ML18018A736
| ML18018A736 | |
| Person / Time | |
|---|---|
| Site: | Catawba, Harris  |
| Issue date: | 09/06/1983 |
| From: | Mcduffie M CAROLINA POWER & LIGHT CO. |
| To: | Harold Denton Office of Nuclear Reactor Regulation |
| References | |
| RTR-NUREG-0737, RTR-NUREG-737, RTR-REGGD-01.097, RTR-REGGD-1-97, RTR-REGGD-1.097 LAP-83-405, NUDOCS 8309120489 | |
| Download: ML18018A736 (28) | |
Text
REGULATORY FORMATION DISTRIBUTION SY (RIDS)
ACCESSION, NBk:8309120489, DOC.DATE: 83/09/06 NOTARIZED:
NO FACIL-'50 400 Shearon Herr j s Nuc1 ear Power Pl anti Uni t ii Car ol ) na 50 401 Shearon Harris Nuclear Power Plantr Unit 2i Carolina AUTH.NAME AUTHOR AFFILIATION MCDUFFIEiM.A.
Car ol ina Power 8 Light Co.
RECIP.NAME RECIPIENT AFFILIATION DENTONtH R
Office of Nuclear Reactor Reoulationi Dir ector
SUBJECT:
Comments on Rea Guide 1.97iidentified as Instrumentation Control Sys Branchidraft SER Open, Item.223 in, response to NUREG 0737 Suppl.
1 'esian 8 oua)ification criteria for instrumentation cons4tent w/auide.
DOCKET ¹ 05000400 05000401 DISTRIBUTION CODE:
A003S COPIES RECEIVED LTR '~L~ ENCL '
~
SIZE:
TITLE: OR/Licensinp Submittal:
Suool 1 to NUREG 0737(Generic Ltr 82-33)
NOTES:
RECIPIENT ID CODE/NAME NRR LB3 BC INTERNAL: IE/DEPER/EPB NRR/DHFS/PSRB NRR/DL/ORB5 NRR/DSI/ICSB NRR/DS I/RAB ORB5 PAULSONnH RGN2 EXTERNAL'LPDR NSIC COPIES LTTR ENCL 7
7 3
3 1
1 5
5-1 1
1 1
1 1
1 1
1 1
1 1
RECIPIENT ID CODE/NAME NRR/DHFS/HFEB NRR/DL/ORAB NRR/DS I/CPB NRR/DSI/METH NRR/
B.
G FILE NRC PDR NTIS COPIES LTTR ENCL 5
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1 1
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Carolina Power & Light Company sEI'6 1953 SERIAL: LAP-83-405 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 REGULATORY GUIDE 1.97 POSITION
Dear Mr. Denton:
Carolina Power
& Light Company hereby transmits one original and forty copies of our position with respect to Regulato'ry Guide 1.97.
4 This has been'identified as Draft Safety Evaluation Report Open Item 223 of the Instrumentation Control Systems Branch and is also in response to NUREG-0737 Supplement I requirements.
Yours very truly, M. A. McDuffie Senior, Vice President Nuclear Generation SAL/tda (7790SAL)
Cct Mr. B. C. Buckley (NRC)
Mr. H. Li (NRC)
Mr.
G. F. Maxwell (NRC-SHNPP)
Mr. J.
P. O'eilly (NRC-RII)
Mr. Travis Payne (KUDZU)
Mr. Daniel F.
Read (CHANGE/ELP)
Dr. J.
H. Carpenter (ASLB)
Wake County Public Library Mr. Wells Eddleman Dr. Phyllis Lot'chin Mr. John D. Runkle Dr. Richard D. Wilson Mr. G.
O. Bright (ASLB)
Chapel Hill Public Library Mr. J. L. Kelley (ASLB) 8309i20489 830906 PDR ADOCK 050004i3 E
PDR 411 Fayetteville Street o P. O. Box 1551 o Raleigh, N. C. 27602
~(l ~
I4%4 JCLJ 4
4
~ah
l, SHEARON RIS NUCLEAR POWER PLANT COMPLIANCE WITH REGULATORY GUIDE 1.97 INTRODUCTION 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 arovided.
The objectives 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 to these guidelines.
The selection of variables and the basis for their design is to provide information as follows:,
Type 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 accomplished).
1 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-
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, CP&L 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 establishment of a variable as Type A does not necessarily infer that a specific action will be required.
Besides specifically required manual actions, CP&L has given consideration to those variables which would 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 line-up 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.
DESIGN 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 1E systems.
For Shearon Harris Nuclear Power Plant, instrumentation which is categorized 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).
CP&L 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.
Additional 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 to 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 additional information is provided to allow the operator to deduce the
" actual temperature of the RCS.
The steam generator wide range level transmitters meet single failure criteria on a system basis.
The steam generator wide range level transmitters are also supplemented by the qualified and redundant nariow 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.
CPSL 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
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Tes Ff-ll604 PT 1160g 5 rsfc to Dcslgn Frrssure
-5 ao 13$
FS I0 IK Itcg KRF IS The vldc range trsnsaltters
~ re aoted fn nt ao aoaltor pressures belou aero pslg.
Dier lnforustloa I ~ noted by Iten d.).3 vhlrh covers posltlre pressures beyood design.
Addltlonsl lnfarwtlua csa bc obtained fane Contalnacnt Vsruw Rellef Instruacatst leo I the range 5 to c5 laches ol voter~
rDT-IAROASA, rof-1srossg.
