• rest 6

'l'ag II ...fllCID Ye~ fiat Eva] EQQtDQ'te 1

R11rl,

{n) r5. 2x105*

• • 1x10~ V Data, Ev.1 22. Foot ote 3 P'l' 0752A Sub.

No PT 0752B Time bused on small 'P.lf 0752C MSLB. P'r 07520

Heacl;or: Palisades SEP Submittal 'fime l~quipment 'fype Heference Loe. Needec t10. '.Pransmitter. Press11re 3-13/1,2,3,11 I -iomin Foxborolbll GM Tag # PT OID2A -PT OJ02B 1P-n102c PT 0102D 111. Transmitter, Pressure ~-J2lJ,2,3,11 _L_ -, nm; T Fox1)oroL611 CJM Tag # PT 0751A PT 075113 PT 0751C P'r 0751D 112. JYP Convertors 1-llLan _Jl_ 3Qgayf Fisher Governor cQ[__ T.v12e 5116 ~'ag No E7P 0779 E/P 11'7tm -J!\\7P Oflh E/P 0782 Systematic Environment Parameter S~ec. QU:al. Temp. {ry-278 286 Pr. (Psia} 66 70 JUI('&} 100 100 --Chem.(R} Yes Sat -1!n<l. R rn105**~* ix107 Sub. Yes Sat Temp. {F) 2~~ 206 Pr. {Psia} 70 .JUI (~} 100 100 Chem. Yes Sat - Rad. {R} 9x105**** ixio7 Sy}l, Yes Sat _Temp. {F~ ))Q 320 Pr. {Psia) ] 5 90.3 Hll {~} 95 100 -.Chem No Hud,{nf_ No Sub. No 11-22-78 Page 14 of 21

• F.vnluntion Program Qual.

Method Heference rest 6 l'est ~ 'rest 6 Eval B'ootnote 1 "l Data. Evi] 25. Eootr Inti:. ~ Eval Footnote l Time based on smalJ break LOCA. 'Tu!a+. I(; Test 6 Test 6 I!,'val Footnote 1 V Data, Evi 1 22, Foot! ote 3

• E:val Footnote 1 Time based on smalJ I

MSLB. Test J8, 5 Test J8, 5 , 'J.'est

18. 5

'l'ime based on need for long-term cooling.

11-22-78 Pa3c 15 of 21 flenct.or: Palisades Systemntic Evaluation Pro~rnm SEP Environment I Submittal Time I QuaL E~111i pment 'fype Heference Loe. Heede( Parameter I S_eec. I Qunl. Method Reference

• Specification reduced based on time of use (time needed) argument.
  • Time needed is based on the time when the circuit could be de-energized without interfering with functions needed to mitigate accident consequences.

In some cases spurious energization by a hot short of the proper voltage with substantial and continuous current carrying capacity (low resistance short) could interfere with the desired equipment function. These kinds of shorts are judged to be highly unlikely.

• • • 'I'he FSAH value of 2xl0 7 R is for a 30-day LOCA dose, assuming 100% core melt, plus a normal l10-year dose.

The specification value was reduced to 2xl05R based on the following: (1) Time needed is approximately 10 minutes in the worst case which corresponds to 2xl06R. (2) A realistic assumption of 10% core melt which corresponds to 2xl05R.

• • • • 'l'he specification value was reduced based on time needed and location geometry ( ie, mounted against substantial concrete wall).

General Note --- To the best of our knowledge, no cable splices exist at the Palisades Plant. I I

FOOTNOTES 11-22-78 Page 16 of 21

l. The safety-related equipment at Palisades that could be exposed to Environ-ment #l but does not have chemical environment qualification data available is listed on Table l. The chemical portion of Environment #1 has been de-fined as the containment spray water-containing boric acid (1580 m.g/l to 2410 m.g/l) and sodium hydroxide in solution at a pH between 7 to 8.3.

An effort was made to determine the exterior surface material of this equip-ment. A search was made in Perry's Chemical Engineer's Handbook and Kirk-othmer' s Encyclopedia of Chemical Technology for an indication of the relative corrosion or chemical resistance of the materials in slightly alkaline solu-tions and dilute boric acid. The solenoid valves have exterior surfaces of brass and painted carbon steel. Brass and carbon steel were found to have rat{ngs of fair to good for re-sistance to slight alkaline and dilute boric acid solutions. The terms "fair" and "good" were not defined in terms of specific corrosion rates (such as mils/yr) but were presented in the references as guides for selecting materials for processing equipment where long-term exposures are involved. The solenoid valves on the attached sheet are part of the service water con-trol for the containment air coolers. A containment high-pressure signal that initiates the sprays would at the same time generate an SI signal which requires action by the solenoids on the service water discharge from the coolers. These solenoids would, therefore, have no requirement to wi.thstand the chem.ical environment in order to function in response to an SIS. Corro-sion failure of the solenoid valves could occur during the long post-LOCA period. The casi.ng material on the containment air cooler fan motors was not mentioned in the* available file references. It is assumed to be painted steel, but fhe type of material is unimportant since the motors will not be exposed to the full chemical environment. The FSAR describes the fan motors as being directly connected to the fan wheel; the fans are vane8.x:ial type. Paragraph 6.4.2.3 of the FSAR states that the aluminum fan blades will be unaffected by the containment spray solution due to dilution with condensate and re-moval in the pathway through the filters and cooling coils. The drive motor casings,*then, would likewise not be exposed to the chemical sprays. It appears that qualification for temperature, pressure huin.idi ty and radiation parameters would be adequate for continued operation. The pressure transmitters listed were described as having aluin.inum top covers. Corrosion of aluin.inum in a caustic and boric acid spray environment will occur and has been addressed in the FS.AR under hydrogen generation in post-LOCA conditions. The location of these pressure transmitters provides them with shielding from the sprays by the 607 1 El floor slab. For similarly located

