ML20059B946
| ML20059B946 | |
| Person / Time | |
|---|---|
| Site: | 05200004 |
| Issue date: | 01/24/1992 |
| From: | Wilhelmi F GENERAL ELECTRIC CO. |
| To: | |
| Shared Package | |
| ML20059B690 | List: |
| References | |
| 25A5044, NUDOCS 9310290165 | |
| Download: ML20059B946 (60) | |
Text
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GE NuclearEnergy Q't 25A5044 cmo. 2 nov B TABLE OF CONTENTS PAGE NO.
- 1. GENERAL, DIERil'FION 3 1.1 Scope 3 1.2 Function 3 1.3 Description 3 1.3.1 Containtnent Vessel (CV) 3 1.3.2 Safety Envelope 4 1.3.3 Corndor 4 1.3.4 Reactor Building (RB) 4 1.4 A > licable Codes and Standards 5 1.5 A > licable Docurnents 5
- 2. PI ANT CONFIGURATION DATA 7 2.1 7 Contain rnen t Vessel (CV) 2.1.1 Major Dirnensions & Net Volumes of Containtnent 7 2.1.2 Design Environment for Each Space 12 2.1.3 Containtnent Structure Quantities 14 2.2 Safety Envelope 14 2.2.1 Floor Elevation -6400 14 2.2.2 Floor Elevation -1000 15 2.2.3 Floor Elevation 3050 16 2.2.4 Floor Elevation 6600 16 2.2.5 Floor Elevation 10000 17 2.2.6 l'Ioor Elevation 13200 17 2.2.7 Hoor Elevation 17200 18 2.V.8 Iloor Elevation 198D0 18 2,2.9 Floor Elevation 22000 19 2.3 Reactor lluilding (Rit) and Coroiidors 19 2.3.1 Floor Elcsation -G400 19 2.3.2 Floor Elevation -1000 21 2.3.3 Floor Elevation 3050 23 2.3.4 Floor Elevation 6600 25 2.3.5 Floor Elevation 10000 27 2.3.6 Floor Elevation 13200 28 2.3.7 Fksor Elevation 17200 28 2.3.8 Floor Elevation 25300 29 2.3.9 IC/PCC Pool Floor Elevation 25300 30 2.3,10 Refueling Floor: Elevation 25300 31 2.3.11 Refueling Floor: Elevation 32100 32
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- l. GEN!;RAl DESCRil'FION 1.1 &npr This document ci.tablishes conlip,uration parametera for Containment, Safety 1:nvelope and Reactor lhiilding for the design of the Sunplified lioiling Water Reactor (S!1WR) Standard i Pla n t.
1.2 EmKlion. The containment structure houses the Nuclear 150iler System and other ECC System, and >rovides a low leakage barrier to limit radioactive release and spread of fhion products ,
following a 1 esign liasis Accident (DP A).
1.3 Iky,J.ipliam 1.3.1 Canttinment.YesseMCNJ. This is a reinforced concrete cilindrical structure with an internal leak-tight steel hner presidmg the containment boundary. The'CV encloses the Reactor Pressure Vessel (RPV) and its related systems. The CY structure consists of the Drywell, suppression chamber, and Hori/ontal vent system, connecting Dowell and the Wetwell. The opening in the top of the CV for senicing and refueling the RPV is closed by a steel dowcll head.
The CV 1mumlary is shown in Figure 1.
l.31.1 Unwel Dawell (l.h). l. The Drywellis dhided into two principal volumes Upper Dowell (UD) and 1.3.1.1.1 IJppsr DnwrlL(M The UD configuration is shown in Figuie 2. This vohnne, encloses the upper portion of the RPV, the majoi piping systems (main steam, feedwater, GDCS, PCC and 1C hoes. SRVs. DPVs), dowell cooling systems, CDCS pooh, and other miscellaneous systems. Accen in the UD is prosided via a pctsonnel lock and eqmpment hatch. The UD layout prosides platforms with access sia .stmrs for major servicing operations. In addition, monorails will proside access to all major equipment iterns wi:h transport to the U/D equipment hatch.
1.31.1.2 LerirLDowelL(llo The I.D confjoration is shown in Figure 3. This volume encloses the lower portion of RPV below the suppt t uirt, Fine Motion Control Rod Drives (FMCRD), other miscellaneous systems, and provides ruamtenance space below RPV. Arten to the LD is prusided sia a personnellock and equipment batch. The servicing platfor m located at the access Icvel, rotates to facilitate servicing the FMCRDs.
1.31.2 Sg.pression Ch;unber 1.31.2.1 G* space. The gas volume in the suppression chamber serves as the blowdown reservoir for the Upper and lower Drywc!1 nitro; en durmg a LOCA after it passes through the horirontal vents anrf pool. An access hatch is prov;dedi into the suppression chamber gavspace.
1.3.1.2 2 Supr.ruinn Pool. The water volurne in the suppression chamber serves n a heat sink to condense the steam released during an LOCA or by the aRV discharges. It is aho the sint for the IC/PCCS non-condensable discharge. Iow water level conesponds to the minimum water volume needed satisfying the shor t term suppression pool temperature limit as well as adequate vent roserage, liigh water level is set to a, low suppression pool water level control flexibility and via equalircr line for long term.
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- aev 11 The location of the gas space and Suppression Poolin the suppression chamber are shown in F g ure 5, 1.3.1.3 Vent Svstem ,
13.1.3.1 HmiankdXcnh. The llorleontal Vent system consists of eight vertical How channels each with three horizontal vent nozzles. The LOCA blowdown, a mixture of steam / water and nitrogen,is conducted from the Drywell, thru this vent system, and discharged into the suppression pool. The steam in the blowdown is condensed in the suppression pool and the N2 rises into the suppression chamber gas-space. The locations of the verucal flow channels and the horhontalvents
_ are shown in Figure 5.
1.3.1.3.2 LD te UD Canncdit)gXcnLs The SBWR design prosides communication between the LD and UD through 14 connecting vents.The location of the connecting vents are shown in Figure 5.