'..l.l Core Knit Tenpersture I
Tes TI to T25 20tp f to 126 to T51 2 ltuPF 200 f to 2100 F
A IK Cont Far IS
Ter fable(l)
(3)
~I~
(2)
SHNFF Sensor Tig Idtncl lier Verlibl~ Deecrl tlon CAT Coa Iles Rusher Regal red 4+ii Kilstlsg 4a
~
(1)
(I)
(10)
(4)
(5)
(6)
Rrdua (k)
Seasor Dlsploy Satiate Dint Fever location location Reeirls C.l.2 Rs4loictlvlty Conceatr ~tloa or Ridlat Ion level I~ clrculat lag prlasry coolest I
lnteat See rcasr) ~,
I/2 Tech Spec Set rtsia)e, II~It to 100 Ilies tech spec llilt Set 4sirls-See Stoa rl~
ak Durasg operation, ahe Cross 4lle4 feel Detector vill be utlllaed Thai Detector analtore delayed aeutroa precureors, Ihe Detector le Isolated upon receipt of ~ I Slkaal If the Detector le soa avallsble, grab eioplea aiy be tales vis the FASS for I
- Aaalysls, Ste Iten C.I ) btlou.
C I ~ 3 Analyst ~ of Frlosry
)
Tes Ste reseals, Coolest (Corns spectrua) 10)'CI/st Ca 10 Cllal (or IID-lag44
~oortt ters la coolant voluue)
Ste teairle.
1 I
NA r
RAL Ihe FASS ssy be used ao obtain glib sisplts of the falsity cooliit for Iib inilysl ~,
C,2' RCS rrcs ~ure Tee
'y-440 PI-441 0
)000 FSIC 0
)000 FSIC A
5 IK SlyIS Acr RIDR See Iten R.2'.
C,2,2 Con Ie Inots I fressure I
Iee FT 11404 FI 11606
-\\ FSIC tn Dtslga S to 135 FSIC g
I S
I res ~uro Cont HCS LRFIS Refer to ~.4.2 C,2.)
Cont ~Inutat Snip Utter Level 2
Tts LK 116OA aad
~
Tee LK11614 en4 S
I Tts I.K-)162A sn4
~
Hsrrou 4nge lop to botcoa (Soap)
Hirrov Ringe Top ta bottos (Suer)
Nldt kings (Fleet speci( lc) 0 100$
(LCCS Snap) 0 4 feet (Cavity Suap) 0 IS.5 fett (VI4e ringe)
Q S
IK IK Coat IKS KRFIS fkfIS KkfIS HCS ktfer to S,).2 C.2.4 Conaalnatat Ares
)
Tes kt)l )541-ASA I ao 10 k/Hr,OI to IO R/hr K
I Q
S Ridl~ t los Rtaa )sf 1 Lss kfyl 3541 CSA Rlyl )561 DSS Cont Kgflg
))tee aoaltors ert ~ Iso used
'to Isla lite contalnsent Isolation.
C,2.$
Lfflutat Radloect lvlay )
Incest R171 IIV 3514 Nobis gie efflueat RIH )IV )5)4 froa Coodtnstr Alr resnvel tihsuet 10 AtCI/cc ao 10 2 tcl/cr 10 LOCI/cc an SilO )tCllcc 1
I NA IK Lk I:RIIS Refer to K.3 ~ I ~ 4 C. ).I RCS pressure I
Tea ry-440 fr-441 0 In 3000 ISIC 0
)000 FSIC A
IK HCS See
~.2.)
Rthk KRI IS ACF
Vsrlsble(l)
(3)
~T (2)
SCRCPP Sensor Tse Identlfler Variable Desert t lan CA'F Coa ltrs Nuaher Requlred 4a e
Kxlatlne 4a
~
(1)
(t)
(IO)
(4)
(5)
(4)
R dun-(8)
Seasor Display K
eel cuir Dent Foyer Loc ~clos Lorstloei Ress its C.).2 Coa Ia Inne nI Nydroaea Coa<<catrstloa I
Ycs CSI'438 SA ISP-14)e Sh 0 to IOZ ICspxble of nperstlne frou
-5FSIC Io nsx.
declan pressure) 0 to IOZ (by volens)
Q 8
IK RAR CR ltee hydroaen snslyter I~ cspsble ol aonltor (envelolw) fron 5 FSIC to dcslen pressure.
Refer to KRFIS FSAR Sect loa 4.2.$.
RUIR C. 3.3 Cont ~ Inaent Fressure I
Tea Fr-11404 FI-1liue
-5 FSIC to 3 tlacs deafen ptessure
-5 co l)5 for concrete FS I0 E,
I Coat NOR FRI IS C. 3.4 Contalnacnt Efflueat 4dlosctlvlty Noble Cises fron Idcntlflcd reII' se palate Tea Rnl IAY 35tttSA IO 4 pit/co to ln 2 pCI/cc 8 x ln pCI/cc K
to 8 x IO pCllcc I
S IE LRIIS RCCS This ver!able Is addressed by aoaltors not~
~t Itea E.).l,5.
Reaulstory Culde I.ty (4v 3) Table 3 footnot ~ IO ~ Clews Che cosblastloa of ~ trcsas prior to relesse.
C.).5 Kfflueat 2
les snl-IAY-350)SA lo-4 pCI/cc exln 8 I Cl/cc E
I 8
4dlosctlvlty I~
to Noble Cases IO)
C Clice 8xlO pCI/cc (Feaetrat Coo, 4tches)
IK CR IRIIS Also refer to Iten E.) ~I ~ $.
D.l.l RRR Systea flou 2
Yes
~ Inter 0 Co IIOZ Deslan flew Later Q
NR Noa IK RAl VPS HOS kct up laforastlnn I~ provided by piwp not KRFIS rurrent snd valse status, lhe tsnae util ACF acct or exceed O-IIOZ of declan flew.