11-22-78 Page 17 of 21 aluminum the FSAR assumed no corrosion for hydrogen generation. Some of these transmitters w'"ill become submerged at which time failure by seal leakage and internal shorting would be competitive with corrosion. PT-102 A through PT-102 D will have served their function prior to submergence. PT-0751 A - D and PT-0752 A - D are required only for steam line and feed line break events. The effects of submergence on these pressu=-e transformers is discussed in our March 23, 1977 submittal. For the cables listed on the attached sheet the known exterior (jacket) materials are polyvinylchloride (PVC) and chlorosulfonated polyethylene (Hypalon). The jacket material for cable ZCX is unknown; the material is not mentioned in the Palisades cable description list or any known purchase specification. For PVC and Hypalon the references mentioned earlier describe both materials as being resistant to dilute alkali and mineral acid solutions. It is inferred from this that these materials would not undergo chemical attack by the sodium hydroxide and boric acid_in the spray water. The cable ZCX, for which the jacket material is unknown, is the coaxial cable for the power range safety Channels N005 through N008. It is not possible to offer an opinion on the chemical resistance of this cable. However, again, the protection functions will have been completed prior to initiation of containment sprays *. As mentioned earlier, the chemical resistances were obtained from standard references. Unless a material was listed as being "resistant" or having "excellent resistance"*to chemical attack by dilute boric acid or slightly alkaline solutions, it was assumed that failure due to corrosion would occur. 2.. The cable testing was conducted at at least 49 psia which is less than the required 67 psia. However, both temperature and relative humidity met design conditions. Since the pertinent qualification criteria are temperature and humidity. for cables, _it is concluded that the qualification data is accept-able.*

3.

The radiation qualification data cited in these sections is the result of vendor contact or purchase specification requirements. In no case is it evident that the equipment was actually tested to failure. Thus, it is felt that in all these cases the radiation levels cited are the minimum levels with.Un.specified margin to failure. Further, for the case of the pressure. transmitters (with the exception of FT-103) the safety function is over within the first few minutes and, consequently, they would not be subject to the full LOCA doses. 4.. Due ta lack of conclusive data relating to the environmental qualification (radiation) of the ASCO valve model Number LM-831614 replacement valves have been ordered and will be installed during the next appropriate outage after receipt of the new valves. The failure mode of the existing valves (LM-831614) is identical ta.the failure mode of ASCO valve model Number HT-83l6A77 as noted in the Big Rock Point Plant (Docket No 50-155) Environmental Qualification submittal dated February 24, 1978 (ie, solenoid valve failure will result in the venting of the control valve and the valve will remain open)

• 11-22-78 Page 18 of 21

5.

The nuclear instrument channels are included in the list since they provide a reactor trip function and are used in the accident analysis to terminate a variety of over power transients. A review of the currently effective accident analysis has shown that credit for over power trip is taken in only one analyzed accident of the type that involves breach of a pressure boundry and the consequent adverse environment. For this incident (rod ejection) the trip occurs less than one.second after breach of the pressure bound.."""Y and it is antici-pated that at the time of actuation the environment at the location

6.

T. of the equipment would still be essentially the normal environment. The nuclear instruments provide a backup trip for small break accidents. however, current analysis (CENPD-l3TP) takes credit only for the low-pressurizer pressure trip. Although the time frame may be longer than one second these trips also occur relatively early in the incident (see for instance, top of Page 131 of CENPD~l3TP). Special Report Number 6, Revision 3 dated 6-30-75, Paragraph 9.4.l states that Items 3-1/1,2,3,4 were located outside of the MSPR and are redundant to SV-0508, 0510,. 0514 and 0524. The vendor data sheet for Items 3-9/1,2,3,4 indicates that these solenoid valves are rated to operate with80-100 psig air at 300°F maximum.. Paragraph 9.4.2 of Special Report Number 6 addresses Items 1-10/all. These solenoid valves were relocated outside the fan room in a weather-tight cabinet with tornado protection. M0-3008. is a part of the SIS System and receives the safety injection actuation s.ignal (SIAS), within seconds following a LOCA to open the valve. Operation of the valve will be unaffected because water elevation in the containment will not reach its maximum until approximately 20 minutes fallowing a LOCA. If M0-3008 fails at this time, the valve will fail "as-is" in the open_position. (Reference 9) During* testing of similar Limitorque operators (FTRL F-C3441) the test units were subjected to severe flooding with steam condensate during the first few days of the test due to clogging of the condensate trap on the test chamber. The units performed satisfactorily throughout the test in spite.of the flooding.

8.

• The pertinent parameters for junction box qualification (Items 3-10 and 3-15/5) are pressure and submergence as the terminal blocks within the junction boxes have been qualified for all Environment l parameters (Reference 13).