1.3 2 Safdylmekpc. Is a structure region inside the Reactor Building, completely surrounds CV and Contamment pcnctration. This structure,which is a closed boundary with scaled penetrations, ,
provides a fur ther barrier (other than Containment and Reactor Building) to the fission product release in case of accident. Inside the safety envelope, the safety components included are:1/Rach, CRD, Pump Room, Monitoring Room, Safety Grade liatteries lustrumentation-Electrical Power and FMCRD Hydraulic Units and FMCRD Panel.The 1.ocation of the Safety Envelope is shown in Figure 4 and Figure 11 through Figure 18.
1.3 3 Corridor. This Corridor provides persannel and c}uipment access for 0 maintenance and is located between the Safety Envelope and the remainder o[9eration an the Reactor Building.
The layout plan location of the corridor is shown in Figure 4 and Figure 19 through Figure 26.
1.5.4 Ecactor Buildinc f Riu. The Reactor linilding surrounds the Safety Envelope and contains non safety system. Areas located inside the Rit,in addition to the Contmnment and Safety Envelope, melude the spent fuct storage pool, steam tunnel, main equipment hatch and refueling floor, holation Condenser and Passive Containment Cooling system (IC/PCC) pools and Remote Shutdown Panel. Reference Figure 4 and Figure 19 through Figute 26.
I ? U. 69xiliaOArn L3.4.1.1 liefueline Finor. The Refueling floor, at c!cvation 32.1 meters,is shown in Figure 26.This Door provides laydown space for the drywell head, RPV head and other equipment removed from the reactor during shutdown. Fuel transfer is via an automatic refueling bridge anrt exansfer machine to the spent fuel storage pool.
1.3.4.1.2 IC/PCC Pools. The IC/PCC poolis a single partitioned pool with interconnections near the lx,ttom of each partition and in the air space above the pool to provide full utilization of the water inventory, independent of the operational status of the IC/PLC pool. Three Isolation Condensers and three Passive Containment Coolers are located inside the pool with facility for dry the single space for maintenance. When the pool water is heated to the saturation tempera:urc, vapor is formed and vented to outside of buibhag. The IC/PCC pool has an installed capacity that i provides at lea (t 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> of reac tor decay heat removal capacity. The location of the IC/PCC pool j u shown in F:gure 7. l l
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_g l.3.:4.1.2.1 Panive Containment Cooler. (PCC1. There arc three PCC unit.s in the IC/PCC pot,1. '
The location of the PCC is shown in Figure 8.
i 1.3.4.1.2.2 Isolation Condenser (IC). There are 3 ICs in the IC/PCC pool. The location of the IC. ;
is shown in Figure 7 and 8. ,
1.4. Atmlicabic Codes and Standards. The design of this system shall be in acenrdance with the 1 Codes'a'nd Standards, listed in the Document " Plant Composite Specification", as applicable.
1.5 Aunlicable Documents. The following Design System Documents are to be used in co'njunction with this specification:
Ref. Design ,
.' . MPI, No ;
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- 1. Reactor System Data - Al1-5281 l i 2. Arrangement Reactor Buihling A12-2010 ;
- 3. Containment Systern T10-1010
- 4. 1Aad Combination and Acceptance Criteria All-2032
- 5. Dr>well A12-5010 '
- 6. Suppression Chamber A12-5020
- 7. Fquipment Environmental Data Specification Al1-2020 !
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- 8. Reactor Shield Wall Design T12-2040 ;
- 9. Plant Composite Specification Al 1-52W
- 10. Reactor Building Structure A10-1000 f
- 11. Auxiliary Core Coolant Makeup System Design All-3007
- 12. Isolation Condenser System B32-1010
- 13. Passive Containment Cooling Systern T15-1010
- 14. Safety Relieve Wlve B21.F020
- 15. SRV Discharge Quencher B21-F030
- 16. Dr>well Cooling System T41 1010
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- 17. Reactor 1leat llalances ' Al 1-5282 -i
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1 H. Containmen t I,oads A25-LOGO .
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- 19. Str octural l>csign General Criteria A40-1050 l
- 20. 1 calITetection and Isolation Sptem C214010 j
- 21. Containment Atmospheric Monitoring System P23-4010 L
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- 2. I'! ANT CONFIGURATION DATA 2.1 ConIainmsnLXcx1(CD 2.1.1 Midor.Dimensoniand Net Volttmcs of CoulaituncnLDn 31 2.1.1.1 Ito x c1]
2.1.1.1.1 1]pper Drmell (Sec Figure 2).
Diameter Diameter Height Voivme OD (m) ID (m) (m) (m3)
Zone 1: 31.5 5.95 4637 Zone 2: (1) 12.1 11.25 1294 Vortical Flow Channets: (8)
Zone 3: 1.2 7.25 66 Drywell Head and Drywe!! Cy!inder Zone 4;
- a. Drywell Cylinder 8.9 3.403 212
- b. Segmont 8.9 2,772 97 Internat Structure:
RPV Part:
a) Cylinder 6.308 15.426 -482 b) Skirt 6.998 7.464 1.719 -71 c) Head -20 Shield Wall 8.52 82 17.2 -72 GDCS Pools (2) -101G Piping. Equipment, and Misc Structure (1%) -46 Upper Drywell Not Volume 4599 Volume Below Conter of Equarzer Line Zone 5:
Part 1 12.1 1.393 GO Part 2 8.52 8.2 1.393 -6 Part 3 3.539 3.732 1.393 __53 96 Note: 1) Zone 2 includes volume below center of equalizer line: (Zone 5)
- 2) Vo!ume for upper dryweti calculatbn only. for GDCS volume see 21.1.1.1.1.
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25A5044 m m. 8 nu B 21.1.1.1.1 GDCS Pools. These are in all three GDCS Pools located inside the UD, see Figures 6 and 17.