D.I.2 RNR Itest fxchxnaer 2
Yrs Later Outlet tcapersture 40 F Co 35(y F laCer E
I NR Noa-IK RAR VPS ACR RCDR KRFIS 4ct-up ladlcstloa I~ provided by ON teulurature exit lna Che 4sldusl liest Reauv Ck st Kxclesarera
~
lier rsliae util acct or exceed 40 tn 0 2 I'ccleaul ~tort Tost Level Ih Tant Pressure 2
latrnt
~
LT-920,922,924
, LT-924,928')0 2
latent FT-'92'2),925 PT 921 ~ 929 9)l IOZ to 901 voluae 0 - 150 FSIC 0 - IOCI1 0 - 800 FSIC C
C 8
C 0
8 lion ll.
OPS Non IL VPS Cont Cont ICOS LtlIS CCCS LRIIS Tonk Level snd Pressure ate annllored by lechnlcnl Speci( lcntloas durloe ooravl orerstlos.
Safety Credo lsolstloa Valve Indlcst los ls provided.
Since the Syvtea I passive
~ fewer co valve Is locted out st the CI tcuIC Reenter lherefore ao Innedtnc Operstot sct lnn I~ sntlclpsted.
Teak elate.
Inn be Inferred froa thc RCS Pressure.
D.2.2 Accwulstor Ical ~clos Valve I'oslt Inn 2
Yes Sauna eaoae FSIIQ,'texed
~Ir IllI II Ctot Closed tint nton K
1 Q
8 IK Coat CCOR LtlIS I'oaltlnn Su(tete la provided for vsl
Fsr labia(l)
())
l~e P
Sensor Tse dentlfler Vsrlsble Desert tlon CAT Cou Iles Nusber Reilu I red
~ksn e
Eclatlns (I)
(9)
(Iu)
(4)
(S)
(6)
Redua-(4)
Seasor Display E
Se I soir Dent rover Location location Rensrks D,2 )
Socle held 2
Tee Let sr 0 to Inter thsrdlnd tlov IIOZ Deaths flov N<<-Ie UFS IICR LRFIS Durlnd che InJectlon pluto (alter rccetrt ui
~n 4
~ lhnsl), Iten D.2.4 Flov Trsasultter
~
nsy be use4 to aoaltor horoa laJectloa flov The ksnhe util neet or ecceed 0 to IIOZ nf Desldn tlov.
decks Indlcstloa ls yrorlded hy boric Acid 0.t,h tlov Is Ntl Systea Tcs later 0 IIOZ Dcs len Flov I~tcr Q
NR Non IE RAR UFS HC4 Dtl I~ by chsrhlnd pwp, The ranee vill lsflS neet snd/or eccerd 0 to IIOZ ol Desldn Flo Clov ls ltl Systca 2
Iee Later 0 to IIUZ later Dealt a llov NR Non IC RAS UI'S 0th LI'I ls by RUR systea.
Refer to Iles D.l.l ERFIS D.2.6 kcfuellne Deter Tes Storebe Tent Level LT/LI 990 I Top 0
IOOZ LT/LI 99I II Sot tos I.T/LI 992 III LT/ll/99) IV IE kAS Is:~
RLOR ERFIS D.).I Sesctor Coolant Tcs Fusp Status El-ul60 Ll Ulbl EI OI62 0
dOO 0 EIO Rare Aups V
Ns Nos IL SUER AUX SUS NCS FRFIS D. ).'2 trlssty Systea
~) Safely 6 b) kelle/,
Valve Fosltlons, or Clov thtoudb, or pressure In Relief Vs le ~ LIneo t
Tcs Closed Not Closed Not Close4 Not Utes
( ~ ) dOIOA SU)OS 0 OC FLV 44th 4 I (b) FLV 44)A Closed Not Clnsed tCV 44$ 4 Not Closed Not OPea Q
4 Q
S NonJt'RFIS Fusltlon svltch ls provided for vulva shove Rsrkup lndlcstlon ls provided by teaperstus IN-4 snaltors dovnstrena of the valves ~
0.3.3 Fressurlrer level Tcs 12-4$ 9 I LT 460 II I,T 46I III lop 0 IOOZ to bot ton Cont NCS ERFIS ACF D.).4 tressurltvr Nester Status 2
lnteat el-0444 Llectclr 0-600 Current Anp NA Noa-Ie FUR UI'4 DIST INL CT Instrunentnt tun Is located la a nll4 envlr backup Indlrstlnn Is provided hy pressurlr clrrult bren'ker statue la control coos.
D ).3 Quench lank le vs I 3
les LT-4)u Tati tu Rot los I'reasarlrcr Tank O-IOUZ NA Non-IL Cont t>rs NCR LRFIS Acr
Variable(l )
(3) f~ype (2)
SIRIFP Sensor Tsg Identlfter Vsrlsblc Desert@lion IAT Coa Iles It>>aber Reqvfrcd Rsnf e Kxlstlug Rsnf c (7)
(9)
( IO)
(4)
(S)
(4)
Reduu (6)
Seasor Dial lay Selsalc Dent Fover tocsttnn location Rcnsr I~
9 3,6 Quench lant 3
lutent TK-4)l 50>f to 150OF 50-250'F C
Tcapcrature NA Noa IK Cont IICR IIFS ALP FAFIS Since PRT D>sita Pressure I ~
IOO pslg.
(Refer to Iten D.3.1) the Rupture Dfcc Ia 4t apprnxlastel7 64 IOO pslg> Tsst v 317 6 I at IOO pslg 0,3,7 Quench Tsah prcssure 3
Tes FT 412 0 to Des Ign Fressuro 0-I00 PS I0 HA Hou lb Cont UFS tx:6 ALI'tflS Rupture Dias cct to blov Irlor to IOO pslg.
