ML18155A447
| ML18155A447 | |
| Person / Time | |
|---|---|
| Site: | Prairie Island  |
| Issue date: | 05/18/2018 |
| From: | Xcel Energy, Northern States Power Company, Minnesota |
| To: | Office of Nuclear Reactor Regulation |
| Shared Package | |
| ML18155A439 | List:
|
| References | |
| L-PI-18-018 | |
| Download: ML18155A447 (98) | |
Text
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 35 Page i SECTION 3 REACTOR TABLE OF CONTENTS Page PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 35 Page ii TABLE OF CONTENTS [Continued]
Page LIST OF TABLES PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 35 Page iii TABLE OF CONTENTS [Continued] LIST OF FIGURES
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 35 Page iv
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PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 32 Page 3.1-1 SECTION 3 REACTOR 3.1 GENERAL
SUMMARY
3.1.1 General
Description PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 32 Page 3.1-2
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 32 Page 3.1-3
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 32 Page 3.1-4 3.1.2 Principal Design Criteria 3.1.2.1 Reactor Core Design
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 32 Page 3.1-5
3.1.2.2 Suppression of Power Oscillations
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 32 Page 3.1-6 3.1.2.3 Redundancy of Reactivity Control 3.1.2.4 Reactivity Hot Shutdown Capability
3.1.2.5 Reactivity Shutdown Capability
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 32 Page 3.1-7
3.1.2.6 Reactivity Holddown Capability
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 32 Page 3.1-8
3.1.2.7 Reactivity Control Systems Malfunction 3.1.2.8 Maximum Reactivity Worth of Control Rods
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 32 Page 3.1-9
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PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.2-1 3.2 THERMAL AND HYDRAULIC CHARACTERISTICS 3.2.1 Design Basis
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.2-2 3.2.2 Thermal Hydraulic Design Analysis 3.2.2.1 Hydraulic Compatibility 3.2.2.2 Fuel Temperature Analysis 3.2.2.3 Design Analysis Conditions and Results Departure from Nucleate Boiling Ratio
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.2-3
Application of the WRB-1 Correlation in Design
Hot Channel Factors
Engineering Hot Channel Factors PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.2-4
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.2-5
Pressure Drop and Hydraulic Forces
Thermal and Hydraulic Parameters Effects of DNB on Neighboring Rods DNB with Physical Burnout PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.2-6
DNB with Return to Nucleate Boiling Hydrodynamic and Flow Power Coupled Instability
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.2-7
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.2-8
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.2-9 3.2.2.4 Effect of Fuel Rod Bow on Thermal Hydraulic Performance 3.2.2.4.1 Rod Bow As Applied to DNBR Analysis
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.2-10 3.2.2.4.2 Effect of Rod Bow on LOCA Limits
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.2-11
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PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.3-1 3.3 NUCLEAR CHARACTERISTICS 3.3.1 Design Basis
3.3.2 Nuclear
Design Data 3.3.2.1 Reactivity Control Aspects PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.3-2
3.3.2.2 Kinetic Characteristics
3.3.2.2.1 Moderator Temperature Coefficient of Reactivity
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.3-3 3.3.2.2.2 Moderator Pressure Coefficient of Reactivity 3.3.2.2.3 Doppler Coefficient of Reactivity 3.3.2.3 Summary of Control Rod Requirements 3.3.2.3.1 Total Power Reactivity Defect
3.3.2.3.2 Control Rod Bite 3.3.2.3.3 Excess Reactivity Insertion Upon Reactor Trip PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.3-4 3.3.3 Nuclear Design Evaluation 3.3.3.1 Physics Characteristics 3.3.3.2 Power Distribution Considerations 3.3.3.3 Control Rod Reactivity Requirements 3.3.3.4 Isothermal Temperature Coefficient Considerations 3.3.3.5 Utilization of Gadolinia as a Burnable Poison 3.3.3.6 Analytical Methodology PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.3-5 3.3.4 DELETED 3.3.4.1 DELETED 3.3.4.2 Dynamic Rod Worth Measurement Technique
