ 91 RN-Ikk )59S RIII Ikk )519 ~
Rflt-IRR 1$ '990 kttl lkl 3600 kill IIR 360)
RN IRR )601 RIII IRR )60)
RN-2RR )606 IO-I R/RR to I06 R/nl RN-lkk )606A RCII lkk )606k Sce Reaerb L
V RA Hoa IK kAS 6
F.RFIS Prig tsrrgy ranges are noted In TSAR Table
)2.).6 I K ~ ) ~ I I Coclt ~ Ifluent or 2
Forge Klfluc,t IO 6 pCI/cc to IUS cICI/cc 0 tu IIUK Vest Ocelgn llov Vot Alpllcsble ~ lace elflucst discharges through cosnon plant vent, K.).I.2 Rcsctnr Shield Sldg Annulus III 6 CCI/cc In IU pCI/rr U to IIU't Vc'st Icc ~ Isa Ilvv kot Applicable.
~
'.).l.)
Alcclllsfy Rldg (Including any bldg)
Csulalnlsg pflnscy Syetrs gssre, c.g.
's
~Ic gse drest'snb) lu IO CI/cc to tell pCI/CC 0 Io IIUK Vent Icralgn IIcw kot Appl lest lc nlncr sfllvcat dl, Itlruugh coaaon rivet vest F
l P,
~
h.
~
n or o
Vsrlsbl ~(I)
~1~
Ident tfIer E.).1.4 Cond tn et f Alr Rrhovsl Systtn Ertosust Tes RE ITV )5)4
())
(2)
SINrp Sensor Tek Variable Desert lion CAT Cunpl les Huabtr klhtulrcd Rssf a I0
<<CI/cc Io l05 <<CI/tC 0 tu IIUS Vent Dcslkn Iluv 4ter NA Hoa IE Tnb tk Huolllof VIII bt purcthcec4 to attt ERFIS requlreatnt
~.
(I)
(9)
( ID)
Eclat IIlk (4)
(5)
(4)
Rtdun (S)
Sensor Display "I
o 4
Dent rover location Iocatlou Rcaarko or E.3.1.5 Conoon plant Vent or Iblltlfurpuee Vent Dlschsrklak an7 (If above ftltseea I~ Included) 2 Tcs Rlyt IAV 3509SA IO d <<CI/cc Io IO pCI/cc 0
IIOE Vest Deslka Iluv 4ter E
I S
IE EEI IS K.).lod Vent (ron ~ tean
- 1 Ctatrstot Ssftl7 Re!le( valves or Atn, Duup Valves Y
I 2
Yes RE-)59I RE-3592 RL-)59)
-I Ilt ILI/cc to IO) pCI/cc (Durst lon of rtlesseo la eec, 4
alee ol often pcr unit clue 4ttr I
q s
All otloer Ideal!I le4 2
Yes RIII IVV 3544 release point ~
kEH IVV )547 IO 4 I Cl/cc to IUI pCI/cc 0 to IIUt veut 4eelka flov later E
) I IE tk Hoaltor vill bl pvrclosec4 to neet IRIIS rtqulreseata.
,I C.).2 perl Ical ~ tca snd ltllngtns TC ~
kttl-ITV )509 SA RIH-2)V )509 SA RIII IVV )544 RIII-IVV-)54)
IO ) HCI/CC to IUI uCI/c>>
0 lo IIUY Tent Drslks Ilou tater Hon IE'".
Host tot vill be purclossed to'nett re 9v Ircaen ts.
E,t,l r
E.4,2 Alrborae kssdlo-ltllottns nnd patt lrul~ tts (portable eaapllnk vlth oloslte analyst ~
cspsbftlty Pleat 4 cavlrono ksdlst lou (I'ortable Instrloutnt ~Ilon)
Tta 3
Yes IU 9 <<CI/cc top Iu ) <<CI.CC IU ) R/Vr to IU R/hk, Ihotons IU ) R/UR tn IU R/HR lets reuv 4 Iuv energy ltlnlnnu I.
V Hon lb.v, Hou-IE CR ERE IS Utlhtr Ident I(lcd relteee polht ~ Conelet uf I Haste I'rnceesl<<R Rut ldlaC Slack.
