{{#Wiki_filter:SZATXGif SiWGCZ UATER BJ"'1PS R03EBT E'2~~T'"'X"8K l~lUCL5AR+0"lL'R S'MGG'7 UKkT F~O.1>3ZSTXHQHOUSE h'(ZCTRXC COBPOHATXOiif ATO'.GC PCi7'R DX v'XSXOH PXTTSBURBH, B iKlSHVAHXA BLiQUXBEt,+ii HPP OtlTQQT$~BBOOIF100D PROuZCT RO-2204 September 16, 1966 GXLSHHT ASSCCXAxi;S, XZC., ZVC'rXIlEEHS

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RO-2204 9-16-66 L'B't'OP CQH'.~>"Ga lK"I 1:CO 1'01 1:02 1:03 1:C'!.3:0>1:C6 1 e07 1.08 1:09 1:10 2:GO 2:01 2:02 2:03 3".00 4:GO I.01 I.'02 4:03 GEiX~db~~'EQUXHKII';ITS Genei.'Q"~ox)osels De'~.ad..i;kans Lcuivuncni Cymbal i.~y Co!le!!m3.StmcLa"Qs Xih+)(!c Cion DZG~HQQs 81M1 XnQGZue.Sion 3ookS Cleaning, Painting a'd.Kovae~ion P'ee bIarIcinp J'odor and, IIotor Conv"vis Dz,ZA3.L P~~~UTZEKuiTS Zauixczcnt,.co be Qzpplie0.Eqm>>~en'uez+~-

by Oak"-rs Desic~a Dais DATA HEQ4wRED UXTH PROPOSAL PBXCEI AM)D:L'J~,)DY Prices DGCe Sop Su1zflssion o~PzoposQs Dele.%'ci'p PAG 4 1 1 1 1'2 2 3 3 3 3 5 5 6 6 1:00 GENERAL REQUIREMENTS 1:01 General 1:01.1 1:01.2 1:01.3 1:02, This Requirement Outline includes the essential information required by the manufacturers of power plant equipment to submit a proposal for furnishing the equipment covered by the DETAIL REQUIREMENTS, section 2:00.The equipment will be part of a nuclear-electric generating station having a nominal capacity of 450 MWe.This equipment will be installed as part of the No.1 Unit as the Ginna Project>Rochester Gas and Electric Corporation, located in Wayne County, approximately 18 miles east of Rochester, New York.This electric generating unit is scheduled for commercial operation on June 1, 1969.PROPOSALS 1:02.1 1:02.2 Proposals shall be drawn in the name of Gilbert Associates, Inc.as Consulting Engineers and Agent for the Westinghouse Electric Corporation,.

Proposals shall be submitted as follows: Original and five (5)copies to: GILBERT ASSOCIATES, INC.525 Lancaster Avenue Reading, Pennsylvania 19603 1 03.Attention:

Mr.H.F.Ulmer Chief Purchasing Agent DEFINITIONS 1:03.1 OWNER shall mean the Rochester Gas and Electric Corporation.

1:03.2 1:03 3 1:03.4 1:04 PRIME CONTRACTOR shall mean the Westinghouse Electric Corporation, Atomic Power Division.ENGINEER shall mean Gilbert Associates, Inc., an Agent for the PRIME CONTRACTORS MANUFACTUPER shall mean the successful Bidder for all equipment covered by this Requirement Outline.EQUIPMENT UALITY All equipment and services offered by the Bidder shall be of such quality as to make the equipment safe with high availability.

To this end, all items offered, including all accessories, shall be of proven reliability.

1 I 1 05 1:05.1 1:05.2 CODES AND STANDARDS All equipment offered shall be designed and manufactured in accordance with accepted current standards of the electric utility industry and shall satisfy all applicable codes, including state and local ordin-ances pertainirg to the design and operation of such equipment.

Where required, the MANUFACTURERS shall have.all pressure parts stamped by a certified insurance inspector and three (3)copies of the certified inspection report forwarded to the ENGINEER.1:06 INSPECTION 1:06.1 Inspection Shop fabrication and field erection shall be subject to inspection and approval by the PRIME CONTRACTOR and/or ENGINEER.Any inspection by the PRIME CONTRACTOR and/or ENGINEER shall not be considered as a waiver of any warranty or other rights.The PRIME CONTRACTOR and/or ENGINEER shall have free access to the MANUFACTURER'S shops for inspection of construction and for observing shop tests.All tests required for: certification of equipment shall be made at the expense of the MANUFACTURER.

1:06.2 Factory Inspection and Tests Prior to start of manufacture, the ENGINEER is to be notified in writing at least fifteen (1$)days in advance of those tests and inspections that he and/or the ORNER wish to observe.Four (4)certified copies of all factory test data are to be furnished to the ENGINEER for all tests normally supplied or as required to satisfy codes and regulatory bodies.1:06.3 Field Tests After installation, the PRIME CONTRACTOR reserves the right to make tests at his expense to demonstrate the ability of the equipment furnisned by the MANUFACTURER to operate under the conditions speci-fied and to meet the guaranteed performance.

These tests will be conducted in accordance with the latest applicable Test Code in effect at the time of the test with such modifications as may be mutually agreed upon between the PRIME CONTRACTOR and the MANUFAC-TURER.If the results of the tests conducted indicate that the equipment does not meet its guaranteed performance, the lSNUFACTURER shall, at his expense, make all necessary adjustments or changes to improve the performance to meet the guaranteed performance, All subsequent tests until acceptance by the PRIME CONTRACTOR shall be made at the MANUFACTURER'S expense;The Bidder shall furnish a list of any field tests of the equipment which must be made during installation and initial start-up.  

.3 1 07 1:07.1 DRALGNGS AND INSTRUCTION BOOKS Quoted price shall include the cost of furnishing three (3)reprodu-cibles and two (2)copies of certified drawings to be submitted for approval and three (3)reproducibles of final approved drawings for record.If reproducibles are not available, quoted price shall in-clude cost of fourteen (14)prints for approval and fourteen (14)prints of approved drawings for record.1:07.2 Quoted price shall include tne cost of thirty (30)copies of instruc-tion books covering all equipment being furnished.

1 08 1:08.1 CLEANING PAINTING AND PROTECTION Every effort shall be made in the design and fabrication of the equip-ment to avoid dirt traps.Internal surfaces shall be free of dirt and scale prior to shipment.1:08.2 All exposed metal surfaces, unless otherwise finished in a manner standard to a particular manufacturer, shall be painted by the MANUFACTURER in a manner approved by the ENGINEER.1:08.3 All machined surfaces shall be adequately protected against corrosion and damage during shipment, and storage.1:08.4 All equipment shall be shipped with adequate packing and protection provided to permit outside storage at the plant site with no addi-tional protection.

1:09 PIECE MARKING The separate pieces of equipment shall have matching marks to faci-litate assembly during erection.To facilitate unloading and erection, the weight of each major component shall be marked in a conspicuous location thereon with painted numerals at least three (3)inches high.1:10 MOTORS AND MOTOR CONTROLS 1:10.1 Motors All electric motors, where specified as being furnished by the bidder, shall be in accordance with the Latest revision of the ENGINEER'S Specification No.SP-5201.Bidder shall supply Thomas flexible couplings and coupling guards between the motor and driven equipment.

1:10.2 Motor Controls All motor control equipment will be furnished by others except as specified.  

RO-2204 9-16-66 2:00 2:01 DETAIL REQU1aKPSHTS Equipment to be Supalied The equipm nt to be supplied shall.'nclude, but is not limited to the following items.2:01.1 Four (4)Motor Driven Vertical Station Servic 3~'ater Pm@ps.2:01.2 Mounting of drive motors and any required couplings.

4~RO-2204 9-16-66 5 Alternate Gs BX!DFB 3.8 3 Goues'ted to sub"I" t G3.'i;GrnQ'VG bids fox'nJ'ifferent desi(in fe"-tures Yhicll'IIill~I""Grove t"G rcliabilit j'x lhese pumps and reduce maintcn;"nce.