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.3-6
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PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.4-1 3.4 FUEL MECHANICAL CHARACTERISTICS 3.4.1 Design Basis
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.4-2 3.4.2 Description of Fuel Assemblies 3.4.2.1 Fuel Assembly
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.4-3 3.4.2.2 Fuel Rods
3.4.2.3 Nozzles
3.4.2.4 Guide Tube PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.4-4
3.4.2.5 Grid Spacers
3.4.2.6 Fuel Assembly Overall Structure 3.4.3 Design Evaluation 3.4.3.1 Rod Design Evaluation 3.4.3.1.1 External Cladding Corrosion PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.4-5 3.4.3.1.2 Cladding Hydrogen Absorption
3.4.3.1.3 Stress Corrosion Cracking
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.4-6
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.4-7
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.4-8
3.4.3.1.4 Cladding Stress and Strain During Steady-State Operation
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.4-9
3.4.3.1.5 Fatigue Damage
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.4-10 3.4.3.1.6 Creep Collapse
during transportation only3.4.3.1.7 Fuel Rod Internal Pressure
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.4-11 3.4.3.1.8 Fuel Rod and Guide Tube Growth
3.4.3.1.9 Creep Bow
3.4.4 Surveillance
and Testing PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.4-12
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PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 29 Page 3.5-1 3.5 REACTIVITY CONTROL MECHANICAL CHARACTERISTICS 3.5.1 Design Basis 3.5.2 Control Methods 3.5.2.1 Rod Cluster Control Assemblies
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 29 Page 3.5-2
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 29 Page 3.5-3 3.5.2.2 Neutron Source Assemblies 3.5.2.3 Plugging Devices
3.5.3 Control
Rod Drive System 3.5.3.1 Rate of Response
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 29 Page 3.5-4 3.5.3.2 Control Rod Drive Mechanism 3.5.3.2.1 General Description
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 29 Page 3.5-5
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 29 Page 3.5-6
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 29 Page 3.5-7
3.5.3.2.2 Principles of Operation
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 29 Page 3.5-8
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 29 Page 3.5-9
3.5.4 Operation
and Performance Analysis 3.5.4.1 CRDM Housing Mechanical Failure Evaluation 3.5.4.1.1 General
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 29 Page 3.5-10 3.5.4.1.2 Effect of Rod Travel Housing Longitudinal Failures
3.5.4.1.3 Effect of Rod Travel Housing Circumferential Failures
3.5.4.1.4 Summary PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 29 Page 3.5-11 3.5.4.2 RCCA Cladding Wear
3.5.4.3 Multiple Control Rod Drop Times PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 29 Page 3.5-12
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PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 35 Page 3.6-1 3.6 OTHER REACTOR VESSEL INTERNALS 3.6.1 Design Basis
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 35 Page 3.6-2
3.6.2 Description
3.6.2.1 Lower Core Support Structure
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 35 Page 3.6-3
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 35 Page 3.6-4 3.6.2.2 Upper Core Support Assembly
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 35 Page 3.6-5
3.6.2.3 Incore Instrumentation Support Structures
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 35 Page 3.6-6 3.6.3 Performance Analysis
3.6.3.1 Reactor Internals Response Under Blowdown and Seismic Excitation
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 35 Page 3.6-7
3.6.3.2 Acceptance Criteria for Results of Analyses
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 35 Page 3.6-8 3.6.3.2.1 Allowable Deflection and Stability Criteria
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 35 Page 3.6-9 3.6.3.2.2 Allowable Stress Criteria
3.6.3.3 Method of Analysis