I Water Volumo Por Tank Total Volume l Rad;us R Height Area Volume (for 3 tanks)
(m) (m) (m2) (m3) (m3)
HWL 15.75 5.65 62.17 351 1054 GDCS Zone 1' NWL 15.75 5.6 62.17 348 1044 LWL 15.75 5.55 62.17 345 1035 Non-Drainabte Water Volume Per Tank Total Volume Radius R Height Area Volume (for 3 tanks)
(m) (m) (m2) (m3) (m3)
GDCS Zone 2 15.75 0.3 62.17 19 56 Water Volume Per Tank (Betwoon NWL and Bottom of DPV Vecsci Nozzic)
Tota! Volume Radius R lleight Area Votume (for 3 tanks)
(m) (m) (m2) (m3) (m3)
GDCS Zone 3 NWL 15.75 3.0 62.17 187 560 Air Volumo Por Tank Tota! Votume Radius R Height Area Volume (for 3 tanks)
,, (m) (m) (m2) (m3) (m3)
HWL 15.75 0.45 62.17 28 84 GDCS Zone 4 NWL 15.75 0.5 62.17 31 93 LWL 15.75 0.55 62.17 34 103 HWL - High Water Level; NWL - Normal Water Level; LWL - Low Water Level
.- NOTE:
- Zone 1 includes volumes of Zones 2 and 3.
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25A5044 nrv 11 cmo. 9 2.1.1.1.2 I nwcr thpie)) (Sec Figure 3).
I Diameter Diameter OD (m) or ID (m) or Volume R1 R2 Heig)ht (m (m3)
Zone 1 3.007 3.4G5 1.067 42 Zone 2 7 1.55 00 Zone 3 8.2 1.97 104 2000 4 10.9 9.38 875 Zone 5 9.2 3.2 213-Connected Vents (14) 0.82 3.52 26 Internat Structure:
RPV Cytinder 6.308 7.17 -227 Shield Wall 8.52 8.2 12.38 -52 FMCRD (177) 0.155 4.116 -14 Ring Girder 8.2 2.05 -108 5.2 1.55 33
, 6.683 5.2 0.5 14 Protective Leyer 8.2 1 -53 Piping. Equiprnent and Misc. Structures -9 (1%)
Lower Drywe!! Net Volume 904 2.1.1.2 Suppression Chanttu (Sec Figure 5).
2.1.1.2.1 Gas Space -
Diameter Diameter Volume OD (m) ID (m) Heig)ht (m (m3)
Gas Zone 31.5 15.6 6.45 3794 (HWL)*
Equipment Hatch (0.1%) . -4.0 3790 Gas Zone 31.5 15.6 6.5 3823 (NWL)*
Equipment Hatch (0.1%) -4.0 3819 Gas Zone 31.5 15.0 6.55 3853 (LWL)*
Equipment Hatch (0.1%) -4.0 3849 h did.jfkb . .
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2.1.1.2.2 Sonoression I*ool i
Surface Water Diameter Diameter Area ' Volume OD (m) ID (m) (m2} - Heig)ht (m (m3)
Main Zone HWL) 31.5 15.6- 588.18 5.5 3235 Main Zonc NWL) 31.5 15.6 588.18 5.45 320G Main Zone LWL) 31.5 15.6 588.18 5.4 3176- ,
VerticalVent HWL)(8) 1.2 9.0 5.19 47 VerticalVent HWL)(8) 1.2 9.0 5.14 47 .
VerticalVent LWL)(8) 1.2 9.0 5.09 46- .
Total Volumo HWL) 3282 ,
TotalVolume NWL) 3253 TotalVolume LWL) 3222 s Water Volume Above PCG 31.5 16.6 588.18 0.75 441 .
Ventline (from NWL) -l Water Volumo Above Top 31.5 15.6 597.18 2.3 1374 of Middle Vent (from NWL)
Water Votume Above 31.5 15.6 597.18 2.68 -1600 Bottom Equali7er Line (from NWL)
Gas Volume HWL)/ Upper & Lower Drywell Volume Ratio 0.69
- Gas Volume NWL)/ Upper & Lower Drywell Volume Ratio 0.69 Gas Volume LWL)/ Upper & Lower Drywell Volume Ratio 0.70
- HWL - High Water Level; NWL - Normal Water Level; LWL - Low Water Level 2.1.1.3 Ent Systern (See Figure 5).
2.1.1.3.1 hui 1al Flow Channels Number of Vertical Flow Channets 8 inside Diameter (m) 1.2 Height (m) 12.39 i
21.1.3.2 Ilorizontajlents Number of Vents (por Vorticai Channet) 3 Totat Number of Horizontal Vents 24 inside Diamator (m) 0.7 Vents Length (m) 0.7 ;
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2.1.1.3.2 (Continued)
Horizontal Vents Area Submergence at Height above' Pool l (Location from centerlino) (m2) NWL (m)- - Floor (m) -
Top Row 3.08 1.95 3.5 Middle Row 3.08 3.32 2.13 Bottom Row 3.08 4.69 0.76 !
2.1.1.3.311LLLo LD ConnenedXcnu (Sec Figures 3 and 13).
Number of Connectin0 Vents 14 r 1
inside Diameter (m) 0.82 ,
Height (m) 3 670 j 21.1.4 Safdy/KdiemDinhagt.Lini (Sec Figure 28). There are 8 SRV discharge lines, equipped l with X-quencher discharge deuce. ..
Line Sites - 10" Sch 40 and 12 Sch 40 in Drywell Region. i 10" Sch 40S in Suppression Chamber Region.
2.1.1.5 kOuenchcL(Sec Figure 28). There are 8 X-Quencher in the suppression pool. The design is similar to the design for Mark Ill.
2.1.2 ltc31gn limiron!ncnt for Each Spacc ,
2.1.2.1 Design Condition 21.?.1.1 IJppsL41nL] ower Ibvwell Design Pressure 379.223 KPa (55 psig) -
Design Temperature .