Crtl vill purclosse anni toro tnh+t
rvqul resent ~.
'I 'O o
hh
s
%II.'r.:
vh;='.
c
~
~ r labia(l)
())
'I~2 (2) sla rp
'deut ltlcr Cartable DrarrtKIloa CAT Coaglles Ss naor TaS Nusbrr AICutrrd A sigh Eclat lnR
~k (I)
(9)
(IO)
(4)
(5)
(4)
Ardun-(0)
Seaaor Dlrplay Ioc~ Class Iaratloa Aeaarks
~ I
..4,)
Plant Fntlrnaa Aadloactlrlty (Portable Inatrusrnt olios)
I Tes liult Iclsanntl Inter I'salsa ray Sltclrnneter Nou IK Cftb vill Purclsate Hosltara to neet tbls AICutrcoeut
.S. I t
Hind Direct!on
)
Tes 0 to
')40't5'ccurac7 VII)s a drllect lua ot IO' larllaS epce4 0.40 Hl'S (I HPN).
DaaptnK callo srralcr lllaa or equal to 0.4, delay dlstaslce Iran tilts or renal lo 2 atttra tl 540 (t 5.4'r IE) vltb ~ detlec-ot ISe, Startlnr Spred ot 0.)$ NPN an4 daaplnS Aetio ot 0.5-0.4.
Delay Dlstaslre I~
l.222 aetcrs.
Noa IK I I Hllca EAflS Nt ol I'lant
(
'. $.2 1
4.5.)
Vlnd Sperd F ~t last los ot Atnncpberlc Stablllty
)
Tes Tts 0 to 22 tIPS ($0 Hill). t 0.2 HPS (INS NI11) accvracy lor apscds less tissu 2 HfS (5 IIPN) ~
I01 Ior apcc4a la rscrss ot 1 HPS (5 HPII) ~ vllh ~
~tart IAK tllrrlbuld nt less lban 0.40 Hl'S (I tlflt) aa4
~
dl ~ lance coaatant aut to eactrd 2
nrtcr ~
Assed oa a rcrl.
tenp, dill Irua frlaacy atttorolo Slral
~I~ 1 ra
~ O.IS occslr ~cy I%V IU atts'r Intr reals (I ts.l'f arrurary pir IV4 tool Interests) or aaalurnsss rasft tur alterast lee Otal I I II7 @It Iustca 0-IOO NPN (Ilncar) K vltts accuracy ot e 0.4 NPH or l1 vbtcllrtcc I~
Srtattr Starllat tbreabold ot 0.75 Hl'0 ~ sid A conatssst 4I ~IAAce ot l,222 aettts.
IU'F lu 15'f K
villi Aa arcurac7 ot t U.IS4'7 pcr 4K aetrr ~.
lion IK'.l Nllrs fAFIS NE ot Plant Naa IK'.
I I Hlles KAFIS CE ol I leal
~ ~
- i
,. r
Vsrlsble(l)
())
~I~7 (1)
Sitar p Srasor Tek Identifier Vsrisbl ~ Desert cion CAT Coa Iles Nunber Prtvlred Rsnde LxlstlnS Rsn e (I)
(9)
(in)
(4)
($)
(4)
Redun (N)
Sensor Display F
Sel sale A
Dent I'over tocstloa larst los keMrl s K
(
Z.-
~
y I
~ r
~ <<
E.d.l.l Cross A t icily Tes Later IU ) CI/al (Prlnary Coolant) to 10 CI/nl SI'e Reasris I.
NA Non IE RAS I(et I>b Tbr pestaccldeat ssai llsk syatra (FASS vill bc util!red la order to obtala Rrsb ssaples of prlasry coolant Tbr FATS vill ~lso bc able to provide dllvtrd
~supleo.
Refer to FSAk Sectloa 9.).2 for laforast los reSsrdlad ties FATS.
C 4 I 2 CIOM Spectrva
)
Tes Later (Ptlasty Coolant)
( Isotopic Anslysl ~ )
Ser ROMrbe.
V IIA Non IC RAD lacI Lsd See iten E.d.l.l K.d.l.)
Soroa Coatcnt
)
Tcs
~
later (I'rleery Coolant) 0 4000 I'Iii 44 See RcasAO.