None of the above referenced junction boxes are sub-merged. Further, these junction boxes have a 1/4" hole drilled in the lowest* point to allow for pressure equalization and drainage. For the junction boxes referenced in 3-14/5,6,T,8 the equipment asso-ciated with these boxes functions early in the postulated accident while the environment is essentially normal

• ll-22-78 Page 19 of 21

9.

FIRL F-C2870, Page 4, states that the cable was subjected to an air temperature of 290°F for fifteen minutes during irradiation. The cable was subsequently subjected to a steam environment. The temper-ature-time profile during the test closely approximated that calculated for a large break LOCA. Since the environment the cable would be subjected to, if submerged, is not more severe with respect to temperature and chemistry, then the unsubmerged environment, the cable can be expected to perform satisfac-torily submerged.

10.

The submerged and environment is not more severe than the unsubmerged environment with regard to temperature and chemistry; therefore, the cable can be e..""Cpected to perform satisfactorily when submerged. ll. Cable X-23 (Item l-17/all) can be shown to be-constructed of the same materials as cable X-22 (Item l-16/all). Cable X-22 successfully with-stood testing with a pressure of 70 psia. Cable X-23 (Item 1-17/all) will be submerged. The submerged environ-ment is not more severe than the unsubmerged environment with regard to temperature and chemistry; therefore, the cable can be expec_:ted to perform satisfactorily when submerged *

12.

Pr-0103 instrument provides indication only; no control function. PI1-0l04 installed during the 1978 refueling outage has a range of 0-~00 psig and provides an additional source of pressure indication. F'T-0104. is a Rosemount model Number ll52 pressure transmitter with design qualifications.verified by Rosemount Qualification Test Report Number ll74l5. It meets Environment 1 re~uirements with the exception that radiation qualification is to 5 X lO R

• ll-22-78

?age 20 of 21 TABLE l PALIS.JI.DES SA..t<~TY-RELATED EQUIPMENT (Without Chemical Qualification Data for Environment #1) Instruments (Palisades Tag No) SV-0861 SV-0862 SV-0864 sv-0865 SV-0867 SV-0869 SV-0870 SV-0873 PT-0103. PT.;.0102.A to.D Pr-0751 A to D Pr-0752 A to D V-lA Motor V-2.AMotor V-3A Motor V-4A Motor Ex-terior Surface (1) (l)Brass Body, Painted Steel Coil Cover (l)Brass Body, Painted Steel Coil Cover (l)Brass Body, Painted Steel Coil Cover (l)Brass Body, Painted Steel Coil Cover (l)Brass Body, Feinted Steel Coil Cover (l)Brass Body, Painted Steel Coil Cover (l)Brass Body, Painted Steel Coil Cover (2)Brass B~dy, Painted Steel Coil Cover (2 )Bourdon Tube Housing. Aluminum Top(?) . ( 2 )SS316 Bellows Housing, Aluminum Top (2 )ss316 Bellows Housing, Aluminum Top SS316 Bellows Housing, Aluminum Top (?) (?) (?) (?)

• Cable (Palisades Cable Code)

X2l.. X22 X23. X24.. X25 z62 101 XZ2 zcx g~Automatic Switch Co (ASCO) Catalog (3)Fo:x:boro Co Equipment Manual Palisades Cable Description ~;~Polyvinylchloride (3)Polyvinylchloride (3)Polyvinylchloride (3)Polyvinylchloride (3)Polyvinylchloride (3)Polyvinylchloride ("=<)Chlorosulfonated Polyethylene ~ Polyvinylchloride (?)

l.

2.

3,

4.

5,

6.

7,

8.

9.

10.. FIRL F-C2404-l FIRL F-C2525 FIRL F-C2870 PALISADES DOCUMENTATION RE._"'ERENCES Laboratory Technical Information Report, File #6710-8 ll-22-78 Page 21 of 21 Special Report #6, Rev 3, Dated 6-30-75, "Analysis of Postulated HELE Outside of Containment 11 FSAR, Paragraph 6.1.3.2 ASCO Engineering Report #112, 6-4-76 FLttL F-C3441 Letter Bixel to Purple, 2-25-76, ECCS Analysis Discussing Fail-Safe Function Letter Bixel to Schwencer, 2-24,....78, Response-to Letter of 12-23-77, Environ.mental Q;ualification ll. Letter Hoffman to Keppler, 4-6-78, Addendum to IE Bulletins 77-05

12.

13.

14.

15.

16.

17.

18.

19.

20 *. "1 22 *.

23.

24.

25.