I Short Term 171*C (340'F)
Long Term 150.5'C (303 F) ,
internal External Differential Pressure -13.73 KPa (-2.0 psid) :t Nitrogen inerted Level <3.5 % Oxygen by volume j i
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'*-' 25A5014 new li ew. 12 21.21.2 Suppreuinn_ Chamber Design Pressuro 379.223 KPa (55 psig)
Design Temperature 104 C (219F) l N trogen inerted Levei
. <3.5 % Oxygen by volume Drywell Pressure minus 42.46 Kg/cm2d (435 psid)
Supprocsion Chamber Air Pressuro -13.73 KPa (-2.0 psid)
AP range Suppression Chamber Maximum Temperature Short Term (end of bowdown) 76.7'C (170 F)
Long Term 100 C (212'F) 1 2.1.2.1.3 Horizontal Vent System j Design Pressure 379.223 KPa (55 psig) l Design Temperature 171*C (340*F) i 2.1.2.1.4 Con tainmen t I cal Rates i l
Maximum Containment Leakage 0.5% of Containment l Volumo por 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> Pressure 55 psig Maximum Safety Envelope Leakage 25% of Safety Envelope Free volume at 6 mm water differential pressure per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.
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1 GENuclear Energy l Q. 25A5044-av B r#< wa. 13 2.1.2.2 Opupting Conditions 2.1.2 2.1 Upper aml Iowei Divwell Pressure during Normal Operation Nominal 106.89 KPa (15.45 psia) 109.83 KPa (16.0 psia)
Maximum Minimum 101.01 KPa (14.7 psia) t Temperature dur:ng Normal Operation Nominal:
Upper Drywell (Average) 57.2^C (135 F)
Lower Drywell (Average) 57.260 (135*F) .
Relative Humidity during Normal Operation Nominal 20 %
Drywcli Pressuro SCRAM Initiation sotpoint 13.73 KPa(2.0 psig) 2.1.2.2.2 Snyptenion Chamleri Pressure during Norma 10peration Nominal 106.89 KPa (15.45 psia)
Maximum 109.83 KPa (16.0 psia) ,
Minimum 101.01 KPa (14.7 psia)
Suppression Pool Temperature during Normal Operation:
Maximum 43.3*C (110*F)
Hot Standby Maximum 49cC (120*F)
Air Space Temperature during 35'O (95 F) '
Normal Operation Cond; tion Maximum Humidity during 100 %
Normal On- at;on Cond. tion !
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Structuralldentification Thickness '
(m) Material Description-Drywc!1 top slab 2.0 Reinforced concrete with liner bottom :
Diaphragrn floor: 0.6 - Steel structure filled with concrete Suppression pool slab 2.0 Reinforced concrete with liner top, steel form bottom Containment Wall 2.0 Reinforced concrete with liner insido :
Pedestal 2.4 Reinforced concrete with linor loside '
and with steel form outside Vent Wati Structure 0.2/0.35' Steel structure fill with concreto .
(per vont)
GDCS Wall (3 poo!s) 0.25/0.04 Deam/ plate steet structure NOTE: Liner plate Thickness = 0.000t m
'This is inside and outside ligament thickness ,
2 2 Mq1) Envdepq 2 21 IkOLDevation -6100 (Sec Figure 1I)
Area (1) Height Volume (1)
Room Description (m2) (m) (m3) '
instr. Racks Room 1 17 5 85 instr. Racks Room 2 17 5 85 Instr. Racks Room 3 17 5 85 -)
+' instr. Racks Room 4 17 5 85 Room 5 10 5 50 HCU Maint. Area Room 6 25 5 125 HCU Maint. Area Room 7 25 5 125 ,
Room B 6 5 30 HCU Room 9 138 5 090 HCU Room 10 138 5 690 '
FMCRD Maint Area Room 11 CRD Pump Room 13
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115 5 575 NOTE: 1) These are approximate vaives. , i Equipment, piping and m3.cellaneous structure occupy approximate!y 10% of roorn volume. l i
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Area (1) Height Votume (1)
Room Description (m2) (m) (m3)
Elec. Div 1 Room 1 17 3.2 54 Ele:. Div 4 Roorn 2 17 3.2 54 Eto . Div 2 Room 3 17 3.2 54 Ele:. Div 3 Room 4 17 3.2 54 Room 5 10 3.2 32 Room 6 25 3.2 80 Room 7 25 3.2 80 Room 8 6 3.2 19 FMDC Room 9 138 3.65 504 FMDC Room 10 138 3.65 504 FAPCS isolat. Valve Room 11 22 3.65 80 ,
3 5.45 16 ..,
RWCU/SDC 'A' Room 12 9 3.65 33 3 '5.45 16 '
RWCU/SDC *B' Room 13 9 3.65 33 - -
3 5.45 16 -
Room 14 10 3.65 37
.3 5.45 16 RMCC and RBCC Room 15 115 3.65 420 Room 16 10 3.65 37 NOTE: 1) These are approximate values.
Equipment, piping and miscellaneous structure occupy approximately 10% of room volume.
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GENuclear Energy 25A5044 m g,, 3g REW b 2 2.3 firagr Elevation 3050 (See Figure 13) i Area (1) Height Volumo (1)
Room Description (m2) (m) (m3)
Elec. Div 1 Room 1 17 3.25 45' Elec. Div 1 Room 2 25 3.25 81 Etoc. Div 4 Room 3 25 3.25 81 Elec. Div 4 Room 4 17 3.25 55
. Elec. Div 2 Room 5 17 3.25 55 Eloc. Div 2 Room 6 25 3.25 81 Elec. Div 3 Room 7 25 3.25 81 Room 8 6 3.25 20 Elec Div. 3 Room 9 17 3.25 53'
,, NOTE: 1) These are approximate values.
Equipment, piping and misce!!aneous structure occupy approximately 10% of room volume.
These values after deduction volume of cable ducts 2 2 4 ELoor Elevation (4n0 (See Figure 14)
Area (1) Height Volumo (1)
Room Description (m2) (m) (m3)
Elec. Div 1 Room 1 17 2.8 48 Battery Room Div.1 Room 2 25 2.8 70 Battery Room Div. 4 Room 3 25 2.8 70 Elec. Div 4 Room 4 17 2.8 48 Etc~ Div 2 Room 5 17 2.8 48 Battery Room Div. 2 Room 6 25 2.8 70 Battery Room Div. 3 Room 7 25 2.8 70 Room 8 6 28 17 Etc. Div. 3 Room 9 17 28 48 NOTE: 1) These are approximate values.