D A,I Steno Ceo@r ~tor I
Intent lT-417 I Fr>>a Tube level L'I 467 II Sheet to LT-497 III S> Isrators 0 IOOZ (Vide range)
A A
NCR ERI'IS ACF Th>'se vide range trsacalttcre aey be svppleneatcd by the redundant nsrrov range trsasulttero on each
~tesa generator, Scc iten A.4.1.
la sddltloa, dlverslty I ~
pruvldcd by uce ol ~ tesa line prcssvrc snd auxlllary feedvster flo D.4.2 Stcsa Cenerator pressure 2
Tea Ff 474,5,6 I PT-464',6 ll FT 494 '>6 lll Fran 4taos
~
Frcssure to 2hZ shove Invest vslvc Sct ting 0 f300 PSIC 6
(glean(Inc Pressure)
Q 6
IK Nrg AAI'IDR ZRFIS Stesa line pressure I'ssented Instead of stcsa generator prcssure.
D.4.3
- 4) Sx/cty/b) Rcllcf 2
Zcs
- 4) 2NS-RI thrv RI5 Closcd-Vslve Fool lions b) fCV 30SA Not or Nein Stesa PCV 3066 Clused flov PCV-)ORC a) gb)
Not Closed Not Opea a
4 b NA IK IICR Posltlon svltch 'la provided for valve shovn ALI'RFIS D,4.4 ttsln Feedvster Flov Tcs I'-476,7 IZ-466,7 FT-496,7 O-IIOZ Design Flvv 0-$ alllloa lb/hr 6
for cocle IRV line IZLR T.'>la range covers DI20Z oa ecch usia ZRI IS lccdvster llov llac.
D.5.l Auxlllsry or Kaergency Ferdvster flov 2
fcs FT 20504 IT 20506 IT 2050K 0 to IOOZ Design I tov 0 244>000 Ib/hr K
on 44th AIV line NCR Thl~ range covers O-f302 oa each ALI'uxlllsryfcedvxt> r Ilov line.
FAF IS D.5.2 Condensate Storage Tsub Vster level I
Tcs LT 90IOA LT-9UIOS plant Slvcl I le O-IOOZ HCR ACI'RF IS Cnndeasstc tsah level vill be record>d by LRFIS (C>a>pater)for treading lnfornstlon.
0.4. I Coats lnaent Spray Fl>w Tcs I.T-1122A LT-ftfyg rl flot Dca Igo fl>w Later Q
HA IF.
KRF IS Trnnsalt ters vill be parti>ssed I>
a> rt the reg raids rc Iulreaent ~.
vr labia(f )
())
(2)
Sfstrp Sensor ICE
~lrnclfler Verlsbl ~ Dcecrl cion CAI Cne lice Nester Required 4n e KcletlnS 4s e
(1)
(9)
(IO)
(4)
(5)
(6)
Ec4ua (0)
Scaeoc Display Sclcslc A
Dent Fuve r ku<'
c Ion Luce t los kcserhs
.6,2 lfcct yrsovsl by Coats lnwnt Fsn Neet ECsovcl Syetcs 1
Tes All-I Fleet Speci( lc On/0(!
AN-2 Russ InS AN )
St ~ tue All 4 IK FSF IS Dlverslty for soaltorlak operet los I~ provldc4 by uec uf tl>>
cost ~lascat tcspcreture Indicators, See Iten D.d.).
.6,)
Contslsocst Ataoephere Tcspctsturc 1
Ieo IK-1542 A< ~ <C Afy<F IL-754I A<S<C to 400 f I
I S
IK Cost fiLS LRFIS
~.6.4 Coatslnscst Susp Voter Tcopc re t Urr 2
Tco
'Il-7I ))A II 71)IS SO"F co 1SO"F SQF - 2)OF E
I q
s IK Coat Ifrk KAIIS
.l,l If<keep flov ln latest ft-Ild 0 IOOI Des lka Ilov 0 l60 Cfff C
C Non-IK EAS ECDR EAFIS thl~ oyetcs virlsble ls aot required I e
pleat ehutdovs.
Ihe slates I~ leofet~
pleat protectloa
~lknel ~.
~.1.2 Letdovn Floumut 1
Intent ft ISO 0 to IIOE D<slkn Flov D200 CfN Noa-IK RAS QFS IICS ERFIS kcsdc covers 0 to 1252, Isle syetea Cerlcble le aot requlre4 for soir pleat ehucdova.
Tl>> syctea I~ leol ~ ce4 oa pleat protect!os sllnelo Itccla< a kec dovn llov ls 120 Spa,
~.7.)
Tolwe Coatrol Tcn'k Level 1
latest I.t-lI5 Top lo
~ot tos Noa-IK EAS QFS Iftq thl~ eyetca verlcble ls not rcqulred for eel<
Ekf IS pleat ehutdova.
Il<e Syetcs I ~ lcoleced oa ACP
~lest proccctloa
~lkncle ~
CS.I Cosposcst Cool lnS 2
Ics
'E-674 Octet Tesperscurc IL f<1$
to ESF Syetra 40 F to 200of IK RAR flCS TK 614 so4 tE 615 lodlccte tespersture out ot RIOR the CN Itcct EcchenEcre.
The Tcapersture of ERFIS CCV laCo ihe Neet Ecchcakers I'sdlcstcd by TE 61l es4 IK 612 l,S. 2 Cosposcnt CoollnS Vetrr fluv lo ESF States 2
latest fl s$ 2 F 1-6$)
0 IIQI Ore lkn F lnv DISOQO Cfff Non-IK RAR IICS ktDR ERFIS FI dSS end FT 669 la4lcete CCV flov to tf<e Silk Neet Eccl>>akerc.
Isdfcst fan sey be allo laferrcd !ros Ft-649 eod FI-6SO.