P."zt>>cu.'laxn Atention is ca""led'~o methcds of c:ctend'~vg 1i fe~Sei mic 0"s"gn Pecu'-'rements ire Station Serv.'ce Inter Pcs hall be capable of>i~'~11sianding seisIIi.c loads G0LP..valentI to A/2 g in'the ver'vical and horizon't81 cU.rectrions 1rl~h bo+a motions o curring s93mltaneously, There shhi2.oe no loss of:.unction of the pumps;,"hen subJGcted to these accelerations.

MTA BEQ'Z(RED"iTTPik PROPOSE>3XDDZH sh'Ql subI33..t>I th his proposal comple'te data for the eciuipment offcrcd.inis data sh"->>include, out is not 1<ilni'~ed to the folloming:

Outline a!d section.I dra1Iings sho1ring principall dimensions, operating cad maini cnance clemances mid.vei~1;s o.." M~components.

S'tab 6'.Gn'c of guarantee 1)ascd on design conM.'Lions

~Tabul";ti3n ox aU.components sho-.iing materials of cons.truction and thicknes>or size, Performarxce curves sho>Iinv TDI."I I<.&ZI efflc ence and.brUce horsepoUer for varixus capacities.

Veigi t o::" heaviest piece to be handled for wintenance.

Pump spe~d.Descript,.on of~esses>lhich are specified, or recolmended.

Time recilxired, i;o submit certixnicd dra~ri.ngs a&er avard of contract.Time recou.red.

for delivery m.ter a;Iard of contract.List of recommendGQ.

spare parts.HGIIibcr QI~shaft bearings and ti'JUG~t'rlearanC!:

rGCiuireQ..i;O rerOVG pump fOr maintenI3nCC.

Statem~~ai:

of pumps-.bilig to rect, recluirelu nts of Sect on 2:03.6.23XCZ KiEI 17%7.iJa~i.Y Pginos Quots~ior.s

.'h:Q1 be submi~tcd on"-llmlp um bcsis including transpcr'ca1'ion to"~he jcb ciC.Bi&ler"hall cle"~'ly state his de1;ailed price policJ o:Xd'~czn:: of oaynlcni;.  

~'I 0~'0-2204 9-X6-66 013 C 1 0 JQ Prices-"h~'".he sumv.':;:ted.

<Or the lo&#xc3;01rj,rg:

Price 80 I IzP'hing serYzces 0"''0<0'9'3QGGrs to QQHG~'vl.Q KEG 3.nStGl.1.".tips ani.t,C."b"ua, Px'ice for fi~l3" G~Ge".'."QfLtQQ

~Price-QQ LtiOP fo'i'Q3~J'TlQci81 ZRccoi".j'r.cielQ tests>'rhich the 3XDDZP.YilskBs uo 0:PL(!: Or B1Rz'G Qv&i3i~l)lcm':oa DKi G for SllbD~.tti0~1 oZ~ozos~&D P oaos&<s AU price:>muse he ia the he310s 0::.the EiiGXHEIlR'8 Pm;chemin~

DeoczuzelTc I oc'uex uhG11 iloo 1~October 15, 1)66.DG iverv De].iyery is scheg~oGQ.

i'pr Qctobey'j.c+07i e~'1 I>~e IENT SPECIFICATION COVER SHEET'VGNOUSE FORM 54064 A I I PMENT SPECI F I CAT I ON 676228 DATED ('i I"I lt'.6 REVISION NO.DATED ORIGINAL ISSUE SUPERSEDES I'REVIOUS X REVISIONS ATTACHMENTS ROBERT BRETT GINNA NUCLEAR POWER STATION-UNIT NO.1 SHOP ORDER: RGE 210 SYSTEM: ALL SYSTEMS EQU I PMENT 7 AUXILIARY HEAT EXCHANGERS Westinghouse DIFg.498B932 Westinghouse EDSK 329359 Westinghouse PS-292722 Westinghouse Prelim:.nary Outline Sketchest MC-1257 MC-1258 MC-1259 MC-1260 MC-1261 MC-1262 MC-1263 FOR SUPPLIER'S CONVENIENCE

.";-.=.=..:.I.:~1 I ,.!.O.IIAIZD S..J.hI..,;.,:;,..

/7,:"'~REV~Nb.REVISION ENTERED BY Q DATE WESTINGHOUSE ELECTRIC CORPORATION Atomic Power Division P.O.Box 355 Pittsburgh, Pennsylvania,*

15230 ORIGINAL ISSUE APPROVAL REVe I REV REV.3 REV~4 AUTHOR SHOP ORDER HOLDER PROJECT MANAGER (8 F~/T~~/'OVER SHEE s.'age of P egos 1 I g~gg g'C Pi , EQUIPMENT SPECIFICATION

)This document contains proprietary information of Westinghouse Electric Corporation (Atomic Power Divisions) and is to be re-turned upon request.Xts contents may not be disclosed to others or used for other than the expressed.

purpose for which loaned with-out the written consent of Westinghouse (Atomic Power Divisions).

1.0 SCOPE The intent of this specification is to set forth the general and specific requirements of design,, fabrication, inspection," testing, cleaning, and packaging for tubular heat exchangers intended.for use in the auxiliary systems of a nuclear power plant.2.0 CODES AND STANDARDS REFERENCED The heat exchangers shall be in accordance with the referenced codes and standards which are applicable to the design, fabrication, in-spection, testing, cleaning, and packaging of the equipment.

All references shall refer to the latest revisions, addenda, code cases, and.interpretations in force as of the date of this Equipment Speci-fication.2.1.-References Not Attached:+)2.1.1 2.1,2 Standards of Tubular Exchanger Manufacturers'ssociation (TEMA).ASME Boiler and Pressure Vessel Code, Section IX-Material Specifications 2.1.3 ASME Boiler and Pressure Vessel'L~r 2.1.4.ASME Boiler and Pressure Vessel Vessels-plus addenda Code, Section XII-Nuclear Vessels Code,-Section VIII-Unfired Pressure 2.1.5 2.1.6 American Standard for Pipe Threads, ASA B2.1 American Standard for Steel Pipe Flanges and Flanged Fittings, ASA B16,5 r 2.1.7 2,1.9..American American Standard for Steel Butt Welding Fittings, ASA B16.9 Standard for Steel Weld Fittings, ASA B16.11~~WESTINGHOUSE EIZCTE CORPORATION ATMEC POWER DIVISION WAPD FORM 412 Revision No., 0 to Spec 676228 Page 1 of 23 Pages EQQPMENT SPECIFICATION 2.2.2 2 2 3 2.2.4 References Attached P Westinghouse Drawing 498 B 932,"Weld Preparation for Stainless Steel Pipe" Westinghouse Specification PS-292722,"Cleaning and Packaging Requirements" APD EDSK 329359,"Tube Seal Weld Requirements" Westinghouse Preliminary Outline Sketches: Number MC-1257 MC-1258 MC-1259 MC-1260 MC-1261 MC-1262 MC-1263 MC-1264.~Equf ent Regenerative Heat Exchanger Non-regenerative Heat Exchanger Excess Letdown Heat Exchanger Seal Water Heat Exchanger Residual Heat Exchanger Component Cooling Heat Exchanger Spent Fuel Pit Heat Exchanger Sample Heat Exchanger.3.0 GENERAL DESIGN REQUIRE~KNTS AND CONSTRUCTION DATA 3 1 The design and construction of the heat exchangers shall be based on the requirements given in pages 1 thru 7 of this equipment specification except as modified by specific requirements for the individual heat exchangers.

Any exceptions are described on the Exchanger Specification Sheets (pages 8 thru 23)and shall apply only to the particular heat exchanger.

Three (3)extra sets of main flange gaskets shall be furnished for each heat exchanger and shall be tagged"Westinghouse Erection Spares".ASME Boiler and Pressure Vessel Code Com liance I The design, material, fabrication, inspection, and testing of the heat exchangers shall comply with the ASME Code.The applicable section of the Code and the classification of each of the heat exchangers are indicated'by the Specification Sheets.All units shall be Code stamped and shall be assigned a National Board Number.WESTINGHOUSE ELECTRIC CORPORATION ATOMC POWER DIVISION)WAPD FORM 412 Revision No.0 to E-Spec.~66m8 Page 2 of~2 Pages e.', FggPMENT SPECIFICATION

)TEMA Standards as Basis of Desi n and Construction The heat exchangers shall be designed and.constructed to the requirements of the Standards for Tubular Exchanger Manufacturers'ssociation for.Class"R" heat exchangers with the following qualifications:

3.2.1 The heat exchangers and any of their component parts shall be designed to resist earthquake forces resulting from accelerations in the horizontal and vertical directions equal to 0.52g and 0.52g respectively, applied simultaneously at the center of gravity and to receive and transmit such forces through the supports to the foundations.