E quipment, piping and misce!:aneous structure occupy approximatofy 10% of roce volume.
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% _37 2 2 5 Floor Flevation 1000 (Sec Figure 15)
Arca (1) He!Oh! Volume (1)
Room Description (m2) (m) (m3)
Battery Room Div.1 Room 1 17 3 51 Battery Room Div,1 Room 2 25- 3 75 Dattery Room Div. 4 Room 3 25 3 75 Battery Room Div. 4 Rc,om 4 17 '3 51 Battcry Room Div. 2 Room 5 17 3 51 Battery Roam Div. 2 Room 6 25 3 75 Battery Room Div. 3 Room 7 25 3 75 Room 8 6 3 18 Battery Room Div. 3 Room 9 17 3 51 NOTE: 1) These are approximato values.
Equipment, piping and miscellaneous structure occupy approximatefy 10% of room volume.
2,2 6 Boo 11!cration 13200 (Sec Figure 16)
Area (1) Height Volume (1)
Room Decer;ption (m2) (m) (rn3)
Elec D:v 1 Room 1 17 2.73 46 E:ec. Div 1 Room 2 25 2.73 68 Elec Div 4 Room 3 17 2.73 46 Elec. Div 2 Room 4 17 2.73 46 Elec. Div 2 Room 5 25 2.73 68 Elec. Div 3 Room 6 25 2.73 68 Roc >m 7 6 2.73 16 Elec. Div. 3 Room 8 17 2.73 4G NOTE: 1) These are approximate values Equipment, piping and miscellaneous structure occupy approximately 10% of room volume.
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Area (1) Height Volume (1) '
Room Description (m2) (m) (m3)
Containment Penetrat. Room 1 16 2.3 . 37 Containment Penetrat. Room 2 21 2.3 '48 Containment Penetrat. Room 3 38 2.3 87 ,
Containment Penetrat. Room 4 13 2.3 30 Containment Penetrat. Room 5 8 2.3 18 SLCS Room 6 (2) 19 2.7 51 Containmont Penetrat. Room 7 9 2.3 21 Containment Penetrat. Room 8 13 2.3 30 NOTE: 1) These are approximate values.
Equipment, piping and misceilaneous stru0ture occupy approximately 10% of room volume.
- 2) Multiple floor rooms are determined by addition of the ind;vidual floor volumes (See Figure 9) 2.2.8 Flooriltralian.19R00 (Sec rigurc 18)
Area (1) Volume (1)
- Room Description (m2) Heig)ht (m (m3)
Containment Penetrat. Room 1 19 4.1 78 Containment Penetrat. Room 2 19 4.1 78 Containment Penetrat. Room 3 19 4.1 78 Containment Penetrat. Room 4 19 4.1 78
.. SLCS Room 5 (2) ~ 22 4.1 90 NOlE: 1) These are approximate values.
Equipment. pip:ng and miscet aneous structure occupy approximately 10% of ,
room volume. i
- 2) Multiple floor rooms are determined by addition of the individual floor volumes i (See Figure 9) f f
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~' Area (1) Holght Volumo (1)
Room Description (m2) (m) (m3)
Room 1 22 1.9 41 l Room 2 30 1.9 57 I NOTE: 1) These are approximate values.
Equipment, piping and miscellaneous structure occupy approximately 10% of room volume. ;
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? S & actor Iluilding mit) and Corridor 3 2.3.1 Fk>or Elev. -6400 (See Figure 19) i Area (1) Height Volumo (1)
Room Description (m2) (m) (m3)
ELECTRICAL NON-SAFE TY-RELATED LOAD GROUP N1:
Room 1 77 5 385 Room 2 31 5 155 Room 3 40 5 200 Room 4 36 5 180 Room 5 36 5 180 Room 0 29 5 145 ELECTRICAL NON-SAFETY-RELATED LOAD GROUP N2-Room 12 77 5 385 Room 11 31 5 155 Room 10 40 5 200 Room 9 36 5 180 Room 11 36 5 180 Room 7 29 5 145 INSTRUMENT PANEL NON-SAFETY-REl ATED Room 13 54 5 270 Room 37 54 5 270 I ROCWS *B* Recm 14 60 5 440 i RCCWS 'A' Room 15 94 5 470 Room 16 135 5 675 4
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Area (1) Height Votume (1)
Roem Description (m2) (m) (m3)
FAPCS BACKWASH HECEIVING TANK / PUMP; Operating Roc 4n 17 23 5 115 Backwash Tank Room 18 43 5 215 Valve Room 19 11 5 55 Pump Rcom 20 16 5 80 RWCU/SDC *tP:
Operating Room 21 20 5 100 Valve Room 22 18 5 90 Vaivo Room 23 14 5 70 Pump Roorn 24 37 5 172' RWCU/SDC 'A' Opsrating Rcom 25 23 5 115 Valve Room 26 23 5 115 Valve Room 27 14 5 70 Pump Room 28 35 5 162*
Sump Room 29 18 5 90 FAPCS*B' Pump Room 30 38 5 190 Operating Room 31 15 5 75 Valve Room 32 11 5 55 FAPCS"A' Pump Room 35 30 5 132' Operating Room 34 14 5 70 Valve Room 33 11 5 55 Change Room 3G 44 3 132 Room 38 17 5 85 Room 39 17 5 85
- Volume after deduction pipe chaw.
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Area (1) Height Volume (1)
Room Description (m2) (m) (m3)
Corridor (Part ia) 23 5 115 Corridor (Part 16) 117 3 351 Corridor (Part 1c) 111 5 555 Corridor (Part 2) 68 5 340 Corridor (Part 3) 156 5 780 NOTE: 1) Tnese are approximate values.
Equipment, piping and miscolianeous structure occupy approximately 10% of
,- room volume.