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 35 Page 3.6-10 3.6.3.3.1 Not Used 3.6.3.3.2 Not Used 3.6.3.3.3 Transverse and Vertical Excitation Model for Blowdown and Seismic
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 35 Page 3.6-11
3.6.3.3.4 Vertical Excitation Model for Earthquake 3.6.3.3.5 Transverse Excitation Model for Blowdown PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 35 Page 3.6-12
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 35 Page 3.6-13 3.6.3.3.6 Transverse Excitation Model for Earthquake 3.6.3.4 Conclusions - Mechanical Analysis
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 35 Page 3.6-14
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 32 Page 3.7-1 3.7 TESTS AND INSPECTIONS 3.7.1 Reactivity Anomalies
3.7.2 Thermal
and Hydraulic Tests and Inspections 3.7.3 Core Component Tests and Inspections
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 32 Page 3.7-2
3.7.3.1 Fuel Quality Control
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 32 Page 3.7-3
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 32 Page 3.7-4
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.8-1
3.8 REFERENCES
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.8-2
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.8-3
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.8-4
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.8-5
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.8-6
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 34 Page 3.8-7 PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 32 TABLE 3.1-1 FUEL ANALYSIS DESIGNS Westinghouse 422 Vantage +
Westinghouse 400 Vantage+
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 31 TABLE 3.2-1 THERMAL AND HYDRAULIC DESIGN PARAMETERS Parameter Value PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 33 TABLE 3.6-1 REACTOR INTERNALS ALLOWABLE STRESS CRITERIA Method of Analysis Load, or Stress
[Note (6)] Design Limits System F-1322.1 Component F-1322.2 Components
[Notes (3), (6)] Component Supports
[Note (3)] P cS yS mP cS apP cS yS mP c P rS apP IP mP mS yS IS yP IP mP mS yS IS yP s ***NOTES(1)S u(2)P c(3)P mP IP b(4)S ap(5)S I(6)(7)(8)P s PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3 Revision 31 TABLE 3.6-2
DELETED
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3Revision 23 TABLE 3.6-3 MAXIMUM DEFLECTIONS UNDER BLOWDOWN (INCHES)
(1-MILLESECOND DOUBLE-ENDED BREAK) Component Cold Leg Hot Leg Seismic Horizontal Maximum Total Allowable No Loss of Function Upper barrel
PRAIRIE ISLAND UPDATED SAFETY ANALYSIS REPORT USAR Section 3Revision 31 TABLE 3.6-4
SUMMARY
OF MAXIMUM STRESS INTENSITIES (PSI)
(1-MILLISECOND PIPE BREAK AND SEISMICS) Hot Leg Break Cold Leg Break Maximum Total Seismic Component Maximum Membrane Maximum Total Maximum Membrane Maximum Total Vertical Horizontal
..,. ___ 115.274 I.D . ...... --------122.400 0.0. ------~ 132.000 1.D. 6-23-99 NOIO'HERN STATES POWER COMPANY RED WING MINNEliOTA SCALE NONE FIGURE 3.1-1 REV. 23 INSTRUMENTATION PORTS -THERMOCOUPLES UPPER SUPPORT ASSEMBLY INTERNALS SUPPORT LEDGE UPPER* CORE BARREL UPPER SUPPORT COLUMN OUTLET NOZZLE UPPER CORE PLATE IRRADIATION SPECIMEN GUIDES THERMAL SHIELD REACTOR VESSEL ACCESS PORT CORE SUPPORT FORGING RADIAL SUPPORT SECONDARY SUPPORT ASSEMBLY CONTROL ROD DRIVE MECHANISM CLOSURE HEAD ASSEMBLY THERMAL SLEEVE OLD-DOWN SPRING INLET NOZZLE ONTROL ROD CLUSTER(WITHDRAWN)
DIFFUSE PLATE LOWER CORE SUPPORT COLUMN : THIMBLE GU I DES TYPICAL REACTOR VESSEL AND INTERNALS OWN T, MILLER otECKED DATE CAO ffiE 6-23-99 NORTHERN STATES POWER COMPANY PRAIRIE ISLAND NUCLEAR GENERATING PLANT RED WING MINNESOTA SCAl.Ea NONE FIGURE 3.1-2 REV. 18 OWN T, MIU.ER CHECKED DATE CAD
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(°F) 538 6-23-99 NORTHERN STATES POWER COMPANY NONE FIGURE 3.4-1 REV. 23
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OWN TAM IC. CHECKEO C1lOU' NO. ETNSUR APP"O I LOWER CORE SUPPORT STRUCTURE CAO t<<>RTHERN POWER COMPANY PRAIRIE ISLAND NUCLEAR GENERA TING PLANT WlNG, MNolESOTA SC<U NONE I REV FIGURE 3.6-1 REV. 18 OWN CAO 6-23-99 127.937" ,oa.sos* REACTOR VESSEL UPPER INTERNALS RED WING MINNESOTA M N N FIGURE 3.8-2 REV. 18
6-n-99 PRAIRIE ISLAND NUCLEAR GENERATING PLANT ~ED WING MINNE~TA FIGURE 3.6-3 REV. 18