The seismic stresses shall be interpreted as a primary stress and the sum of the primary stresses shall not exceed those permitted in Section III of the ASME Code.322 Heat exchangers with removable shells or bundles shall have hub type shell flanges which are butt-welded to the shell.The shell flanges shall be designed.for confined.gaskets.323 Flanged joints shall be designed for through bolts using stud bolts and shall have two nuts on each side.'i 3.2.h A partial wrapper shall be attached to the tube support baffles opposite the shell inlet nozzle to prevent direct impingement of the inlet flow on the tube bundle.In U-tube heat exchangers the shell shall be long enough so that flow entering the shell through the nozzle near the U-bend shall not impinge upon the tubes.3 2.'5 3~2~6 All tubes.(except in the Component Cooling Heat Exchanger) shall be seal welded to the tube-sheet in accordance with WAPD EDSK 329359.All nozzles and shells shall be designed.to withstand any load that the adJacent piping could impose upon them when the piping is at its yield point.'2'7 The units shall be capable of withstanding full shell design pressure and temperature with atmospheric pressure on the tube side, and gull tube design pressure and temperature with atmospheric pressure on the shell si'de.WES TINOHCUSE ErZC TRIC CORPORATION ATE POWER DIVISION WAPD FORM 412 Revision No.O to E-Spec.676228 Page 3 of 23 Pages  

i>>>.C~<g E<.'!"jPNENT HPECXPICA'"XO'>>

Carbon steo3.butt-veld nozzles sna13 h v>>enc., prepared for!!elding i:!accordance with ASA!316.5.9 Socket-veld nozzles shall be in accordance vitn AHA 816.11.:,2.3O.Flanged no'le., shall be of thc raised;face type conforming to ASA F>3.6.2,.r~.Ll Hcreved connections shall be in accordance with AHA B2.1.f"AT'RIALS OF CONHTBUCTXO!>>

All!;aterials used in thc construction of the heat exchangers shal." cor"espond to." specification in Section XX of the AH?~il Code and nha3'..;r's specif'ed on the L'xchangcr Ssecification Sheet.5 O I"."C" XO!I'i'I".."i'.~".XNG A!ID ID%!ITX: ICATION 5.1 I!!nj!ection 5.1.1 I'.atcrial Xnan<:ction T::e material inspections reouircd br the AH!~: Code for thc C" ass of vessc3.: hall oe performed.

Xn a<'.dition.

1 5~~~'.,3.l tubing shall be ultrasonically examined in accordance with Para-.:;r"ph>>I-324.3 of Section XXI of the AH!9".Code before bendirg.The supplier may, at his option, use the eddy current proce<!ure in accor.'ance with P<u a<!ragh N-32I!.I!of Section XXI of the AH."!I".Code.5,1.1.~I:ot or co3.;formed parts such'as head,, shells, etc.shall be pcnc-r!!t inspccL'ed on a3.1 surfaces followir.,";

fir...l for!",ing anQ cleaning, b!:t>rior>>;o:::;nor!b3y in accor<'.ance with Parar,.ph;':-t 27 of Section XII of thc A>!C.'o'e.5 3 Wel<'nsI>oct 1on 5.3..3 Th>>)<~3<'!'~"-<~<

Xr.addition, the fo" loving inspec io!!s shall oe per for!.".ed:

A3.1 fcrrom!magnetic velds sha3.1 be mapnctic p"rtic'<: ins.!<.ctcd ir!accord'ncc with Paragraph!!-626 of Section IIX of the AS'.."".Code.~L'cfcctive wel<'.s Qi'closed oy this inspection shall be'chir>ncd o!t.rc-vcl~',ed, an<'.re-inspcctcd.

HLZCTRXC CORPORATION ATGKEC POWER DIVISION WAPD FOM 412 Revision No.0 to p-S3>ec, 6 (C!c c!8 Pape': of 2..Pages EQ'IPHENT SPECXFICATXON

.'.1.3.2 0-)All paramagnetic or non-magnetic welds including tube seal weldsshall be liquid penetrant inspected.

with penetrant according to Paragraph N-627 of Section IXI of the ASNE Code.Defective welds disclosed by this inspection shall be ground out, re-welded, and re-inspected.

5 2 5.2.1 5 2.2 523 Final Testin And Ins ection Westinghouse or its designated agent shall have free access to the.supplier's shop at all times during the design, fabrication, and testing of'the equipment.

Each heat exchanger shall be sub)ected to a shell side gas leak test to demonstrate the integrity of the tube to tube sheet points.This test shall be performed before any hydrotest.

Any leakage shall be grounds for refection of the weld(s).The supplier shall submit his procedure for this test for WAPD approval.Each heat exchanger shall be hydrostatically tested on the shell and tube sides in accordance with the applicable paragraph of the ASME Code except that the pressure shall be maintained a minimum of thirty (30)minutes.There shall be no detectable leakage.The test water shall have a chloride content of less than 10 ppm.The following shop tests and inspections will be witnessed by WAPD or its designated agent.This list may be expanded at some later date and WAPD may elect to waive witnessing of any of these tests.a.Shell side gas test b.Shell side hydrostatic test c.Tube side hydrostatic test Inspection of ma)or repairs to pressure containing members e.Final cleaning and.inspection prior to shipment f.Dimensional check of vessel f The supplier shall notify WAPD of each of the tests at least ten (10)days prior to the test.5 3'dentification The supplier's nameplate shall be of stainless steel or brass and shall be permanently attached to the heat exchanger shell.If the unit is to be insulated, the plate shall be mounted so that it will be flush with the outer surface of the insulation.

a.WAPD Equipment Xtem Number b.Supplier's Name and Serial Number c.Design Pressure WESTINGHOUSE ELECTRIC CORPORATION ATOMXC POWER DIVISION WAPD FOM 412 Revision No.to Spec 7 228 Page 5 of 23 Pages f1~I p (~EQJIPMEhT SPECLMCATXON

.6.o d.Design Temperature e.Hydrostatic Test Pressure and., Temperature f.Year Built g.ASIA Code Stamp and National Board.Number CXZANING All internal stainless steel surfaces shall be cleaned in accordance withPS 292722-1-All carbon steel surfaces sha13.be cleaned to the intent of Paragraph 2.8 of Oil'I PS 292722-1.7.0 PAINTING 8.o The external carbon steel portions of the heat exchangers shall'be given a coat of primer.Stainless steel portions of the heat ex-changers shall not be painted.PACKAGING 8.1 Following cleaning and.drying, all nozzles shall'be covered, and.sealed to prevent the entry of dirt or other foreign matter during transit or storage.8.2 The heat exchangers shall be adequately skid mounted to assure delivery to the plant site in an undamaged and.clean condition.

d.Recommended list of spare parts with price.WESTINGHOUSE E7ZCTRXC CORPORATION ATCNXC POWER DIVXSION WAPD FOEC 412 Revision No.0 to 676228 Page of Pages 6 23

)\gerP T/IDy<<imP 0:-)l SKRVICE OF UNIT RC.C;X NL~ATl'iJ E HL=+i E/HACH.N(=!'->ITEM NO i..3 OH: RC.(,0(R'..-.Lk TYPE iVlULTI'PLP SH" LL 4 U=Q?~CONN CTKD IN SURFACE PER UNIT f LVID CIRCULATED TOTAl FLUID EHIERING VAPOR LIQUID STEAhl NON CONDENSACLES FLUID VAPORIZED OR COhDcHSED STEAM COHOENSED GRAVITY-LIQUID VISCOSITY II QUID)hOLKCULAR WEIGHT-VAPORS SPECIFIC HEAT-LIQVIDS LATeNT HEAT VAPORS TEMPERATURE IH TEMPERATURE OVT OPERATING PRESSURE HVM3ER OF PASSES VELOCITY PRESSURE DROP I i/r:~ALLOLitK6LC I.OULtt'IC>

I=/AC'I 0 I'%.T.U./v<<

B.T,U./<<~F>90 0 P.250<</SQ.w.O.OO Ck3 FT/S'C 9/SQ.IN.SHFLLS PER UNIT PP)~)LtAANI.".