2.3.2 Floor Elev. -1000 (Sec Figure 20)
Arca (1) Height Volumo (1) ,
Room Descriptico (m2) (m) (m3)
ELECTRICAL SWITCHGEAR/ POWER CENTERS NON-SAFETY-RELATED LOAD GROUP N1:
Room 1 54 3.65 197 Room 2 138 3.65 504 Room 3 114 3.65 416 ELECTRICAL SWITCHGEAR/ POWER CENTERS NON-SAFETY-RELATED LOAD GROUP N2:
Room 4 107 3.65 391 Room 5 61 3.65 223 Room 6 83 3.65 303 Room 7 54 3.65 197 RCCWS *B' MCC Room 6 7 3 65 26 Rc.om 9 (2) 78 3 65 285 RCCWS 'A*:
MCC Room 11 9 3.65 33 '
i Room 10 (2) 82 3.65 299 RWCU DEMIN 'B' Operat:ng and MCC Room 12 14 3 65 51 l Valvo Room 13 12 3 65 44 RWCU Demin 'A*-
Operating and VCC Room 1o 11 3.65 40 E.;3Q af.t.w
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Area (1) Height Volume (1)
Room Description (m2) (m) (m3)
Valve Room 14 9 3,65 33 FAPCS FILTER DEMIN 'B'-
Filter Room 16 (2) 10 3.65 37 MCC Room 17 4 3.65 15 Operating Room 18 18 3.65 66 FHlor Room 19 (2) 10 3.65 37 Valvo Room 20 11 3.65 40 Fitter Room 21 (2) 10 3.65 37 FAPCS FILTER DEMIN 'A':
MCC Room 25 3 3.65 11' Filter Room 22 (2) 10 3.65 37 Fitter Room 23 (2) 10 3.65 37 Valvo Room 24 10 3.65 37 Operating Room 27 18 3.65 66 Fl: tor Room 26 (2) 10 3.65 37 RWCU/SDC 'B -
Room 29 18 3.65 66 Regen Heat Exch. Rocm 28 (2) 35 3.65 128 Non Regen Heat Exch. Room 30 (2) 24 3.65 88 VCC Room 31 13 3.65 47 RWCU/S DC "A*-
Regen. Heat Exch. Room 32 (2) 39 3.05 142 Room 33 15 3.6,5 55 Non-Regen Heat Exch. Room 34 (2) 32 3.65 117 MCC Room 35 11 3 65 40 FAPCS*B';
Heat Exchanger Rcom 30 (2) 33 3 65 120 Va!vo Room 38 11 4.65 51 Operating and MCC Rrx;m 37 15 3.65 55 FAPCS'A*:
Valve Room 39 11 4.65 51 Heat Exchanger Room 41 (2) 30 3,65 110 Operating and MCC Room 40 14 3.65 51 i
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Area (1) Height Volume (1)
Room Description (m2) (m) (m3)
Change Room 42 44- 3.65 161 CORRIDORS:
Pad 1 192 3.65 701 Part 2 68 3.65 248 Part 3 259 3.65 945 NOTE: 1) These are approxirnate values.
Equipment, piping and misce!!ancous structure occupy approximately 10% of-room volume.
. 2) MulUple floor rooms are determined by addition of the individual floor vo;umes (see Figure 9) 2.3.3 Ek>or Elt n 3020 (see rigure 21)
Area (1) Height Volume (1)
Room Description (m2) (m) (m3)
Room 1 81 3.25 263 Room 2 67 3.25 218 i CABLE ROOM:
Room 9 7 3.25 23 Cable - Room 3 14 3.25 46 Cablo - Room 8 14 3.25 46 Cob;e - Div 1 Room 5 11 3.25 36 Cable - Div 2 Room 7 11 3.25 36 Cabte - Div 3 Room 6 11 3.25 36 Cable - Div 4 Room 4 11 3.25 36 Room 10 36 3.25 117 Room 11 8 3.25 26 Laundry Room 12 24 3.25 78 Change Room 13 49 3.25 159 Monitor Room 15 11 3.25 36 Health Physi::s Room 14 42 3.25 137 RCCWS 'O' Room 16 (2) 86 6.35 559 ROCWS 'A' Room 17 (2) 94 6.35 597 RWCU DEMIN. 'B'-
Access Room 18 (2) 14 3.25 46 Domin Room 19 (2) 12 3,55 43 JH! L _ um.
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Area (1) Height - Volume (1)
Room Description (m2) (m) (m3)
RWCU DEMIN. 'A*:
Access Room 21 (2) 11 3.25 36 Domin Room 20 (2) 9 3,55 32 FAPCS FILTEH DEMIN 'B':
Fitter Room 22 (2) 10 3.55 36 Operating Room 23 (2) 24 3.25 78 Filter Room 24 (2) 10 3.55 30 Domin Room 25 (2) 11 3.55 39 Filter Room 26 (2) 10 3.55 36 FAPCS FILTER DEMIN 'A*:
Operating Rcom 29 (2) 23 3.25 75 Filter Room 27 (2) 10 3.55 30 Domin Room 30 (2) 10 3.55 36 Fliter Room 31 (2) 10 3.55 30 Filter Room 28 (2) 10 3.55 36 RWCU/SDC 'B':
Access Room 33 14 2.75 39 Access Room 35 7 2.75 19 Regen Heat Exch. Room 32 (2) 33 3.55 117 Non Regen Heat Exch. Room 3G (2) 23 3.55 82 Equ!pment Shaft Room 34 (2) 10 2.75 28 RWCU/SDC 'A*:
Access Room 38 16 2.75 44 Access Room 41 9 2.75 25 Reg Heat Exch Room 37 (2) 38 3.55 135 Equipment Shaft Room 39 (2) 10 2.75 28 Non-Regen Heat Exch. Room 40 (2) 25 3.55 89 FAPCS 'A*:
Heat Exchanger Room 421 (2) 2G 3.55 92 Heat Exchanger Room 42 2 (2) 12 2.55 31 Access Room 43 15 2.95 44 WM1
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Area (1) Height Volume (1) !