26.

and 77-05A Response Letter Hoffman to Ziemann, 4-12-78, Revision to Environmental Qualification Letter of 2-24,....78 Letter Beckius to Narutsch, 4-13-78, Qualified Terminal Blocks for Palisades Junction Boxes Engineering Specification for a Neutron Flux Monitoring System, Specification Number 2966-421,.-S-004., 11-28,....67 FSAR Section 14.o Cable Environmental Testing Wyle Laboratory Test Report Number 51542-3 FSAR Paragraph 6.6.2.2 Fisher Controls Co, Laboratory Report #4, Dated 6-12-73 FIRL *F-C4197-l Qualification of Electrical Penetration Assemblies for the Palisades Plant, ST.AN 07,....78, 7-20,.-78 Letter Bixel to Keppler, Response to IE Bulletins, 77-05, 77-05A, 12-8-77. Affidavit of.Anthai::J.y A Glowacz,. Former Vice President of Viking Industries Inc, 12-6-77 Viking Industries Inc, Qualification Test Procedures for Electrical Penetration Assemblies, #118, ll9, 120 Letter H V Ackerman of GE to R Wischhusen of Buffalo Forge, 10-12-78, and letter R Wischhusen to D Moeggenberg, 10-16-78 Letter D E Moeggenberg to SEP File, 11-20,....78 Engineering Specification for Instrument and Control Equipment, M-234-A, 3-13-78

ATTACHMENT II ENVIRONMENTAL QUALIFICATION OF SAFETY-RELATED ELECTRICAL EQUIPMENT CONSUMERS POWER COMPANY FORMAT

i.:1111111111e11t. I.lot ( £1!!1l) lie c ti 011 A 1 1.oo:a u on 1'::11 J1yu~1ul __ r1111ell~- Areolfu!!t.1 000111 nv 11061 Imm ll'rovidu Cooling I q rll0* 111i1 .. :BU lluter Lo Contuin* meut Cooler ne-1:lrcul11l1ng Funo BV Oll62 llllfl f leo I llV 011611 mm I I Yeo t flV 01165 mm t

• Yeo 6V 007J aun t
• Yeo UV 0870 mm t
• teo I
• BV 006*1 mm t

I teo av 01169 1nw11 I I UO

• J 350 I sws I Junction Box for c

No Control Wiring to Sc:t"v. I/tr. CV'* tor Cont~in. Air Coolers VllX-1 VIIX-~. J 355 I ' I Junction D~x tor I C I No I Control lllrlng to Sorvlce Water CV for Contsln. Alir Cooler VllX-2 1.l1111l h11' ~II v I t'l)l.Ulf!ll Lr. l llu11ufacl.urc1'/IQ11ol I flcollon HM~lJ!JP.tl_ __!1tJL(:rl!__ I Autoriiotl c 611 I Euvl roument Co Ho l Ut-831,61*1 I

• I t

I

• Steel Box I Environment W/Ga11lteted No l Hinged Cover W/Ha11ting-hou11a Stylo No. 8o5l132 Terminal Block

.I Rev 1* (4-11.;.78) EuvJru1wenl11l lloulgn lltu1l lflcuLlon rulln111h>0 1::----,r.::-----:--1=--:~.,-,,--~----l llheet.

• l l'reouure Tt:IApgrnlure lln*ldlly Rrutl-

J!l!L. __:x, ____ i_ !l!JJ!!! Che111leal11 Mol.l101I, 1 f Ct11111f l'J C:U lf 1111 70 283° 100% llll J.O li **ootuote 10" l lltulo f I I I t t t t f I I I I t f I I t t t t I t t I f

• 1 120 31100 100% nu 2xio 'l Footnote Rads i

~ ,a, I -l:?f }.3.2(d) 1allflcatlon by Valve ffcgtlon for Sindlar

• Refer to Footnote 3 1111d Ii.

r.! 01"f-U1u-flhel r Ite11 ks a.r" q1111ll tied for Report fZ~-TR-77-83 er 13, 1977 on! llortheut vice Col:!f*ony Report t~d ~larch 2'l, 1976. rsdlotlon by engineering Weatlnsbouso Research O.Above. lllxel 'l'o ruqtla llute ] A11ulyul11 lllnc11011Jna f'tmcllon" te e

Llw ILh13 OllldCl)lo.l flcol.1011 ler!ll l.ocat.lon Envh* 'l'nn I l Function -:---ii~~~--1 Ho1111f1aclurer/ (}110\\l _JI!!_. yu cm _______ 1,A._r_...e_.o Bub lloom (fodel (TIJ!!L _lli:l VlA mm Gonlnl11me11t c No F.!lS Coqlcr Heclrcu-* lotion Fan ~bLor V:!A c No V]A .c No Vl1A c Ho llil lrlcnerul Elcc 5K-1105-YK (Motor) for 68K-55li8 (Fun) I Envlr llo l onment I B11vlm1111:qnlnl l>t::11lgn ClunllflcnLlon P1*011.c111re *renapgrolurt: llu111ldlt:1 Rodl-f'olo. [ t oUon Chc11tlr.11olll I 10 263° 10~ 1111 8 Footnote !~?,.. R. l I I I Rev 2 (11-22-78) l'allarulco Sheet 2 Of 27* ---- H*:lhocl of li,111111 f J,!al.111:1 mAR. Paaeu 6.2-1/6.2-2/6.2-3 -23. 6-21, l/6.J.11.2 (Motoru) Pugce 6 Purueroph 6.3.2. f,elter lleport* Gl uatl to 6\\lurte b). lln<Jlntlon uu vc11Jo1* dunce. 3/10/10 (Wyle I.fl l11t11 obt.olncd fa** ' co.rrcu11on II

• l.ocatlon I

t'um:Llon Monuraclurer/ Ar!!..Dub ~ Hoole l (*rxne l T111!