G.".ONE UNIT SHELL SIDE WAI (:R I"i nO L:~!SUPFACE PER SHcLL TUCc SIDE WAY i"-P-L'i~4 RO L"" eV B.T.V./<<B.T.U./g ISO.O vF/dl 9<.2'F 22.30 0/SQ.I N.til FT./SEC.2D.0/SQ.w.O.GONE NEAT EXCHAHGcO-3.T.V./HR.

S.Cn ty H I O~TRANSFcR RATE~KRVICE DFSIGN PRESSURE TEST P2ESSURE CCa~iSPiU~IQN AL.T.D.(Coaoctod)

Cl<<LN<<v/SQ.IN>c v/SQ.IN.~I/SQ.IH v/SQ.IN.DESIGN TEhlt'E2ATURE TU3ES 5/i->&i P.K0/c nr:3I.NO.SHELL Sr<-''0 i+P 30/i c', 3((y O.O.I.D.O.D.CWG.~F lEHGTkl THICKNESS PITCH l.'o<gQ~F SHELL COVER Si'i-;>rpO T'/i~=>0i, cro>r'(in CHANNEL SA-2/l0 VVP-".SQ.",,="-.516 TUCE SH ETS-STATIONARY SA-'P'IA I'/I~to Pilci OR WG CAFFLEMROSS SA->40 79P(c":0'>iLGTYPE i AFFLE-LONG TUBE SUPPORTS TYPE GASKETS Y0((t:.-ALl.lh(L-.U>ED (Ot IS1-I"..LT<-,ti,".NI FLOATING HEAD COVER'CHANHcl COVKR S4-2l(0 TYI'E, 304 DIT SICi FLOATIHG THICKHESS THICXiNESS THICKNcss CONNECTION~HELL

-W p">Cp, (ky0 OUT 2'CH.IC>lk SERI S>OCFCU i WIT(.P CHAHNcl-IN/'>C:k (~I&0 OUT 9" QCI(.(60 SERI-S SOCi:T.i WCLLI CORROSIOtt ALLOY/ANCE~<<HELL SIDE TU3E SIDE CODE REQUIREMENTS

-~t=ci~c:.I Ivy~TEMA CLASS V/EtGHTS-EACH SHKLL BUNDLE FULL OF V/ATER NOTE(INDICATE AFTER EACH PART WNETHE T-S RELIEVED (S.R.I AHD WH/H'2 RADIOGRAPH

'D (X'Rl REMA"X i'CM islay>I'TIC3hIM.

P'L.6'.Lkll:I::MI'I-ITG

~(.'I" PA<el: 9: GUPPL("-IL hs P'/Ck-thl.'ll

'Qt'.5PL'X.N lC/a'ICkt I alii t I 4 Al'I>4(c4 WAPD 8314 REVISiOM Ho.0 70 P-ZP"-(-.(O7(3228 PAGE 8 OI-EST>A(-  

y<<PP gP Lg+<eo r P><<~><<inc qn>pe Pg<<<<i<<in ((CL)(A)>E P.h)AY I SPEc,.S'r'6-.'J~h>)'~E YT'.Ih)h)f hi'UCi.F gg PG'r J KP.P>->'<<4 i SERVICE OF VWIT"..'-'"-"L-+>".:~i I'4L=Hl.~Y EXP'rIA.>RGC;P.

ITEh'I HO.S!jE SURFACE PKR UNIT TYPE.SHELLS PKR UiHIT PiRFOPJAANCL OF 0&#xb9;UNIT SHEI.L SIDE VIA i E.FL CONNECTED IH SURFACE P-R SHELL TUSE SICK Oi 6 8 A'i>OI.)PURL r IC~WLO'Q HE)iT-UP Pu.IV)CW-,)Qh)

H<.h=-ui'OTAL FLUID ENTERING L./Ho VAPO2 LIQUID LP./I~C..STEAM NON COHDENSASLES FLUID VAPORIZED OR COHDEHSED STEAM CONDEHSED GRA V IT Y-LIQUID VISCOSITY-LIQUID MOLFCULAR VFEIGHT-VAPORS SPECIFIC HEAT-LIQUIDS LATENT HsAI'YA?025 TEMPERATURE IN TEhLPERATURE OUT OPERATIiHG PRcSSURE NUhib52 OF PASSE VELOCITY P2cSSVRE DROP Wc)r'SO 29 C,/cO V>'7~)'2?a C)i~Z<z L~~io B.T.V./>>~B.T.V./>>Sii2.'?'F~F/.Z.=O>>/SQ.

IHJ FT./SEC.0/SQ.IN.t Toe>Z4.IOO I='O.O 2250 I/.R?r))~0.0'F~F>ice 22.50>>/SQ IH.E FT./cC.25 r/SQ.IH.HFAT cXCHAiHG D-S.TV./HP.I L'PL-.: 5.658)OD.2 Flic;<<T-UP 5.65MIO M.T.D.ICoaoctod)

TRANSFER RATC-SERVICE DESIGH PRESSURE TEST PRCSSURE D SIGN TEMPERATURE CLD')Cii<<)~iiG$4 JCI IoliI~Si<<PkC'i9~>>/SQ.IN.~/SQ.IN.<</5Q~IH.~>>/SQ.IN.<<F TUSKS SHELL SHK!L COYEil C?IANHKL TUSE SHKKT~TATIOHARY SAFFlcS-CROSS CAFFLE-LONG TUSE SUPPORTS GASXETS CONNECTIONS

-@HELL-IN CHANiH.L-LN~CORROSIOH ALLOY/ANCE~HELL SIDi.COD RECUIPKMKNTS WEIGHTS-EAC)l SHELL O.D.I.D.O.D.TY?c'Y?-W OUT OUT BUNDLE~SWG.LENGTH.PITCH TH I C"NESS FLOATIHG HEAD COVER.CHANNEL COVER~"'LOATIHG THICXiHESS THICXHESS HICXNESS SERIES ScRIES TUSE SIDE TEMA CLASS FULL OF LYATZR HOT'i INDICATE AFTER EACH PA2T WHETH 2 STR 55 RELIEVED (5 R)AND WH THER RADIOGRAPHED IX-R)REMARxs)<<','<<ki)QI~IC,', I'l-8L'.:.)LY')'AT:I I I'L.;.PAC".-'.'9'QI>>'LL;I.Lc.l~)r,-.~c-)P,.>C,.;.,4 S-,~CCIFI(ti'"..O 5 SL-Ll:.L..

i-0, A>ic lh(<L h~" I~i>.'-'Id g'ti'?+LL>g iHihiL a.re I~5-<g-GC>WAPD 4314 Rcg)~~)Oh)

)40.Or E,-Spic.<7~'2O Pb,~<+8(~)0r.23 P'C".

4 g" E@DPMENT SPECIFICATION SUPPLENEil'P, TO EXCHANGER SPECIFICATION SHEETS-A and A a~SA.1 The Regenerative Heat Exchanger shall meet all the requirements of Section III of the ASME Code for a Class A Nuclear Vessel and shall be so stamped.SA.2 The heat exchanger shall be designed to withstand the thermal stresses resulting from 24,000 step changes of shell side fluid temperature from 130oF to 552.2oF.SA.3 Insulation clips shall be provided, on the shell for 3 inches of insulation.

SA.4 The attached Westinghouse sketch MC-1257 shows the gereral size and arrangement of the subject heat exchanger assumed for plant layout purposes.The supplier's base proposal shall'be in accordance with'his sketch.However, should.some other size or arrangement be more economical, the supplier shall.submit his alternate design and price with his quotation.