~.9.!
llfkh Level Rcdfosctlve I.lquld Tank Level
)
Tre LT 6OOI
'tnp (Vc ~l~ flol4up Tsnb) ln LT 4IOI Soltvs (Fl. Drela Tank) 0-lrslI 0 l(slI Noa IK N -It Vrk CS EkI'I5 kns vrs-l.s ECFIS
Variable(l)
(3)
~I (2)
SIUIPF Sensor Tag drntlller Tellable Desert t ton CAT Cuu2l tea Nuabec gr9ul red
~kau r
- Kalsllnr, 4ago (1)
(9)
(10)
(6)
(5)
(6) gedua (8)
Sensor Otal 1st
- Selsute A
Pant tover locat ton Locatloa grna rks P.9.2 gadloact lee
)
Tea FI-10)d to 0
I SUX Cr ~ Not dup FT 10)9 Urs lga Tank tressure WF-1052 to Frrssurr FI 105$
0 150 I'SIC 0-150 FSIC Noa IK N
-IK Utg UPS-FS FAFIS aIIS UPSY Carts D.IO.I toergency Vrnlllatloa Pauper posit lan Tcs 4 claus Open Closed Status Nnt Otea Not Closed IK Valve I,l~ II Svltcb atlg NCS D ll~ XX Status o( Standby 2
Pover 6 Olber Energy Sources laportant to Satety (electric bydraullc, pneuoattc)
Tes See Varlsblec Ll~ tcd Selov D ll I 4,9 LV I)IKS SOS 2
Tee 'l 69$ 6AI snd 81 I'lant speci (le 0-900UV Volt Svgr tal NCS ENIIS 0.11.2 Dlcsel Ceaerator 2
Tea El-69$ 5A aad
~
tlant speal(le 0 9000 Volt 0
8 IF.
NCS ELFIS D.l I ~ 3 Diesel Crnerator 2
Tcs El 6956A snd 8
Flont erect(le 0 ISOV Fl~ Id Volt IK DC Coot Fo I D.ll,d D.C. Field 2
Zes Kt 695UA and 8
tlaut eprclllc 0 $00 aap E
current IK DC Cont tnl NCS D II.S D.C. Eractlre I'over 2
Zes r
El 695SA aad
~
tlanl steel(le e 10 NVAE K
IL'CCont Fnl Ile 8 O.l 1.4 D.C tovcr 2
Tca Kl-IVSIAand 8 tlnnl speci(le 0-8 ISI IL Du Coul Fnt IN,O D,ll,y D.C. Current 2
'Trs r
Kl 69$ IA sud 8
Final slwcltlr 0 gtuI Aap E
DC Coal Fnl IN.'8 D.ll.g grit Current 2
Tra Kl 69d)A aud
~
tlanl speci(lc e
state Aap gallery Fal IICO AFF
~rlsble(l)
(2)
Sltnrt Sraeor Tsg
~fvnttltcr Variable Dcerrl tloa ClT Coa II)e Iruabrr kequ1 ted Rsn c Eel ~ tlag Rsn
~
(2)
(9)
(Iu)
(4)
(5)
(d)
Sedan (S)
Sensor Display Selsslc Dsat tovec Iocst ton Iacatloa krasrka
~ll 9 bett Toll~
2 Tes Kl-6961A snd S
pleat s peel (le DISOV I)
S IK battery tlCS I'earl ACP II 10 IISIV llydrsulle 2
Tes
~ lttl VISAR I pleat steel IIc SO-150 Felg K
Arcuaulstor pressure ltlS V2SAS I Ztts V)SAR I q
s IC RA t~ II.II FQIV ltydraul le 2
'ccvavl ~ loc tressure Tra 2IV V26SAS-I 2ru V16$Q I
)III-VISSAR.I Fleet spcct/Ic Inter R
4.1,1 Coatalnarnt I
Tea Rttt-3549 bs I k 1st Ates Radial los RKII 3590 Sb fo Illgh Snake Rill )5d) ASA 10 R/Itk Tcs kttl 3563 bsb tater Inter Cg Ck ZRFIS kHS Additloosl nonl tora vill be purchased Ior use laeldr cont ~ Inaeat yra )563 aonlta
~rr !or FOST IOCA aoaltnrlng Csergy rsnbca
~ re Tsbl ~ 12.3,4-1.
noted In FSAk Ts 12.3.4-1 K.2.1 kadlatlon Exposure kate (Isolde bldgs oc Areas vhrrr access I'equired to service eqalp.
Iapottsnt to
~slaty Tea Rllt lltR )$91 Slit IRR )$94 RIII-IRR-)$99b Rfll-IN-lS99C RFII-Ikk )600 Rill IRR 3601 RKII-IRR )602 RFII IRR )60)
RIII 2kk )604 10-1 Risk to 104 Risk Rtyl IRR-)606A Rlyt IN 3606S Scc keasrh V
RA Ron-IK RAR I
ERFIS t)ts Knrtgy ranges sre soled la TSAR Table 12.3.4-1 K.).l~ I Contalnaent or targe Clllueat IO 6 pCI/cc to IOS pCI/rc 0 to IIOZ Vent Design Ilov Dot Applicable ~ Inca elllurnt discharges through cannon plant vest.
E.).1.2 Reactor Shl ~ Id 2
bldg Annulus lu 6 rcl/cc to lus CI/rr 0 to IIOZ Vrnt Dcalbn Ilov Itot Appllcsbl>>.
K.).I.)