• lyutcm

-11!.!_ IP r.rn Control c llo 1111 llel1an9e Eleo I/a lvu (I.ti tor) Com11any *ladel II) ]00"( i,::J:.J Mt.117061 L'l' IU.j009 Elm t c Ho

• I 1¥1 ]062 ms t

c Ho t HO 30611 E:IS t c Ho t t ,..,, lOll Efl:l t c Ho m 301] ~11 I c Ho IU Jo66 ~:J I c llo Ill ]060 l!:BU I c llo t t l.l111lLinR !41v J ro11monl.ul Peu J en flunl ~nv l 1*on111c11t6l Quall flcotlon rreeoure Tt'lllpgrnlure llumldlly Criteria _f!!!a_ f Environment 105-35 332°-220° 100 RH Ho 1 t t t I I

• I lficntlon Pal1&1uleu

...------* Sheet. 3 uf _. ___ 21.;.__~ Rudl- !!Im! ChcmlcD111 2xio6 Dorio Acid f F3AR Pagea 6-12 1 Pora 6.1.3.2 Pagtta

• 6-l2b, 6-12c Usina Limltorqno *lodol IS*lll-0 Valve "1th Polluade11 'l'yt>e OJ>crutora Document (Certification)

Frankl in Institute Research Lab - Report Qual 'J'c&t of L1111llorque Valve 011eretoro In Simulated llx Contnl11u11:11t Pout-Accident Steam En vi ronn1ent Sept 1912 F-C311l11

Tog l.ocatlon lyulc111 Funcl.lon _U2___

• -~~~~~~- !!!!!. Bub -8!!2!!L tn 30011 l:lm J.P 818 r.ontrol Vulve (1-lotol')

Ul ]010 WI ]01:? O* c c Yeo 1 1~1 llo Ho llo Ll111l lh111 l*:nvl romacnl&l HonuCocl11rer/ QurtU f!cot.l.011 Hodel {IYJ>e} Uri terlo

• Relidl_lce Elec l!:iav I romnen t.

Compuny Hmlel llo 1 IY22010'1A~ Dll t:i1vfron11c11l~ol 1Jc0Jg11 CIU11ll l'reeoure *re111pgri:ilure Humidity l'ula [ ~ Rndl-at.tou Cbc11lcalll 105-15 112°-220° 100% Rll 2xio8 Borio Acid I l'all 6R*IUO Sheet. ~ Helhod of* Clllll ll r Jeri I.I Oil FBAR Pg 6-12* Poru 6.J.3.2 Pg 6-12b 1 6-12c Ualng Llmllorque lbdel 131-W-O Vulva With Pallendee Type 011e1*bt.c.r. llocmueut. (Cert.iflcat.ion) Rer: Franklin Inotltute Reueorch Lab Re1iort Qual '!'eel of l.imitorque Valve 011urat.ore ln 61mulated Rx Contlllnrnent Poot.-Accldent Ot.eum ~:nvlromuent Sept 1972 IF-c311l11 Ref Letter Bixel To l'ul"l*le llut.o 2/25/76 ~CCU A11olyeh

l.ocatlon 'l'ug 1 l Po.111utloii

• .--..----* Munuract.urer/

_ff!!._ yu can __.. _. _____,Area.!ML.J!!2L tt~el Cr.11!£L m ]007 1ma llP 813 Control C llo VuJ.ve (Operator) m ]009 c Ho IU.)0112 c Ho m ]Otila c !lo l*kl ]011 c llo m 1013 c Ho m ]0{.6 c rlo m ]060 c llo ll1 l Phil *~ear - l.11111 torque Hod IB.. D-3-10 ( 1.lmll;/'l'orque 8\\1) t 1.1111 t.lnn F.nv I roruncnt&l Qulllll fl cu Lion C.-llerja En v l rumnent llo 1 I t t I li!i1vlro11111enlnl llcul611 Qun1JflcnL1011 rrcauure Te111pgrALure llu11ldl ty na11l-Che*lceln ro 111 [ ~ otJ.m! 105-35 375° 100 1111 !xl06 Borio Acid t I t I t I I

• I I

I PaUumloo 6heeL ~ _ er 2*r 111111 rao.:al11111 Helho*I of Q f'9AR Pg 6-12, Pu ra 6.1.J.2 U'g 6-12b, 6-12e I l:1l11g l.lml lorquo Ve with

• bdel ISHll-0 Vol Wallaudeu Type 01 1erutors

)ocument ( CerlUl cat.lon) Ref1 11-'ranklln lnalltut e Research l~b - lleport Quul 'l'eat of Operators Contulnmeut .lmltorque Valve ln Blmulaled Ux

• oet-Accldent Bt euw 1':nv I romucm t l

lept 1912 IF-CJl1l1

Ll11l Lina rnnunt.11.i I col.Ion crjo. 1.ocu.t.lon ~nvlro 1'n1: --,,--.,.----* Manufacturer/ Quollf _fl!!_ lyGlc111 __ 1_*,_11_1c_i._1_o_n __ i\\reo.. ~ -11!!2!9.. l:lodel (l*xJ!!:.L Jr.!! MO 1008