SA.g The supplier shall size the Regenerative Heat Exchanger based on the data presented, on Page 8.He shall then indicate the outlet temperatures and pressure drops which'his unit will yield when operating under the two alternate conditions set forth on page Sa.SA.6 The three shells of the Regenerative Heat Exchanger shall be stacked vertically on saddles or brackets'"..tne shop.All interconnecting piping shall be installed in the supplier's shop.WESTINGHOUSE ELECTRIC CORPORATION ATOKIC POWER DIVISION WAPD FORM 412 Revision No.0 to E Spec 676228 Page 9 of 3 Pages Il t'~<<'BOP)KF.I C.Mr/it=.l

.C.ill;1>w VUCL I.../'.P pL'>it<<J:.ic'.

I LLl)i SERVICE OF UNIT U I Ht:<<A<<t EXC&i-I C P ITEM NO...1 TV/0 RL=<.<<U l P.t" D SURFACE PER UNIT FLUID CIRCULATED TOTAL FLUID ENTERING VAPOR LIQLIID STEAM NOH'COND HSAOL S flUID VAPORIZED 02 CONDENSED STEAM CONDENSED GI".AVITY LIQUID VISCOSITY-LIQU<<D MOLECULAR WEIGHT VAPORS SPECIFIC HEAT LIQUIDS tATENT HEAT-VAPORS TEMPERATURE IH TEMPcRATURE OVT TYPE>I-;--LL.'V.U-TOFF SHELlS PKR UNIT PEP,FORPAAiNCH GF GN"-UitllT SHELL SIDc WA.I KR l 3~I$000 LB I-LP.I,<<15 OOO"<<Il'.T.U./"~F~F COHNKCTcD t<<<<I SURFACE PER SHEL'UOK SIDZ V@AT"=R l63.000"/H~IC~3 GOO L=/LT.U./" l23.4 OPK2ATIHG P2ESSURE ttVMSKR OF PASSES VELOCITY 0/SQ.IH.~FT./SEC.40O f/SQ.IiH FT./SEC PRESSURE DROP~I<<f<<:<A!.LGNABLH i"Ct, i'P.~r.~Hh 0, G>>":>5<~/SQ.IN.15 S/SQ.IH.6.C>C>O=HEAT EXCHANGED-S.T.V./HR 2/r.lg X IQ~i+/HP.TRANSF ER RATE~KRV ICE lS.T.D.(Corroctod)

ClEAH DESIGN PRESSVRc TEST PRESSURE DESIGN TcMPERATURE CQ~aiSV(M~:

i QN O 10"/SQ.IH.<<F lSO 0/Sa.IHZ.r/SQ.IN<<1/SQ.IH.~F TONS mi't','>TT>'>f,'(~c"'<<.i to HO.SHKll~A-le<~I~c'SHELL COVCR 5>5/3/i I.D.O.D.OWG.LENGTH THICXHcSS FlOATIHG HEAD COVER PITCH CHANNEL<<".>,t,~: Yi ('3 i'Il>(=50 dolt 3 I 6 TV2E SHEET~TATIOHA2Y SA<<tO i P.:..;Op OR<<l<o CHANNEL COV R D/A-<<".0 TM~vn ZG/r<oRAIC>FLOATING OAfflCS-CROSS 9tw g r I OAF ilE-lONG TVBC SUPPORTS TYPE THICXHESS THICXHCSS THICXNESS GASXETS Qt-it=LLL<.,tp JgC'yc-;I-.t>g<<=,.".pc.I Ctt-~Ll,i".: Lic>r-I T'<<-.I-LIC CIP, EG'<<t>'-.L CONNECTION"'HE'l-IH lG'>Ct I.4Q OVT lQ c.C It.gQ SERIES l 1A Li>~RP-i lN t:-CHANHEt.IH 8~OC IW~W ()>OUT t.I~C H~r'O SCP<<IFS C>ill i'i><<C CORROSION ALLOVIAHCK~<<HELL SIDE CODC REQUI2EA'IENTS

~'"'.Q P l Pf'tt'-'l TUi E SIDE TEMA CLASS WEIGHTS-EACH SHELL OUI IDLE FULt.OF Vi'ATKR NOTE>INDICATE AFTER EACH PA<<T V(HETHER STRcSS RKllEYcD (S.R.)AND VNETH R ilADIOGRAPHED IX R)REMARXSi FC,T>T2OLTI~I i<<Pi CVIP..>M~t-lY~~-I:~~C'"=l l-'p'.(l I'xl IC=t C P.LP5:<tr-ICPTIO:-!

SHi-F I-C'>p-<<rl-<OC WAPD II314 RFULGlO'tel HO.TO Z sp=c, I r&2.~S PP,I-E lo CF 2D P&C.'.

0 P EQQPMENT SPECIFXCATION SUPPLEMENT TO EXCHANGER SPECXFICATXON SHEEP-B SB.1 SB.2 SB-3 The tube side of the Residual Heat Exchanger shall meet all the requirements of Section XII of the ASME Boiler and Pressure Vessel Code for a Class A Nuclear Vessel and shall be so stamped.The shell side of the Residual Heat Exchanger shall meet all the requirements of Section XXX of the ASME Boiler and Pressure Vessel Code for a Class C Nuclear Vessel and shall be so stamped.The heat exchanger shall'be designed to withstand the thermal stresses resulting from 200 step changes of tube side fluid temperature from 85oF to 35ooF, The attached Westinghouse sketch MC 1261 shows the general size and arrangement of the subject heat exchanger assumed for plant layout purposes'he supplier's base proposal shall be in accordance with this sketch.However, should some other size or arrangement be more economical, the supplier shall submit his alternate design and price with his quotation.

WESTINGHOUSE ELECTRIC CORPORATION ATOMIC POWER DIVISXON I WAPD FORM 412 Revision No.O to Spec 676228 Page 11 of 23 Pages

POFr(sRT EAi&ETi C I)I Vh.NUCLEAR POi/PEP, Pl L~li SERVICE OF UNIT~El(h L Wk I EP~Hi:Al E.~CH&i)Cga i~ITEM IIO.I:-3 Ok)=.P,:-QLI I@I"-0 TYPE$1-(~LL i%0-7()SK CONNECTED IN SURFACK PER Ui)IT FLUID CIRCULATED TOTAL FLUID ENTERING VAPOR LIQUID STEAPL HON CONDKHSAGLES FLUID VAPORIZED OR CONDENSED STEAM COND HEED GRAVITY-LIQUID VISCOSITY-lIQVID MOlECULAR WKIGHT-VAPORS SPECIFIC HEAT'LIQUIDS LATENT HEAT VAPORS SHELLS PcR ViNIT PERFORATE,NC"-OF ONE UNIT SHELL SIDE 92 OOO L</Hp 32 OOO"" B.T.U./>>B.T.U./<<SVRFACE PcR SHELL TUi c SIDE Wh VKF'4 700 LB/HP 24.700 L~/w~.B.t.v./B.T.V./>>TKMPFRATURc IN TBAPKRATURE OUT OPERATIh'G I'RESSVRE HiVMGER OF PASSES Yc(OCITY PP.SSURE DROP I<<)fute, ALLOWigLiLE FO()L)I.)f,i I-P g7O-ore.l"r oIgz, II5.0 0.OCOB F~F"/SQ LN Ff./SEC.8/SQ.IH.l5Z 5 IV I.O a:aoar~F~F<</SQ IN.Fr./SEC.."/SQ.IH.HEAT KxcHANGKD-G.T.U./HR.