Auxlllsry bldg (Including sny bldg)
Cnuta Ising pr leery Syatra genre
~ e g vsetc gae decay tonk) lu-10 CI/cc to lu) pCI/cc 0 to IIOZ Vent Dr sign Iluv Not Appl Ical Ic slave elllucnt dtachsrgt s thruvrh coaaon plant vent,
Vetlsbl ~(I)
())
~I (2)
SINI'P Sensor Tsg ldeatlflcr Vsrlsble Dcsert Clos CAT Coa lies Nunber RI<<tv Ited Rln e (I)
(9)
(10)
Kslst lnk (s)
'(5)
(d) kedua (g)
Seasor Dl<<ploy "I'
U
<<I
~
A Dsat rover 4cst Ion location kcasr4 K,), l,d Condcaser 2
Tes RK ITV 3$ )d Air kcaovel Systea Kthsust 10 d pcl/cc to 10$ t CI/rc 0 to lltlg Vent Deslga Ilsv 4tcr Itoa IK Iub CR Nonttor vill bc purctosed to nci I KRIIS regutrcotnte K.).I 5 Conuoa plant Vest or NslClpnrposc Vest Dlschsrglag oay (If ~bovc tclcsscs I~ Included) 2 Tes Rtyt IAV 3$09SA 10 d pCI/cc to 10 A pCI/cc U
1102 Vest Dcslga Iluv 4tcr I
0 S
IK Lk KRFIS K,).l.d Veal ftoa ~ teen Tee RK-)591 4nerstor Safety RK-3592 Relief valves or RL )59)
Ato. Dusp Valves
-I iU I:I/CC tO
- 10) pCI/ce (Durst los of relesscs Ia scc d
ns<<s ol
~ teen pcr unit Cise K
I I)
S Ck KRFIS K.).l.y All other identified 2
Tes RCN IW-35th release point ~
RBI.IW )5dy 10 d pcl/cc to IU pCI/CC U to 1102 vent dcslga Ilou 4tcr K
1 I 0
IK Ck Nonltor vill be putchssed to neet IAIIS rc Iultcscst ~
F.,3.2 p@r I Icui ~ Ice ead l4 logcne
)
Ieo RIII-IIV)509 SA RIN-2IV-)$09 SA Rtil IW )$td RF)l IW )St'I 10 3 ICCI/CC to IOt <<Cl/cc 0 to 1102 Vent Design Ilov 4ter Noa IK:".
itonltor vill be purchased Co acct tctul tescnts K d.l Altborne Rssdlo-Itslogcns aad Patt Ical ~ ccs (portable ssupllsg vlth onslte analyst
~
csrsblllty
)
Tes 10 9 pCI/cc Cqr 10 p(t.cr Non IK<<,
CR Drier Identified telrsse points const ~I of KRFIS Usste I'tncesslng building Stsct, K.d.2 pleat d environs
)
Tes Red l~ C los (Portable Iastruscatstliul)
IU 3 R/Itr to IUC R/CN<< I'hotons 10 3 R/NR In I(ld R/NR. bets ross d I<<vmncrgy Chntnn<<
Noa IK" Crtl. vill purchase aonltors ta neet rvq<<lreucnte.
~r
Carl ~hlc(I)
(3)
I~y Seasor lsd (dcatl(ler rsrtsbl ~ Descrl tloa Csl Conglles Nuuber acquired
.(1)
(9)
(10)
Kclotlad (4)
(5)
(4) dedua-(d)
Seasor Dlspls7 a'
g vI Dent tooer Location
!@Ication dcnscbs tlsat fslvtroas 3
'rea 4dlosct lvlcy (torcsble laatcunentatloa)
Nut tI channel Casus rsy Spectcouecer lacer Nen-IK CtILvill Purchase Nonltare to neet thl ~
Requlreuent,
- l. S. I Nlnd Direct Ion 3
les 0 to 340 (CS'ccursc7 vlt)l ~
dr(lection o( 10
~t ~ rtlnd speed 0.40 NtS (I NtN).
VIIuptnd cello Srcstcc IILla oc equal to 0.4, delay dl ~ tones less then or equal to 2 sclera 0-540'e
$.4 or 12) vTth ~ detlec-or IS'.
Startled Speed of 0 1$ NtV and dseplnd dst lo n(
0.$-0.4.
Delay Distance la 1.121 ueters.
Non IK 1.1 Nlles KKFIS NL ot tlsnc K.5.2 Vlnd Speed 3
lea 0 to 22 Ntd ($0 NfN),
+ V.l Ntd (0.5 NCN) occucoc7 (oc speeds less than 2 NCS (5 NtN),
Ivl Ioc speeds Ia
~'scree 0(
2 NCS (5 NtN) ~ vllh a startled threthold o( lees thea O.IV NI'S (I NCN) snd ~
dl ~ lance coastsnt nut Io escecd 2
~I'Icc~
0-100 NtN (llnesc) L vlth accucoc7 0(
4 0.4 NtN oc IK vhlchevec I~
Sccotcr Ststtlad threshold ot 0.15 NIN snd
~ cosecant dl ~I~nce 0(
I 221 sclera, Non IK I.l Nlles fkflS NK o( I'lent K,5.3 Kstlustlon ol Acunsphertc Stsblllty 4scd oa ~ ccrc,
-10'7 to IS'f I.
tcnp, dl(l (roa vlth an accuracy prlusry oeteorolo-ot + V.cdd'7 Scca! staten per Id sclera.
-S'C to 10'C 9 f to ld'f) 4 I 0.15 accuracy tcr
$0- acier lute rvol s (I 0.1'f scrursry per 1st tool Incr rvsls) or snsludous rsnre (ur slterllltlve scshlllt7I'actuates'sa IK'.
I,l Nllrs Ksfls CL nt, I'lent
Vsrlsble(l)
(3)
~~T (2)
SNNrt Sensor Tsg kequl red ldeat flier Vsrlsble Desert t los CAT Cos Iles Irusber ksn e Fsfst lng kso
~
(I)
(9)
(10)
(4)
(3)
(6) kedua-(8)
Cessor Display C
Se Isu Ic Ds at I'over lors t Ion 4cot los kcsor I~
K.d.l,l Cross Actlvlty 3
Teo 4ter IO j CI/sl (trlssry Coolest) to 10 CI/nl See kessrbs.
L NA Non-IC KAS Not Lsb Tbe postsccfdent ssspllag systcs (tASS util be utlllred la order to obtain grsl seep!co of prlssry coolant.