• .:m1 IJ> 1113 Control C. Yea Volve (Operator) 1'13 Phil *qear -

Ei1viro mnent Llull tor1111e Ho l llid llJMD-l-10 1111 ]OLO C No 110 1012 C llo C !lo ~1vJ.&*on111q11l.ol lhmJ sn Q1u1ll Cl cnllo1' r1*eouure *rcmpgrnlurc llumldlty Rodl-Che111lcalll ..J.!!L. l ~ 9llo11 105-35 3"/5° lOO:C 1111 !>tl08 Dorla Aclol I rolhn*l*m Sheet 6 oa* 2'( H*ilhoil or* 'l*1:i 11 f lcnllon ~'SAR rs 6-12 Poro 6.1 PR 6-12b, 6-12c U11J11g .].2 Llmltorque 'ulluodeu -lodol ISMJJ-0 Vulve \\I/I l'ypo Operator* l.Jocument (Cortlflcati Franklin Inutltute Re Lab - Report Qunl Teo l.l111ito1*q11e V11l ve 011er In Simulated Rx Conlo on) Ref uenrch t of ntore 1111n1mt 1vlronment Poot-Accident Stenm Ea lept 1912 n*-c3l1l11

e.

l.l111l l l1111 l.oca ti 00 l~uv h*onaacnlr. l Toa lyolcw ruucLlon --,,--.......,~--*Ho11uf11clur11r/ lluol I fl cation _Ji!!_ _______ 1Area 1M.!_ _.Il22!l. tloitol (Tyl!£}_ Cr! Lel'ln Pl' 0101 l'rooourlzor llld.12-llonae ~ndlco.tor c Yeo Foxbo'ro Co l*lodel

• 1611011 ErivlronnienL Ho l Rev 1 (4-11-78J Rev 2 _(11-22-78.)

"~1vlrn11u1.:nl.nl 1lc11lu11 Qu111lf11:nLlo11 Pul 161111.u; rrcooure Tcmporolure ilumldll.y R11itl-1l('I 1 1 Hclhml of ltnal ll'lcnl.lon l'ola of ~ !!tlou. 'ie* ca II ------------------ Bl1eeL _ _...T_--'-. of _ _E __ _ 10 100% 1111'.1Xl07R t'oo~note lof1

• ~ '.. ;

l FflAll Pa 6-l:!c. P11.r11 6.L 3.2(c) \\1* 1 ~ J 'l'eot Model 1611 - Added Ret B11eO llo lOP-010. 1'3 0103 0~1* 010]) Jnut1*111uent l'rovldes Ir11Jlcutlon OnJy 1 llo Control **uuctJon. llu*llu-tlon Quul UlcuLfon ll11l11.

by.vendor contact. Refer to

! Footnot' 3. l'T-Oioli 1nalnllc4 4u1*ing the 19'/6 refulelng oulnr,u bu 11 rung" ot 0-600 pslg and provhlc:s on mldlUonul snm*ce ot preu11rc lmllcaqc*11. 1"r-01ot1 ls 11 Roaeo.ont n.. ll'l nuniber 1152 p1*enaurc tran111ultte1* vi Lh deolr.n quull fic11tlon11 vcrlrled by llooct:Dnt Qunlirlcntlon Teut Report llo 11711\\5, Hee to f!nv l ronm-,nt No l requl rc111e11tu vi lh the excc1*tl 9n that -l'adlnllon qu~Utlcatlon la to 5:dQtJll,

l.ocatlon 'foe lyolcm t'1111cLlon _f!2_

• --------*~ 1.§!!!L _J!2ga_

M 69A VAii llydroaen Recom-C VAf.l blnen for II Control (Poul-Accldunt) c Ho li20 Ho Ll111ILh1B E11v I ror1n11mta l Ho1111raclurer/ Quall fl cot.Ion rJode l {I.H!!!} n[}t.erJa WeuU11shou110 Environment 5li6-cxn-Ho 1 190931-DN ffeuttnghouue 5116-cxn-190931-Dll t:nvfronmenLRl Pculgn QuuUflcnLlon l'al111uclct1 ShceL 8 of 21 1're111mre Te111J13rolure Humidity Radl-Cbe111lcalli Ht:lhod or* Q.11allflc11L1011 folo. f ~ otlon 11 286° 100% 1111 ~xl~6 pll 10.5 11er1 Tech Hunuo.l (Heut1ngbou9e)

!500 Pl'H Electric llydrouen Recom-llorlo blner Date Auguot 6 1 1975.

Acid Document l/26/12 - Ga*ecm fHAOll to Hayuord Indicules USAEC/DRL Witnessed Performance Testu 11 266° 100% IUI ?x108 pll 10.5. Ref a 'l'ech Hunual (lleutln15houoe) 2500 PPM Bame as Above Borio Acid fHAOll I i

1.11111 Linn l.oc:atlon f:J1 v I ro1:111c11 t.r;. l 'J'or, Hanufoclurer/ Quoll fl call on _Jf!L__ Jy11lo:in ru11r.L1011 Ar£!.lli!!L 1!00111, Hodel f'J'Jme} -.Jkl!illa. I flV 0507A M:l:I CJ ouo Hal 11 (Von I. 'J'D* No n 0 r.ounmco llonoal Ulq111* Iool allo11 f.bdel 0 125~311 Envlro11me11t Vulveo CV 0510 Ii llC3 O~)Ol UV 050"1U HJU Ho UV 0505A mu lllouo Muln 'I'll 110 RGLaurence fll11W11 Iuol atJ 011 Model Vulvaa CV 0510 Ii llOll.4 WCS 0501 UV 050511 KJl:J !lo 3V 2113 l.'t'C: c No Aut.oauu tJ c: flw l::uv h*o11111011t. eve 011c1*ul.:u Chu1*~l11, Co llo f'* l.iuu Vul v11 WPxllVA 202-301-:!F