6~',0 Ic la>~RANSFER RATc-ScRYICE DESIGN PRESSURE TEST PRESSURE DESIGN TEMPERATURE CON57iMCiiGN f50 M.T.D.(Corrociod)

ClEAN<</SQ IH>>/SQ.IH.~F I50/sQ.IH6<</SQ.IN.OF TVS.S r/l~r yP~>0'e:"l(o HO SHELL Di ii I Oig Ci hi SHELL COVER SA-2r4 O.D.I.D.O.D.GWG.LEHGTH THICKNESS FLOATING HEAD COVER PITCH CHANNEL SA-g..'C)'7y p(-304 Or O Idio TUBE SHEETS-STATIONARY CHANNEL COVER SA" 240 79FE 304 m"l~c)FLOATING CAFFLKS-CROSS 5A.'Zi-.C~C i 5~BAFFLE-LONG TUBE SUPPORTS TYPE THICKNESS THICKi'4ESS THICKHESS GAsxDs-S~Jr..cud(=D As)E.GTc)s CONNECTION~HELL IN'P~H, 4 0 OUT 2 6 C I l~~iC)SERI 5 I NC)L1r P)~I Lb I'L>ES CHANNEL-IN q i SCg~405 OUT.gcc~I-c(08 SERIES PrVi)CORROSION ALLOY/ANCE

-SHELL SIDE CODE REQUIREMENTS SBri SCii PELT 18 TUBE SIDE TBAA CLASS WEIGHTS-EACH SHclL~GUHDLE FULL OF WATER NOTEi INDICATE A'RER EACH PARt WHKTHKR STR Ss RKUFVED (S.R.)AND WHETHER RADIOGEAPHED (X R)REMARKS I Of'ADDI flak>4I fqt-AL)II'?'ii))gh)f" Sl:-C.PA(=K IS l'i SUPPLEF<<'IE)4i VC)EXCI'Ah)e'-)=r,+PFCIP ICWZICh)SHL'f7-C" 8-=.CCo WAPD 8314 RE.V)'OH hlo, TO E.-SPL.C,: 67Cc 228 PAGE, I" C,F:-PA-t::

WESTXNGHOUSE ELECTRIC CORPORATXON ATQ4XC POWER DIVISION WAPD FORM 412 Revision No.0 to Z-Sine.~66n8 Page~l of~2Pages

%>>>C>>a>>>'>>Clh A><<a<>L<l s>.'V)i'lC>t>>E<I>h tat<)r<t',~G<>a(,~0'~~~\i 0<~i~SKRVI(E Oi UNIT<i>>c~I.;Yr!'.<O'3'0<..HI Ht'X'iw(E-lkiila Rt I'i ITEM NO t-.~;.r)Ulr'.<.Q TYP" r 1.4'<-..t~I ().-, Tt Gb.iF X.,'C, CONNKCTUD IN SURFACE PER UNIT flUID CI Clc.<EED~<OTA l F LU<D KN IKRING I VAPOR LIQUID STEAht NON CONDENSA<'LKS FLUID VAPO"IZED OR CONDENSED S.KAAMA CONDKNSKD GRAVITY-LtOUID VISCOSITY-I<OVID htOLECU'.AR 1VEIGHT-VAPORS SPECIFIC HeAT-LIQUIDS L/<TEi4T Hi"AT VAPORS SHEEtlS PE>>UNIT P<":.'(R)t("E)ANC-" 0=O<h UYiT SHKLL SIDc 1A E(<<i r to>>I.<c7.'y p',<Q(o I-c)//(.c>5K (04<N" SURFACE P=R SHELL TU>>SIDS J.IC)4 t-"j/~~r.TEhtPCRATU K OVT I OicRAT<iVG PR:SSURK NUhtccR OF I<ESSES 1 i<OCI'IY PR SSU>>" D>>OP i A1;>S.'("<E><.->t.

(-G(:I ti:"<-'V tg<-N''*/~YI (00.0<j~CtU>S~F'F"/SO.IN.: FT./5 C.'/'Q IV E&7 1)C).CC'r)E'c>'/SO tq (-/5<-l/SO.IN...EAT E::CH>>NG"-:.T.V./HR.

".~,'.I'~~;'<~RAN.iER RATE~KR<VICE 1.'..T.D.(Cceocaod)

~e~'i E I<ac DESIG<V P'tESSURc TEST P>>SSUPE DESIGN TKh'LPERATURE SHELL.'(w.~<(~.~5.Hl COVER I'''"-'O.O.D.I.D.O.D.2P<".I I 1<EG i D>i'j'ar t i w''C"/SQ.IN/, co/SQ.IN.E'(iVGTH THIC<:NESS EELOATING HEAD COVER 1 Cat"<'7.h.)PITCH 5/SO.INrc 5/SO.IN.CHAVE;l';L

/'<<1DI f I;..>>>,L.,'UEE UE.E"1<"ffaf*".'\f:!;Lg/uAFFLKS-CROSS C'gf">>-?V!S C..<AFFL.-tONG TUS=SVPPO>>TS'Ta<EE TY'CHAN<VEL COVER>h OMI I 1/'>>I~>>/FLOATING T<HlC:iNeSS THICSNAS5>I'CLN-'5 CON<VECTIO)(~HELL IEV IG'."i b(~<(..>OVT (C'qCH.~i i J SElat"5 i'<a>J Ca Vt L CO.i..OSION ALLOY/ANC(~HE'L

":<fc OUT}()"<."<C'.I~I./I'r',d-".5>

P>'<<4 Tl'"'IDe TEhtA CLASS Y/.IGHTS-EA)I 5 IKLL SUiVDLE FUIL Oi NATER I'OT"<INDICA I'T l'Ctt O'" V/.'"~'H" 55 R ltEV D (5.L'.)',ND VH HE'DICGlbhPHED

(.R)RE/A/\RXS<

':;.":I j".:"'~<~ti.':".I<f11))'...c>>'.i>(<-.-I!E>>I'+)-'-'>>lT.'I 1)R'/'<" l-l/>>I<6~E'~~Vi'APD (!314 r>>t.'V)&<C~<)<g, G IO c: D SFCC C"'"DDD.PAGF'-':-;:=P~r=G l

'UPPORT EXCHANGER SPECXFICATXON SHEET-D SD.1 SD.2 The Component Cooling Heat Exchanger shall meet all the requirements of Section XII of the ASME Code f'r a Class C Nuclear Vessel and shall'be so stamped.The attached Westinghouse sketch MC-1262 shows the general size and arrangement of the subject heat exchanger assumed for plant layout purposes.The supplier's base proposal shall be in accordance with this sketch.However, should some other size or arrangement be more economical, the supplier shall submit his alternate design and.price with his quotation.

~4 SERVICE Of Ug~l 1-X(eS'S LETDOW(I'Vi-A, i C/(l~ANCIEP, ITCM NO.Ot'-REEQUIP.E.D SURFACE PER UNIT TYPE SHEL', U-TLIGHT SHELLS PCR UNIT CONNECTED IN SURFACE PER SHKU FLUID CIRCULATED TOTAL FLUID ENTERING VAPOR LIQUID STEAM NON.COHDEHSABLES FLUID VAPORIZED OR CONDENSED STEAM CONDENSED GRAVITY LIQUID VISCOSITY-llQUID MOLECULAR WEIGHT VAPO2$SPEC(F IC HEAT-l!QVIDS PE~rOPFAAXCE OI'(b(": Uii(IT SHElL SIDE L(LIIL I E.R SB7OO"E'5~7CIO L5/~B.T.V./>>TUSK SID.Wb I(=P.4gd.O/HP B.T.V./<<IATENT HEAT VAPORS TEMPERATURE IN TEhlPERATU2E OVT l5.0 I~~0.O B"V/"~f B.T.V./>>557.7'F OPERATING PRESSUPE NUMBER OF PASSES VELOCITY PRESSURE DROP-F>>I AX.bLLOWARLc.

I'G(.li lit~~FPC.iOlk-"" I'"'F flu O.OC(aB P/SQ.IN.Fr./SEC.r/SO.W.7?.-.0 50 0~OCULO 6"/Q.IH.>>Fr./SEC.v"/SQ.IN.HEAl EXCHANGED-S.T.V./HR.

l 8'(Rl i(IO~I-iTI~!HC(, Te ANSF 2 RATC~ERVICE CC(%5i~aUCi IO'iit DCSIGH P2ESSURE TES'T P>>>>ESSVRE DESIGN TEMPrRATVRE M.T.D.(Corroc(od)

CLEAN I,/SQ.W.e 8/SQ.IH.~f ZQD5"/so.IHG<</SQ.IN.TU Ks c)(X-Z(".CLY:<<"rl o((-"Ig No.Sys(L 5I(-I(;6 C.c~SHELL COVER SA-7..(.)C.$O.D.I.D, O.D.BV/G.lEFIGTH THICKNESS FlOATING HEAD COVER PITCH BAFiLE~ROSS