Room Description (m2) (m) (m3) J FAPCS*B':
Heat Exchanger Room 45-1 (2) 22 3.55 78 Heat Exchanger Room 45-2 (2) 14 2.55 36 Operating Room 44 14 2.95 41 Change Room 46 44 3.25 143 CORRIDORS:
Part 1 181 3.25 545' Part 2 257 3.25 825*
Part 3 89 3.25 223' Part 4 36 3 25 103*
NOTE: 1) These are approximate values.
Equipment, piping and miscellaneous structure occupy approximately 10% of room volume. ,
- 2) Muttiple floor rooms are tietermined by addition of the individual floor volumes (see Figure 9)
Volumes after deduction of pipe chase.
214 Ik.or Elev. 0600 (See Figure 22)
Area (1) Height Volume (1)
. Room Description (m2) (m) (m3)
BACK PANEL AREA:
Back Panet Room 1 99 2.8 277 Back Panel Room 2 42 2.8 118 Back Panet Room 3 42 2.8 118 Back Panel Room 4 41 2.8 115 Back Panel Room 5 41 2.8 115 Back Panel Room 6 49 2.8 137 Clean Snop Room 7 189 2.8 529 RCCWS *B' Room 8 (2) (See Floor Elcv. 3050)
RCCWS 'A' Rcom 9 (2) (See Floor Elev. 3050)
RWCU DEMIN. *B'-
Access Room 10 (2) 14 2.8 39 ,
Domin Room 11 (2) 12 2.8 34 w g -- -
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Area (1) Height -- Volume (1)'
l- Room Description (m2) (m) (m3)
RWCU DEMIN. ' A*:
Access Room 12 (2) 11 2.8 31' $
Domin Room 13 (2) 9 2.8 25:
FAPCS FILTER DEMIN *B':
Filter Access Floom 14 (2) 10 2.8 28 1 Access Room 15 (2) 24 2.8 67 .
Filter Room 16 (2) 10 2.8 28 l Demin Room 17 (2) 11 2.8 31 l Filter Room 18 (2) . 10 2.8 28 -j FAPCS FILTER DEMIN 'A*: l Access Room 20 (2) 23 2.8 64 Fl:1or Room 21 (2) 10 2.8- 28 l .- Domin Room 22 (2) 10 2.8 28 l Fi: tor Room 23 (2) 10 2.8 28 Filter Room 19 (2) 10 28 28 RWCU/SDC 'D*:
i Regen Heat Exch. Room 24 (2) 57 2.6 148 ,
Non Regen Heat Exch. Room 25 (2) 31 2.6 81 i RWCU/SDC 'A':
Rogon Hoat Exch. Room 26 (2) 64 2.6 166 Non-Regen Heat Exch. Room 27 (2) 30 2.6 94 FAPCS 'A*:
Heat Exchanger Room 29 55 2.8 154 l FAPCS*B
Room 26 50 2.8 140 l Hoat Exchanger Room 30 35 2.8 98 Computer Rcom 31 51 2.8 143 Corridor 493 2.8 1380 NOTE: 1) These are approximate values.
Equipment, piping and miscellaneous structure cccupy approximately 10% of room volume.
- 2) Mu'tiple floor rooms are determined by addition of the individual floor volumes (see Figure 9) i k
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Area (1) Height Volume (1)
Room Description (m2) (m) (m3)
CONTROL ROOM:
Main Control Area Room 3 149 3.6 533 Shift Tech. Advisor Room 1 21 3 63 Switch and Tag Room 2 12 3 36 Operators Area Room 4 55 3 165 Shift Super. Room 5 21 3 63 Shift Supvr. Conference Room 6 20 3 60 Room 7 11 3 33 Room B 3 3 9 Room 9 12 3 36 Equipment Shaft Room 10 (2) 7 3 21 Room 11 -131 3 393 RSS Room 12 11 3 33 RCCWS 'A' & *B" Shop Room 13 185 6.6 1221 FAPCS/RWCU Fliter/Demin Shop Room 14 255 6.6 1683 Contaminated Shop Room 15 478 6.6 3099*
Change Room 16 44 3 132 CORRIDORS:
Pad 1 170 3 510 Part 2 68 6.6 449 Part 3 80 6.6 1290 Pan 4 101 3 303 NOTE: 1) These are approximate viuves.
Equipment, piping and miscetlaneous structure occupy approximate!y 10*4 of scoms volume.
- 2) f/ultip!c floor rooms are dotermined by addition of the individual floor volumes (see Figure 9)
Volume after deduction of steam tunne!
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2 3.6 Floor Elev.13200 (See Figure 24)
Area (1) Height Volume (1) i Room Description (m2) (m) (m3) ;l TECHNICAL SUPPORT CENTER: ;
Room 1 52 3.4 177 l Room 2 146. 2.8 409 !
Room 3 125 3.4 425 'l HVAC R/B + MCR Chi!!ers:
, Chiilers *A* Room 5 154- 3.4 524 [
Chillers 'B' Room 4 120 3.4 408 !
Change Room 6 44 3.4 150' '
CORRIDORS:
Corridor Part 1 164 ' 3.4 558 . ,
Corridor Part 2 68 2.4 163 'f NOT E: 1) Thor.o are approximato values. l Equipment, piping and miscellaneous structure occupy approximately 10% of - ,
room volume.
2.3.7 Hug 2J;.inJ1200 (Sec Figure 25) 'l
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Area (1) Volume (1) .
- Room Descrip'. ion (m2) Heig)ht (m (m3) 3 HVAC CREHVAC. Equipment Room 1 309 6.7 2070 l Room 2 26 2.5 65 l Change Room 3 50 2.5 125 Room 4 35 25 68 Equipment Hatch Room 5 (2) 32 8.7 278 j CONTAMINATED SHOP: 'l Room 6 26 6.7 -174 i Room 7 104 6.7 697 i Room 8 137 6.7 918 60 4.1 246 Change Room 9 55 2.4 132. !
CORRIDORS:
Part 1 108 6.7 508 Part 2 33 6.7 221 l
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2.3.7 (Continued)
Area (1) Height Volume (1)
Room Description (m2) (m) (m3)
Far13 164 8.7 1003 Part 4 144 6.7 948 NOTE: 1) These are approximate values.