The tASS vill oleo be able to provide diluted couples.
gofer to FSAk Sect!on 9.3.1 for lsforast los tegsrdlog tbc tASS K.6.1.1 Cease Spectrw 3
Tes lacer (trlssry Coolest)
( Isotopic Analysis)
See kcssrbs.
L V
NA Noa IC kAS Not See iten K.d,l.l.
46 K.d.l.)
Soron Coatent
)
Tes
~
4ter (I'tlssry Coolest) 0 d000 tttt 4b See kcssrbs, L
V NA Non-fl.
KAS Dot Lob See Iten C.d,l I, K.6.1.6 Cblorlde Content (trlasry Coolest) 3 Tes 4ter 0
20 till See kesstks L
V NA Non-Ib
~
NAS laxt lsb Sec Iten E.d.l.l.
C.6.1.$
Dissolved Nydrogea 3
Tcs toter or tot ~I gee (tclssry Coolest) 0 - 2000 cc (STt)/Cg 0 - 2000 cc L
(
V NA Non IC NAS kAS See Iten C.6 I.l C.d.l.d Dissolved Oxygen 3
Tes Later (trlasry Coolest) o to 10 till 0
20 trH L
V NA Non-IC-KAS See Ites C.d.l I, C.d.l.y pk 3
Tee 4ter (tvfaery Coolant)
I to I)
I - 13 L
V NA Noa IC:
KAS Scc Iten E. 6,1.1, C.6.2.1 Cross Actlvlty 3
Tes 4ter (Cusp)
I ICCI /NI to 10 CI/sl Sce kessrbs NA Noa IC.
CAS Not 4b Tle I'ost Accident Ssapllag Syctea (tASS) sill be st!lixed to obt ~la ~
grab oseple of cootslnscat cusp flufd.
Tbe tASS ls also capable of pruvldlng diluted grab sssples, kefer to FSAC Section 9.).1 for lafornst los regsrdli
<<>> rASS.
K.6.2.2 Cense Srectrw
)
'feo 'ter (Susp)
( Isotopic Ann lysi ~ )
See kraal I~
I.
Non-IC Not See iles K.d.y I, 4b
Variable(l)
(3)
~~T (2)
SIRJPP Sensor Tag Prcutrcd Ideal flier Varlablc Descrl t Ion CIT Coa Iles Nunber Ran e Relet lng 4
e (4)
(1)
(5)
(4)
Rcdun Srlculc A
Pant (S) toner (V)
Seasor Iocatloo (I0)
Display locst Ion Reaar be K.6.2.3 Roron Content Tcs Later 0 to 6000 Content pta (Swp)
Sre Rruarbs NA Non IP.
RAS la>t wr Iles I 4 2 I Cab K.6.2,4 Cblorldc Content (Swp)
'ler.
Later 0 to 20 rrtt Sre Resarks L
V NA Non IC RAS tlot Lab See Itea K 4 2 I K.4.2,5 Dlcsolued Nydrogcn 3
Tes Later or Total Cas (Snap) 0 to 2000cc (STt)gg Sce Reaarba.
I V
NI Non-IK RAR RAS Sre ltca K.b.y,l, K.4.2.4 Dlsaolred Oaygea 3
Teo Later (Swp) 0 lo 20 tttt Sce Reaarb ~.
NA Noa lt RAS See Iten g 4 21 K.4.2.1 PN
( Soup) 3 Tee I~ter I to 13 I - 13 Noa IK RAS RAS S c ltra K.4.2.1.
K.4.3.l llydrogen Conceal 3
Tea Ist 1438SA 0 lo IOX Isl'43SSS Scc Renarba
~
L NA Non IC RAS Next to CR A couple dllutIon sbld ls connected lo tbe Nydrogen Anslyter la order to nbtala a grab cantle of contain
~rnt air Tbr grab castle aay lbea be used lor lab aoalyalc.
Refer to FSAR Sectlna 4,2 5 for addlt losel lnforastlun rerardlug sir ssupllng
- t. 4.3.2 Oaygrn Contest Tcs Later 0 to 302 Sec Rcaarbs.
I.
V NA Non-IK RJN Not See Iten K 4 3 ~ I Lab K.4.3.3 rows Sprctrw 3
Tcs Let rr
( Isotopic analysis
)
See Renarbs.
I.
V NA Non IK RAS ltot Cob See Iten K.6.).l ~
>O
~
1 g
~
,i
4CAAUM IIAAAI5 IIUCIIAR pOVEA pLANZ AECUIATORT CUIUS 1
Rotbsc 1) ysrfsble Types (l.~. g, C, 0, I) sre those aoted fn RC 1.91 (4v. 3).
Vsrfsbfee are Ifeted fn che esse order es they appear fa table 3 of RC 1.91 (Rev. 3).
1dentiffero ere grouped by funccfon (e.g. reactivity control, coco coolfngc sefotefnfng ructof coolant eystes integrity) ~
(2)
Category {fc 2 or 3) noce4 fs ee defiae4 fn RC 1.91 (4v.3) ~
{3)
Tes - indicates thee sggyp fs in cosplfence vfth tbs category sod congo requtresonts ot RC 1.97'nteac indicates that gggyp seats cbe tatent ot RC 1.91 ss 4tscuesed fn cbo cesar)o colum.
CI) ~li I ~lift tr Cave t I pre, alllll,~El le)
WP fnetrusentetfonI E - Ssfecy related foetrusentstfoa (up to sn4 fncludfog electrical fsolstfoa device, ff spplfcsble) fe quslffled fn accordance vith RC 1.09 (4v. 0) sad sethodology of EURRC-0$ SS as note4 fa tbq SHEpp Eavlronseatsl Quetfffcstfon Report (SEAR Sectfoa 3.21).j lgtg 323 N hu brea ucflfce4 oscept vhers tgtg 323 11 ssy be note
~
Csbles (safety related) ere quslltfs4 fn sccor4sncs vfcb lgtg 383-N.