$/ii Z(.~$C.5~BAFFLE-lONG TYPE TYPE TUP E VP?ORTS cHANHEL SA-Zg+yy(-TUBE SHEET~TATIONARY SPi-24(0 gi/C<<g>Cd c F;~L(o CHAHHEL COVER SA Z4C(V'/Pc=3i>>A OR gt(j FLOAT iiHG THICKNESS THICKNESS THICI:NESS GA KETS SI.IC.l': 5$Jh.Kr.(Q)h (Em~70~'TU(<<~r l I."LEXL'TA,LLIC C(IP.FAU/iL.coNNEcTIQNmHELL

-w Z" scH.40 oui 2" 5cf(.4o sERiss ISo'2(.l"=,I=.(-Lr i:(-"(.6 CHANNEL IN/4 Cg.t~OUT~/4'CIL.I(O SERICS%&l CORPOSIOH ALLOY/ANCE

-SHCl'L SIDE CODE REQUIREMEHTS

~L-(=$Q l PF~C((=.WEIGHTS-'EACH SHELL BVHDlf.TUBE SIDE TEhLA ClASS P FULL OF WATE'R NOTC(INDICATE AFlCR EACH PART W'rlETHCR ST ESS RELI VED (S.R.i AHD WHETHER RADIOGRAPHED (X 2)REMARKSi I"OH b..~?2 I ((g(5/+L Pj'(qu'il(<<((NIP

('T~~<~t.P>>.c=(:.17 I" SL'PPLCMF AT iO EXCH'(dC((;.

R..=.PE.CI(TICA-(IOQ SI-IC.(:-T.E.WAPD 0314 REVELS lON NO, 0'TQ P-c(P I-.(-.('o I('-228 Pgq<.lo OF 2S P4C(L<

EQJXPMENT SPECIFICATION SUP~ENT TO EXCHANGER SPECIFICATION SHEEZ-E SE.1 SE.2 The tube side of the Excess Letdown Heat Exchanger shall meet all the requirements of Section XXI of the ASME Boiler and Pressure Vessel Code for a Class A Nuclear Vessel and shall be so stamped.The shell side of the Excess Letdown Heat Exchanger shall meet all the requirements of Section XXX of the ASME Boiler and Pressure Vessel Code for a Class C Nuclear Vessel.and shall be so stamped.The heat exchanger shall be designed to withstand the thermal stresses resulting frcm 12,000 step changes of tube side fluid temperature from 85oF to 555oF.SE.3 The attached Westinghouse sketch MC 1259 shows the general size and arrangement of the subject heat exchanger assumed for plant layout purposes.The supplier's

'base proposal shall be in accordance with this sketch.However, should.some other size or arrangement be more economical, the supplier shall submit his alternate design and~price with his quotation.

WESTINGHOUSE EIZCTRIC CORPORATION ATCPZC POWER DXVXSXON WAPD H)RH 412 Revision No.0 to<-Bxec.~66n8 Page~l of~2 Pages  

I.-..~0HF Ii(:-Qua C,D SURFACE PER UNIT TYPE 513(=L/4L 0-i U~~(=SHELLS PER UNIT PERFOI'(ANCE OI'NC U'r!IIT SERY!CE OF UN!T SFE.hi FOCI 7 O'F!%L'r'CHARGE.P.

ITEM HO.CONNcCTED IN SVRFACL PER SHELL FLUID CIRCULATED TOTAL FLUID ENTERING VAPOR LIQUID STEAM NON CONDEHSABLES FLUID VAPORIZED OR CONDEHSED STEAM CONDeNSED GRAVITY-LIQUID VisCos(TY-LIQUID MOEECUlAR WEIGHT VAPORS SPECIFIC HEAT-LIQUIDS LATENT HEAT VAPORS SHELL SIDE SC'C OOO~LC<~Z B.T.V./5 B.T.U./<TU"'D WA iI='".'72 OOO L~E'/w(:r TEMPERATURE IH TEMPERATURE OUT OPERATING PRESSURE NUMBER OF PASSES YElOCITY PRES VRE DROP NI/'L~ALLOWAPrL i I.COL(I)(O'AC.0'-'-~'"/I!TII Bo.0 C.OCI I~F 5/sa.IN.FT./SEC~/sa.IH.IOO.S~F 5/Sa.IH.O.0005 FT./SEC.r/sa.IN.+O.O~'F HEAT EXCHANGED-B.T.U./HR.

P>,<v.I0~TRAHSF R RATE~ERYICE DESIGN PE.ESSVRE TEST PRcssURE DESIGN TEMIEERATURE TUSis S4 f.I~I P Ofi rEp 5I(o No.O.D.CO'OCT'O"4 I 50 BWG.M.T,D.(Corroctod)

CLEAN 5/Sa.IN.!c+/Q.IN.~F LENGTH (50 PC)0 PITCH r~(EILIP'.P 5/Sa.IN.5/Sa.IH.~F SHELL S:X-IO:-;C..~~SHELL COVER.+Eh," 2S/o C">CHANNEL.~r'L-/~C''/(o=?EOEI.E.p p((~I.D.O.D.THICKN css FLOATING HEAD COVER CHANNEL COVER SA-cfEO%Yacc:~04 o" SI(o TUBE sHEE 5-5TATIOHARY

'"'P+Eo T'Id'I=BOW o SI(~FLOATIHG BAFFLES-CROSS<" Q 285 C..r~BAFFLE-LONG TV BE SUP?OE.TS TYPE TY?E THICKNESS'HICKNESS THICKNESS GABKt 5" r'IlrrL.L'.

'>J,EEct'~'-I t.D A~:C.i QG I Vdi~r-Li-.v-'I r/'.I.IC GP.(=I".9/L-CONNECTIONLeesHELL IEH g L,E.,'E (~fir,I OUT 4'Cg'L)SERIES I~>0 L5 IL I FLAMCSi 5 crAI,HEL-I.i 4"~L.I-(.hcl'UT g" scI-I.4c 5 sERiss p Yd CORROSION ALLO'E/ANCE~HELL SIDE EQEE EEEEEE""'M'NEE CCC'S.1~Acr 19-BUNDLE V/EIGHTS-EACH SHELL TUBE SIDE TEMA CLASS FVll Or V/ATE'R NOTEr INDICATE AFTER EACH PART V/HETHER STRESS RELIEVED (S.R,)AHD WHETHER RADIOGERAPHED (X.RI REMARKS;I'.l'.~"Ia"'/,.T", LI if.'vIT')'I'.1>L''g l*I'I'.': r''.~TDL.L ILYING/"E ICE L SH(L-l-.c C~C.i WAPD IF'314 PACE.I'S CF 23 pAGE'.,'

EQJIPMENT SPECIFICATION SUPPLZMEN T EXCHANGER SPECIFICATION SHEET-F SF.l SF.2 The Spent Fuel Pit Heat Exchanger shall meet all the requirements of Section III of the ASME Code for a Class C Nuclear Vessel and shall be so stamped.The attached Westinghouse sketch MC l263 shows the general size and arrangement of the subject heat exchanger assumed for plant layout purposes.The supplier's base proposal shall be in accord-ance with this sketch.However, should some other size or arrange-ment be more economical, the supplier shall submit his alternate design and price with his quotation.

WESTINGHOUSE EIZCTHXC CORPORATION ATONXC HNER DXVISION WAPD FORM 412 Revision No.0 to E-Spec Page 9 of 3 Pages t l~~'PO!FP 1 E MMCT7 C~)Ih)ib MUC).EPiR PO)NC7 PLP))7 SERVICE OF UNIT--AMPi" Vih I E/E,CHANC".R ITEM NO.O~IC R~guIRKD TYPE ONE.SH"'-'L.;

E<<E CO)l I D I)IBEX'ONNECE>>D IN p!tEr75 l LL SURFACE PER UN)I'LUID CIRCULATED

'OTAL flVID ENTERING kbE/NP VAPOR LIQLHD t.//A E-''r.)-~8/H".STEAM (r h'I')~~HO..NON COiNDENSABLES flUID VAPORIZED OR CONDENSED STEAM CONDENSED GRAVITY-LIQUID VISCOSITY-LIQUID MOIECULAR WEIGHT-VAPORS SPECIFIC HEAT-LIQUIDS SHELLS PER UNIT PERFOR/tlANCE 03'RE UIEIIT SHiill SIDE WATcP 20 OOO 20 QOQ B.T.U./r SURFACE PER SHEU.209 Zoo I~O~20 B.T.U./<<TUBE SIDE'UEoc'!E" I Tt)E'6 S I Tt)E'T-C 20c))209 20" LATENT HEAT VAPORS TEMPERAT JRE IN 10b.O B.T.V./<<&RP~0 B.T.U./F=.O I/,'::.."F TEMPERATURE OVT'PERATING PRESSURE NU)hsER OF PASSES VELOCITY PRESSURE DROP-.1<<IW..AL LO;Q.al.s 1~~0.0'I 5 r<</Sa.IN.>>FT./ScC 25.C/sa.LN 12!0 I" l.0 I)7.7 0'f 2/" F'>go r/Sa IN<<W..D)" k~./Sa.LN FOL)LI 4!=.!I=/CTOP.-NI" T'"" ttT: O.OOQ'5 0 OOO~I 0 OOO~I 0 OnO, HEAT EXCHANGED-B.T.V./HR.