Equipment, piping and misco!!ancous structure occupy approximately 10% of room volume.
- 2) Muttiple floor rooms are determined by addition of the individual floor volumes (see Figure 9) ,
2.3.8 Fkvir I 1cv 2;300 (Sec Figuie 10)
Area (1) Height Volume (1)
Room Description (m2) (m) (m3)
~
Room 1 12 5.8 70 ;
Surge Tank Room 2 8 5.8 46 ;
HVAC CONAVS/REPAVS SUPPLY EQUIPMENT:
HVAC Equipment 'B' Rcom 3 197 5.8 1143 HVAC Equipment *A* Room 4 194 5.8 1125
.- Moisture Separator Room 5 28 5.8 162 Moisture Separator Room 7 28 5.6 162 Room 6 67 5.8 389 HVAC EXHAUST EQUIPMENT:
HVAC Equipment "B" Room 8 183 5.8 1001 HVAC Equipment "A" Room 9 120 5.8 696 Surge Tank Room 10 9 5.8 52 Room 11 12 5.8 70
. Equipment Hatch Room 12 (2) 31 6.8 211 CORRIDORS:
Part 1 42 5.8 244 Part 2 115 5.8 667 NOTE: 1) These are approximate values.
Equipment, piping and miscellaneous ciructure occupy approximato!y 10% of room volumc.
1 2) Multiple floor rooms are determined by addition of the individual floor volumes !
(sco Figure 9) ,
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Water Total Rimensions (m) Area Depth IC/PCC Water Air Total Air Room (m2) (m) Volume Volumo
- a b A H (m3) (m3) Heig)ht (m IC/PCC Part Volume V
1 6.075 12.45 75 38 4.4 331.69 1.4 105.54 2 6.07'.i 11.5 69.61 4.4 306.30 1.4 97.46 3 6.075 13.05 79.03 4.4 347.73 1.4 110.64 -
4 5.475 5.675 31.07 4.4 136.71 1.4 43.50 5 5.475 6.175 33 81 4.4 6.6 142.16 1.4 0.3 47.03 6 5.475 5.45 29.84 4.4 131.29 1.4 41.77 7 5.475 5.45 29.84 4.4 7.6 123.69 1.4 0.02 41.75 B 5.475 6.175 33.81 4.4 6.6 142.16 1.4 0.3 47.03 9 5.475 6 275 34.3G 4.4 151.16 1.4 48.10 10 5.475 5.675 31.07 4.4 136.71 1.4 43.50 11 5.475 6.175 33 81 4.4 148.76 1.4 47.33 12 5.475 5.45 29.84 4.4 7.6 123.69 1.4 0.02 41.75 13 5.475 5.45 29.84 4.4 7.6 123.69 1.4 0.02 41.75 14 5.475 6.175 33.81 4.4 6.6 142.16 1.4 0.3 47.03 15 5.475 6.275 34.36 4.4 151.16 1.4 48.10 16 0.075 12.45 75 38 4.4 331.69 1.4 105 54 17 6.075 11.5 69.61 4.4 336.30 1.4 97.46 18 6.075 13.05 79.03 4.4 347,73 1.4 _UOM 3G24,75 1165.93 Room ID L
- (m) (m) 19 0.7 13.7 5.27 Total Water Volume 3G30.02 Boiloff height nbovo PCC tuber, 1.51 (m)
Boiloff water volume above PCC 1246 (m'3)
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2.3.10 RefelintFlosnlinittien.251QQ (See Figure 10) l Floor Helaht Water Air Air + Water Arca FY Volumo Volume Volume Description (m2) (m) (m3) (m3) (m3)
SPENT FUEL STORAGE POOL 13:
Region Spent Fuel 103 3.8 391 )
Region Above Spent Fuel 110 6.5 715 Air Space 110 0.3 33 Estimated Fuei and Racks Volume -133 TOTAL: 973 33 1006 SPEN 1 FUEL TRANSFER P6T 14 Lower Region 32 5.8 186 Upper Region 27 0.7 19 Air Space 27 0.3 8 i Concrete at Grid 4 1.4 -f; TOTAL: 199 8 207 NEW FUEL STORAGE POOL 18 Lower Region 97 5.8 563 Upper Region 87 0.7 61 Air Space 87 0.3 26 -- ;
Estimated Fuei and Racks Volume -23 TOTAL: '601 26 627 RE ACTOR WELL 15 !
Water Region 110 6.5 715 .
Air Space 110 0.3 33 ;
Dryweil Head Volume -190 !
TOTAL: 525 33 558 STEAM DRYEFVSEPARATOR STORAGE POOL 16
- Water Region 98 6.5 637 Air Space 98 0.3 29 TOTAL- 637 29 600 CASK PIT 17 )
Regian Cask 30 3.8 114 Region Above Cask 51 6.5 332 ,
Air Space 51 0.3 15 445 )
Estimated Cask -16 TOTAL: 430 15 445 l
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- 2r>A5044 m wa. 32 m 11 2110 IConlimitiD TRANSFER POOL TO CASK PIT 20 Lower Region 51 5.8 296 Uppor Region 40 0.7 28 Air Spaco 40 0.3 TOTAL: 324 12 336 NEW FUEL INSPECTION plt 21 9 6.8 61 NEW FUEL VAULT ROOM 19 6.8 129 2111 Rtfugling Floor: Elevation $2HLO (Sce Figure 26)
Floor Height Air Area H Volume Description (m2) (m) (m3)
HVAC CLAVS Equipment Room 1 323 9.5 3069 Change Room 2 84 3.2 269 Space Above Change Room (3) 208 5.9 1227 lC/PCC Pool Vent Raom 4 10 9.5 95 IC/PCC Pool Vent Room 5 10 9.5 95 Space Above Change Room (6) 208 6.9 1227 Change Room 7 84 3.2 209
- Room 8 323 9.5 3009 REFUELING FLOOR (9)
Lower Region 2175 8.45 18379 Upper Reg'on 2231 8.65 19293 TOTAL: 37677 CORRIDORS:
Part 1 73 3.2 234 Part 2 73 3.2 234
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