JV 2U5 J.'l'l!

c Ho Aulo1111lllc fl11 cvu 011or11Lco Churgl11 C*> t.1 nc Vul ve WP11llVA 202-101-2~*

JV 2117 l,'J'C c

llo A11Lo1uullc "flw eve 011crulcB l'1*cu-Co 11111'1 z.,,. t1111*uy Vulvc u*rx 632UA l6V t:i1vlrnrno1111l.11l Pc11l191 Cl1111llflcf&Llo11 Prcusure *r e111rgr11 l11 re lluraldl Ly Racll-Chc*lcalli fglg. r ll t.I flll 15 \\!l '.,., i~---llO f*:*.' fioo\\1. llA HA I 115 . I llO

• 1 100 ~

HA HA I 60 203 loo nu

!11)07 Uorlc Ac14 i' pll 5.5-6.5 I

~11101 60 203 100 1111 lorlc i'\\cld.. 1111 i.5-6.5 66 28] 100 1111 !xl07 lol'Jc \\cl4

• pH i.5-6.5 i

Rev 1 (4-ll-78) -Rev 2 (11-22-78) P11l I &1ulllo Dheel 9 uf 2*1 tloLhod of c11111 ll f h: 111.1011 nororence ll1>eclul llopoa*t. Rov 3 llatod 6/30/"/5. Re Outsldu Main Bleum Panel 110011 Redundent. llc:t of llV f:IV-0506, 0510, 05111 1111d (Paro 9.11.1) As 11bovu.,xce11t - 16, locale ii 1*utlo11. o lo 05:!11 llodundunt se't of 8Vs to 05o6

• 0512 und 0513 (Paa*

flV 0502, 11 9.11.l) lluf llUl"ChUSll UjlCC uud C complluuco AUC.'O fon11 llo o:rt of 211511!11 1ccrJ11g Jute i./13/'/6 1 AUCO lo:uuh llllllOI"~ 1112 Jutu 6/11/"/6. Ao !)hove. lef 1*urcbuoe u11ec unJ cc 1*t ol' 2*15U111 11:.:rJ11u !oru11l la11cu AflCO 1'01*111 llu late l/15/'16. AllCO Enuli loport IH2 dutc 6/l1/'f6. i ll i I I I ' i

11 I

i.

Rev 2 (11-22-78) ,. I I .,_.,M _Jl:B ly11tcm FuncLlon llV 0'1'1911 m:i Operutlon Bteo11 I AD f uo i::i.de Dlunt> Vul vee fR cv OH9. o*roo 0781. 0762

1v u*1011u I 1-tiiJ I I AD Illa I

• 1.l111ILh1R

~ivlroo111entlll lk!ulen Qiutllflcnllcm l'oiJ u~ l~nv I 1*on111c11tlll Sheet f.lo11ul'acl.urer / Quall fl cot.Ion P1*eaoure 'fe111p3ralure llumlcUly Reill-l!od11l {Tn1e} C[I terJa . ra10 [. t ntlon Che*lcal11 "'lllho1I of Q11"1lflcoLJon Magnetrol/ ;J L Helocated -" 15.,\\\\:. d 110**1'./ 1~:1{_70 ' HA HA lloference Repoa*t 6H 16 D11.ted

• 1*

18A43 I Outuldo of i Rev l 6/]0/15.. Relocated Out-I' tilde Fun Room (FIR) In Weotber-I Envlroruacnt llo Ii l'ight Cobinet. Wlt.h 'l'ornudo Protection (Para 9.li.2) e r.v 0*1u1n 11:m I ' I AD ro I

• nv O'fO:w lll:J
• AD llo t

UV U7'19C ma I I AD INo I

• UV O'fllOC l-tl9 AD llo Magnetrol/ i 18AR43A t

t t ~ i nv O'ffllc 1-U:J I AB Ho UV O'fU2C IU:J AD No I e I

T1111 ly u t.c111 Fune t.l on _JIQ_ t:/I' O"l'f!> rm "'" 0"{00 1-:/P O"llll l~/r O"fU2 011erutlon *:1te111u AD No 1lu111p V11.l VCB GV OH9, 0780 OJ!h, 0702

• 1*1*01mrt.lon I n11 Coutrol.

AD Ho AB No AD llo iutuidc. Flutui~ FR Governor Company

• r1pe 5116 1.11111L11111 F.nvlro11me11t11l Quall fl cation crlt.erla llor11111l Envl romnent.

t l::uvfronmcnLnl lleulsn Q1ulllflcnllo11 Preouure *rempgr11Lure lluDll ci It.~ Oadl-Cbeial ca 11: 1*11111 f nllon 90.1 . 320° 100% Rll >x101 Boric Acid t t I PnUsudeu 5heeL __ n __ of 21 Hclho.J or Cl11111lflcnl Ion

Reference:

L.

12.

l.

1

• Opecinl Report. 16, Re v ]

a Led In vlth u*u Dated 6/30/75, Reloc out.aldo fun room (FR) vee.t.11ert.l 11ht. cub! nut tornado 11rotectlon (Pi 9.li.2). Fluher Controls l~tte I.ob Repo1*t Ho 11 Ii 9 d 0/12/17 :* Lett.er of Radiation Q cation dated l/2li/'fU. r v/ uted Ullll fl-l.et.t.er to llRC-Dlxel-P1 ll'ple li/15/16.