~U:;: I C>)">L=r>>.>L);~

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'I\t~~~EQJIFMENT SPECIFICATION SOPPiZIENT TO EXCHANGER SPECIFICATION SHEET-J and J'SJ.l The tube side of the Non-Regenerative Heat Exchanger shall meet all the requirements of Section III of the ASME Boiler and Pressure Vessel Code for a Class A Nuclear Vessel and shall be so stamped.The shell side of the Non-Regenerative Heat Exchanger shall meet all the requirements of Section III of, the ASME Boiler and Pressure Vessel Code for a Class C Nuclear Vessel and shall be so ta!nped.SJ.2 The Non-Regenerative Heat Exchanger shal'be designed to withstand the thermal stresses resulting fran 24,000 stop changes in tube step changes in tube side fluid temp rature from 85oF to 300 F.SJ.3 SJ.4 The supplier shall size the Non-Regenerative Heat Exchanger based on the data presented on Page 22.He shall then indicate the outlet temperatures and pressure drops which his unit will yield when operating under the two alternate conditions set forth on page 22a.The attached Westinghouse sketch MC 12>8 shows the general size and arrangen!ent of the subject heat exchanger assu!ned for plant layout purposes.Tne"upplier's base proposal shall be in accordance with this sketch.However, should some other size or arrangement be more economical, the supplier shall submit his alternate design and price with his quotation, WESTINGHOUSE EIZCTRIC CON'ORATION ATMZC PO'~DIVISION WAPD FORM 412 Revision No.to E Spec, 676228 Page 23 of 23 Pages 0

~~'WESTINGHOUSE ELECTR IC CORPORAT IOH ATOMIC PO",lER D IV IS IOH DUTY REQUIREMEHTS PRE LIHI NARY OUTLI HE SKETCH P QUIPMENT SAMPLE H AT EXCHAH cR SYSTEM SAMPLING PROJECT ITEM NO.SPECIAL REQUIRFMENTS, 4 FEATURES pygmy.I HL'CVS>/g" sm 7 i Qi-SHCLL Qu'FLED gll gQ I!yC ,0'yoP VIE.W Ib"=BRACKET Fpj IIALL MOUNTING~I TljSE OLITLi=T'>

g 3/p'SW 4 HOTE: DIMENSIONS SHOWN ARE APPROXIMATE AHD ARE G I YEN FOR REFEREHCE ONLY SKETCH IS HOT TO SCALE.APPROX.DRY'g/T.5OO LP-;SKETCH NO.M C l264 SKETCH REFERENCE DATE'EHGINEER 5-24-GCi/WESTINGHOUSE FORM 5iI3I9 4 0

~'ESTINGHOUSE EIECTRIC CORPORATION ATOMIC POWER DIVISION PREL IhII NARY OUTL IHE SKETCH OUTY RE(UIREMENTS a-Iu/uA,=-7O,Soa E(UIPMEHT HO>EI-PR"C.<I-LEF'h7I'i't:.

sYsTEM CH~I Ilcibi'i UQLul~"~CE"-<YL bh PROJECT (i I WQ 4 ITEM NO.SPECIAL RE(UIREMENTS, 4 FEATURES~lG'-o" SHELL OUTLET 4"ISO" FLC", SCH.4G/R TUBE lhIL~7 2 sv>SCHWA'e r SHELI.lH..7 1)"-l50'" FL<.Q~~gp.L.O ALLOVER IB~R~~=0~LL F',F I lOV tV TUBE Ou'TLE I 2"Ssv Sc,H 40~topDDSITS SIDS)Qi giiyg IHSTALLED YERT I CALLY NFHOR-.IZO)I'TALQ APPROX.DRY NT, I 7OQ L~~.NOTE: 0IIRIENSIONS SNOVIN ARE APPROXIMATE ANO AIRE GIVEN FOR REFEREHCE ONLY~SKETCII IS HOT TO SCALE EREECR REFEREIICE XA T SKETCH HO p:=-w lh DATE 3-pg QQ g 5 EHGIHEER li'ESTIIIGNOUSE FORM 5EI3I6 l h WESTINGHOUSE ELECTRIC CORPORATION

.ATOMIC POWER.DIVISION'RELIIIIHARY OUTLINE SKETCH DUTY RE)UIREHEHTS UA=8<op/iia"v.i E(U IPMEHT EMCP55 Lc.TDOWM HE>" V F<CI-IR~I SYSTEM CI-IE-;I iICu,L'lIIOLUM c.COW-C.PROJECT 6 IklhJA, ITEM HO.SPECIAL RE(UIREMEHTS.

b FEATURES 5'-0" SHELL g OUTLET'2" 150~FLQ,~SQ'H~AO TOBE lh!Lgy.,@" SW'ee SHiELL Iul CT'-I.<<<<.SCH.e'0 I Pl'LOW 4 PT FOR.ShIKU-Rc,lvlOVAL V TUBE Ouvcc.T.~sw 1 I I i+R HORIZONTALLY APPROX.DRY NT.200 LBS.SKETCH REFEREHCE WEST IHGNOUSE FORM 593I6 HOTE'IMEHSIOHS SHO'r'IH ARE APPROXIMATE AHO ARE GIVEH FOR REFERENCE OHLY SKETCH IS HOT TO SCALE SKETCH HO~OATE EHGIHEER lviC-l 259~tv.cb.5--c

~4 I~~WESTINGHOUSE ELECTRIC CORPORATION ATOMIC POWER DIVIS ION PRELIIIINARY OUTLINE SKETCH DUTY REIlUIREHEHTS L)l+=2 11 OOO/HR.~p BTO f E(UIPIIEHT SPRAT t.u~L Pi t kELT 4V<'YSTEM A,UTIL A R C<O'LAD<PROJECT.G thlhJb, ITEH NO.SPECIAL RE(UIREHEHTS, E FEATURES SHELL p, OUNCE t 4"-iSo e F'LC~ice.Ho TUBE 4" BsM'cH.445 SHELL lh!LE.T'"-150 LB.PLQ, see.40 AIL.om I-I 5 Fr.FoR Svei L.Rawovb 1.TUBE Oozed.T see.405 SKETCH HO DATE RGB'E IIISTALLEO VEF@ZZGi~i HOR I ZOHTALLY 1 pppgag.pgy iqy.7&OO I.BS.(FLOODED'2,500 LGS.)NOTE: DltlEtISI OHS SHOWN ARE APPROXIMATE AtIO ARE GIVEN FOR REFERENCE ONLY SKETCtt IS HOT 70 SCALE QC-I2@3 QKV 3-Z4-6C 8-s-c.c SKETCH REFERENCE EHGIHEER WESTINGHOUSE FORN 543IG

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'I')ll ll>l)I>~SOI 1 5L'I>10'~I 010'0 I sl'I>a'0 Ta)ITT>IOI>401'a>$011 Oll'asc~01'a>S ,01'%>$~ta Enclosure II Status of Seismic Review of Electrical and Instrumentation and Control S stems The Seismic Review being performed on the R.E.Ginna Nuclear Plant electrical systems is intended to establish a technically justifiable level of confidence in the seismic capability (with respect to the integrated functional capability) of these systems.In particular, emphasis is being placed on the identification, and modification or repair of any components with low seismic fragility.