Safety related fnstrueeatstfoa located oucefde cootefosenc en4 oot sub)ect to Dgl cesperetures or pressures srs qusltfied Cor rs4fstton
~xposufe~
L Non-Sstecy related fnstrusentstfon qusllffs4 Cor service eovfronsent Cor vhfch fnstrwenc fe located.
RSSS Instrussntetlont A ~ Croup A denotes fnscrusentstfon (sensor) vhfch fe quslftfed Cor harsh eovlronaent en4 high rsdfscfon.
Inetrwentstfon (sensor) seats the fntenc oC RC 1.49 (Rev. 0) aad fs quslftfe4 fa accordance vfth either lttg 323 N ss docusented fn MCAp-g507 (4vi 2) or lgtI 323 11 as docussnted fn UCAp<<NfO-L, UCAp-7709-L oad tbe Qeotfnghowe Supple-sentsl Rnvlronsencsl Ituslfffcecfon Testing 1'rogrss.
Associated fostrusent csblso
{SOp) sre qwlffte4 ln sccor4oncs vftb lggg 323-N en4 lgtg 3S3-74.
g Croup g qusliticetloa sethodoloty fe described fa UCAp-g$97 (4v. 2)
UCAp NlO-L, UCAp-7709 L sad the Meetinghouse Supplesentsl Envfron-scnret ctueffcfcscfon Testing progros.
lssocisced iaotruscnt cables (SOP) sro qualified fn eccordsaco vfth tgtg 323 N and ltIR 303-1i.
C Croup C denotee non eatery colored fnstrweocetfon vhicb fa designed Cor tce service envfronsenc (Ilfgh Ituslfcy Cossercfsl Crs4o) ~
(5)
Sefesl usl tfcsrf SOp lnstruasntetionc 1 -
lastrusentstfon (up to snd tnclu4ing electrical feolecfon devisee ff spplfcsbls) fe qualified fn sccordencu vlth lgtg 3ii-15 snd 4gulstory Cufdo 1.100 (4v 1) ~
p <<gqufpseaC fs designed to vfthetend norssf sschsn(csl vfbrstfoa
~xperfenced fa fts location.
ESSE 2wtrwentetfonI A or 0 -
Rtgg (Meetfothowe) fastrweotstfoa fo sefestcslly quslftfe4 fa accordance vlth 1EEE Q-75, tttl 3ii-11 en4 Regulatory Culde 1.100 ss delloeeced ln UCAy-9507 "Nethodoloty Cor Qualifying Qeecfnghowe yle-SD scpplfed RSSS Safety Related Electrical gqufpsent,"
snd UCAp-0507 Supplesent f.
Qbero Iwfcffrequency bfsxfsf inputs ere espfoyed Cor casting, tho setbo4ology descrtbed fa UCAp-gi95, "Ceaeral Nstbod OC Dsvsloptag Nufcltteqwncy glssfsl Test laputa for gfstsbleo," fs esploys4.
R -
4cordere (vhlch sre indicated by cho tsg nosher).sre quslftfs4 to operate after a selsnfc event.
Sefealc qwlfffcstloa wtbodology fs deltneste4 fn QCAp-S5gy (oes ites R> above) ~
C Cowerfcsl grads fwc)cant fa designed Cor nerval vfbrstfoa of location.
Addftfonol faforsstfoa regsr4lag the sbovp subfecc ssy bs Coun4 fn pSAR Section I.g (RC 1.100) and ySAR Section 3.10.
I) lg lnocrweatstfoa (up to sn4 fncludfag eov isolation device) fs sub(ect to cbe Ouslfcv usursnce progrss fn accordance vltb fOCyR$0 Aopendfs ~,
Tbe guidance of the 4Iulstory Cufdee le2gc fo30a la3gc fo5ga loCi, loNc foggc 1 ~ 123 ~ lofti sn4 l,lig era utllfcs4 oo 4esccfbed fa ySAR Section I.S (ee spolfcsb4) sn4 yglg gsccfoa 11.2.
co
~E4 lnstruaentaclon seato afngl ~ Soilure criteria.
lsdundent or diverse channels sre eleccrfcally iodepsndent snf pbyetcelly
~operated (up to end including say isolation dev)ce) fros
~sch other en4 {reef equfpacnt noc classified fvpsrcsnt to
~a{sty fa accordance vith lsgulatory Cuf4e lc75 (4v 1).
EA Single failure criteria is not epptfcsblso (S)
Poser lg povered ofC cbe lg bus Won lg - Sfgb reliability poser source vhfch ssy not oecesssrfly be Stead-by poser.
r Dpg Dnlnterrupcfbl ~ poser <<pply CC) ~SI I
Conte!anent Reactor lusilfsry Rui14ing
- IIsste processfng guf14fng TS
- Tu*fos gufldfng NST
~ Nsteorology 1scllftfes (10)
Dfs
~
Locscf Control Rosa Esergency Response yscflfcfes laforastfon Sysres NCS Nein Control 4srd Rtylg ACp lusllisry Control tonal TSC
- Technical Support Center Nests trocssefng Rufldfng
- Tsrfsb]s fs recorded on tho Recorder panel (Control ~)
lgp luallfsty Equipsent penal Nfs Nuclear turrusencecfoo syetes ENS
- Eadfscion Nonfcoring Systes Notes Ubere ~ variable 1 ~ recorded (indicated by the display cofusa),
the recorders are powred Cros che non-lg Upg discrfbutfon penal ~
Additional fnforsstion regarding envfronsental qwlffication say bo Tound tn ySAR Section 3.11.
Eg
~