Llrul Lina ~nvl ronrucnta.:i. Quell fl cat.Ion C£lt.crl11 'J'11c l.ocat.lon Hen11CacL11rer/ __Jill__ lyalcui __ "_1_11_0_t._10_11 __ ,A.,..r_e_n-.-B:::-11-:-b-.--""'n_oo_!!!_1 tlo.lel fTxJ!!tL l"l' O"l51A ~":1

Jc1*111a lluoclor r.

C

• Yea Envlronmont (Jloue HuJn lllcwn luolullon Vulvce lli2 Foxbdro Co tt:>del 1611 m I flo l 05W & 0501 From (ll1l I.iv l'a*cuuun*

1*1* 0751u c Yea r*1* 0-/5lC c Yee I n o-15rn c Yoe I I l"i' ff/52A c llo rr 0-15211 c Ho l'I' 0'152!! c Ho I I l"r O'l5W c Ho

1.

I Rev 2 (11-22-78) ** Envla*on11onl.11l PeuJga1 Q1111lUJc11L1011 P11llsndl!u Sheet. 12 of rreaoure *re111113ral11re ll11111l1Uly Rodl-Cl l l l'ole

• t:

i at.Jon 1em ca 11 Helhod or" <l113 I I fl Cl l 70 206° 100 Rll l 1Xl07 R Foot.note Ret; FBAR Ps 6-12(e, ,~.. 1 Pera 6.1. 3.2(c, ' I'\\; 4t 'l'eot. f.l11lel 1611, _!1 __ _ 1llon Spec1f1Cut.1on Ho lOP-010 (CE) I llmUalJou <luul l flc11Llor~ D1U1ed on I_ Vendor cori~a~ ll11L11

t. '.. :

I I ,1*._ I I t I. I I t I I I I t I t I I I I I

l.ocaLlon 1'oR lynlem f\\111cllon

• ~--.-:=---:--.-:~-* Honufaclurer/

_ll!!._

1w1* OlO:?A 111'8 PreQBurlzer C Yeo Pruuo flufety InJoctJon & lle-aclc.r flcru1q Chun 1el 1*1* 0102u C Yea l"r OlO:?C C Ya11 n 01o:w C Yea I J 521 Rl'S 'Junction Box for C Ho Control Wiring for* l"r-01020 Foxbdro Co 1.f6u-iiu Steel Box .1f/Guoketed Hinged Cover . W/westing-houoe Style

• llo. 8o5l132

'l'ermir.al Block Lh*1IL1nn ~llV I l"llllnlllllt&:i. Quoll fl ca lion C£l t.crlo Euvl ronmunl Ho 1 I I Environment Ho 1 EuvJ ro11me11l.ol Peol1111 Qunll rlcnlloia l'reaourc _}~ Te11porot.ure of l1111111dlt.y Rodi-Che111lcalli ~ ntf 011 10 206° 100% Hll ~~ii l"ooluole l I I I I I I 120 3~0~ 100% llll 2xio7 Footnote Radii l I Rev 1 * (4,.1v.78~;,. Rev 2 (11-22-78) P11lla11duo Sheet 13 or 27 Helhool of l}m1llfJcnll1111 FBAll Pg 6-1~ Pera 6.1.3.2(c) lludlotJou Quul HlcuL1011 lluLo Doucd ; vendor contact, Ref e . :f'>"i 'l Footnote 3. / ~nine ea J350 Above-race 1. r to,

1'PB l.ocatlon _Ji!!_ lyot.1:111 Fune Lion Area !M!....lli!2!L N 005 111'3 Pu1u:r Rongo C* llo Fl ux Cb:11111e l u N 006 Ho 11 007 llo 11 000

• ffo J 325L RPS Junction Box for c Tea Connecting Manuf acturer11 Wlre to ln11tru-ment Wlre tor H-005 J 329L RPS For H-oo6 c

Yes J 320R RPS For u-001 c Ho J 321111 Rl'S For H-008 c Ho vhonauml.nl llcuJg11 Cjuullflcnllon 1.11111LI1111 t.:11 t;uvl ro11m1:11t.e.l. e 'te1111mr11 lure o[ H1m11f11clurer/ Quoll rlcnt.1011 Prnoour Model (1'yntl_ <:rlterl.!!_ _ __l!l!_ OuU' "(leueral Envia*omnent Atomic NP-6 No l I Steel llox W/Oasketed Hinged Cover . Connect~rs . are A'"l'henol 7'1fl66-UG59-A-U ~- ~ Environmant Uo 1 Refer to Footnote 5. ~- l i Oo 300 I I ~ J, .1,

i.

llu111ldlly lln1U- ~ nl.!011 Cbc111lc*lli 100 RH ylOS HA R/11 1110U 11v I I I I I I t i I .i, .J, t .i. .J, I, i I Rev i {4.:.li~78).* Rev 2 (11-22-78) r11l lemh*11 SlaceL 111 Of --~ "*~lhol F1111ct.lon HonuCaclurer / Quoll fl co Lion I Arco Bub 000111 Hodel (l)l!e) crtterla X 21 VAD V-lA