L V
NA Non IE RAS Nst Ls4 Sre Iten C.4,1,1, K.d.l,d (blorlde Contest (Pr leery Coolant)
)
Tes Inter C.d ~ 1.4 Dl ~ eoleed Oxygen
)
Tes Lxtrr (prlasry Coolest)
K.d.l ~ )
Dissolved IiydroSen
)
Tce Leter or \\otal Sse (prlnsry Coolant) 0 10 Pill 0
2000 cc (STP)/SS otoZO PIN See RensAO 0 - 2000 cc 0
1(l gtti I.
V NA L
)
V IeA L
V NA Non li, RAS Nos IC kAS Noa IE MN r
l eat lsb RAN See Iten C.d.l I, Ser Iten E.4.1.1.
Scr Iten E.d I I
(".
rIC.
I
e,e, va' I.I I'
E.4.1,)
pil Tca Lxtcr (prlascy Coolant)
I lo I)
L V
NA Non IE:
RAS Scr ltea E.d,l ~I, C.4.2,1 Cross Activity Tcs tater (Suap)
IIFCI/NI lo IO CI/01 See krasrb ~
L V
NA Non IC MS Not Lsb Tier poet Accident SsapllnS Systea (PASS) vill be utlllred lo obt ~ In ~
Sfnb ssaplc of cont ~ tnaent
~vap fluid.
Tbc FASS ls also capable of 4'rov ldluk diluted grab Maples, Refer to FMR Sec(lees 9.).2 lur Inforast loa reksrdl ~
lier I'ASS ~
C.4.2.2 CeaM Spectreen
)
Tcs 'ater (Svsp)
(isotopic Ass lysi ~ )
See krMri~
I nA tuul lp.
RAN Itst tab Scr lira E ~4.2 ~ I ~
Variable(l)
())
~~7 (2) SIR>pl'ensor Tak Ident tffer Variable Desert tlon CAT Coa lice N>wber Pegufrcd kas)e Kal ~ tla>S kaa e (4)
(I)
())
(d) fedos Sclaslc A
Dont (k) rover (1)
Sensor Iocatlon (10)
Dlsf'lay Inca I Ion Rcacrbo C.6,2,)
Soron Cont ~ st Teo Later 0 to 6000 C ntrnt I'tw (Scrap)
Sce Resort ~
L V
NA Non If.
RAR Ic >t Sce Itca I..d.f,f.
Lab K.d.!.6 ftclorlde Contest
)
Ter.
Later (S sf) 0 to 20 rfN See kenacbs I.
V NA Noa-IC RAR Not Iccb Sec
!tea K.d.f.l~
K 6 ~ 2 ~ $
Dlasolrc4 ltydrnken
)
Tcs Later or Total Caa (Swap) 0 to 200ucc (STP)kk Sce Resorts.
L V
HA Non IC RAR Nhk See !tea C.d.f.l, b.d.2.d Dlasolrcd ualkes
)
Tes Later (Sc>op) 0 to 2tc I'ltt Sce keoarbs, L
NA Icon IL kAR RAS See Ites l.d.2,l ctw I
ji r
C.d.f I (Soap)
)
Tes toter I to I)
I - I)
NA Noa-IK RAS Rhk See Iten C.d.2,I ~
K.d.).I llydrokea Caateat Tes ISr fa)SSA ISI'd)RSR 0 tu 102 See Reworks L
HA Hos IK RAS Neat to Ck A sosple dllat Ion sbld lo coasecte4 to tbe llydcofen Anal!ter la order lo obtal ~ a Srob oaople of coataln-
~cst ale lbe Crab nasl Ie say tbes be aced for lab analysis Refer to fSAR Section 6.2.f for a44ft losel lsforaatlc>n rekardlc>S air aaapllsk.
f.b.).2 Darken Content
)
Tea Later 0 to )02 See kcsarb ~.
L NA Hoa IC RAR ttot Lab ScclteaCd)l C.d,).)
Canna Spcctrcw
)
Tes Later
( Isotopic sn ~ly~ I~ )
See 4aarba.
I HA Non IK RAR l lot Lab See !ten K.6.).l.
4y, l