ML16054A434
| ML16054A434 | |
| Person / Time | |
|---|---|
| Site: | Monticello  |
| Issue date: | 01/26/2016 |
| From: | Xcel Energy |
| To: | Office of Nuclear Reactor Regulation |
| Shared Package | |
| ML16054A376 | List:
|
| References | |
| L-MT-16-004 | |
| Download: ML16054A434 (60) | |
Text
MONTICELLO UPDATED SAFETY ANALYSIS REPORT USAR-A SEISMIC DESIGN CRITERIA Revision 28 MONTICELLO APPENDIX A SEISMIC DESIGN CRITERIA TABLE OF CONTENTS PAGE RECOMMENDED EARTHQUAKE CRITERIA A.1-i Geology A.1-2 Seismology A.1-4 Recommended Earthquake Design Procedures A.1-6 EARTHQUAKE ANALYSIS: REACTOR BUILDING A.2-i Introduction A.2-1 Design Criteria A.2-1 Building Description A.2-1 Method of Analysis A.2-2 Elastic Springs Representing Soil Condition A.2-3 Analytical Procedure A.2-4 Discussion of Results A.2-11 References A.2-12 List of Figures and Properties A.2-14 EARTHQUAKE ANALYSIS: DRYWELL A.3-i Introduction A.3-1 Design Criteria A.3-1 Description of Drywell A.3-1 Mathematical Model of Drywell A.3-1 Calculated Data A.3-2 Analytical Procedure A.3-2 Results A.3-7 Recommendations A.3-8 References A.3-10 Appendix Data and Design Figures A.3-11 EARTHQUAKE ANALYSIS: REACTOR PRESSURE VESSEL A.4-i Introduction A.4-1 Description of Reactor Pressure Vessel A.4-1 Mathematical Model of Reactor Pressure Vessel A.4-1 Analytical Procedures A.4-1 Calculated Data A.4-5 Results A.4-5 Recommendations A.4-6 References A.4-7 Appendix A Data and Design Figures A.4-8 Appendix B Calculated Data Sheets A.4-26 A-i
MONTICELLO APPENDIX A SEISMIC DESIGN CRITERIA TABLE OF CONTENTS (continued)
PAGE EARTHQUAKE ANALYSIS: CONTROL ROOM A.5-i Introduction A.5-1 Design Criteria A.5-1 Building Description A.5-1 Method of Analysis A.5-1 Analytical Procedure A.5-2 Periods and Mode Shapes A.5-2 Generalized Acceleration and Displacement Response A.5-3 Remarks on the Computer Program A.5-4 Discussion of Results A.5-9 References A.5-10 List of Figures A.5-12 EARTHQUAKE ANALYSIS: 20 INCH SUCTION HEADER A.6-i Introduction A.6-1 Description of 20 Inch Suction Header A.6-1 Analytical Criteria A.6-2 Method of Analyses A.6-2 Computation of Stresses A.6-3 Description of Computer Program A.6-3 Discussion of Results A.6-3 Comments on Assumption A.6-4 List of Figures A.6-5 References A.6-23 EARTHQUAKE ANALYSIS: PRESSURE SUPPRESSION CHAMBER A.7-i Introduction A.7-1 Description of Suppression Chamber A.7-1 Method of Analysis A.7-2 List of Figures A.7-3 References A.7-11 EARTHQUAKE ANALYSIS: RECIRCULATION LINES A.8-i Methods of Analysis A.8-1 Program Theory and Assumptions A.8-1 Purpose A.8-1 Method of Analysis A.8-1 References A.8-1 ME 101 Static Analyses A.8-2 Dynamic Analyses A.8-2 Verification A.8-4 Piping Stress Calculation Index A.8-5 A-ii
MONTICELLO APPENDIX A SEISMIC DESIGN CRITERIA TABLE OF CONTENTS (continued)
PAGE EARTHQUAKE ANALYSIS: OFF GAS STACK A.9-i Introduction A.9-1 Description Criteria A.9-1 Description of Stack A.9-1 Method of Analysis A.9-1 Description of Computer Program A.9-2 Discussion of Results A.9-3 Recommendations A.9-3 References A.9-4 Design Reconciliation A.9-4 A-iii
MONTICELLO UPDATED SAFETY ANALYSIS REPORT USAR-A SEISMIC DESIGN CRITERIA Revision 28 MONTICELLO APPENDIX A SEISMIC DESIGN CRITERIA TABLE OF CONTENTS PAGE RECOMMENDED EARTHQUAKE CRITERIA A.1-i Geology A.1-2 Seismology A.1-4 Recommended Earthquake Design Procedures A.1-6 EARTHQUAKE ANALYSIS: REACTOR BUILDING A.2-i Introduction A.2-1 Design Criteria A.2-1 Building Description A.2-1 Method of Analysis A.2-2 Elastic Springs Representing Soil Condition A.2-3 Analytical Procedure A.2-4 Discussion of Results A.2-11 References A.2-12 List of Figures and Properties A.2-14 EARTHQUAKE ANALYSIS: DRYWELL A.3-i Introduction A.3-1 Design Criteria A.3-1 Description of Drywell A.3-1 Mathematical Model of Drywell A.3-1 Calculated Data A.3-2 Analytical Procedure A.3-2 Results A.3-7 Recommendations A.3-8 References A.3-10 Appendix Data and Design Figures A.3-11 EARTHQUAKE ANALYSIS: REACTOR PRESSURE VESSEL A.4-i Introduction A.4-1 Description of Reactor Pressure Vessel A.4-1 Mathematical Model of Reactor Pressure Vessel A.4-1 Analytical Procedures A.4-1 Calculated Data A.4-5 Results A.4-5 Recommendations A.4-6 References A.4-7 Appendix A Data and Design Figures A.4-8 Appendix B Calculated Data Sheets A.4-26 A-i
MONTICELLO APPENDIX A SEISMIC DESIGN CRITERIA TABLE OF CONTENTS (continued)
PAGE EARTHQUAKE ANALYSIS: CONTROL ROOM A.5-i Introduction A.5-1 Design Criteria A.5-1 Building Description A.5-1 Method of Analysis A.5-1 Analytical Procedure A.5-2 Periods and Mode Shapes A.5-2 Generalized Acceleration and Displacement Response A.5-3 Remarks on the Computer Program A.5-4 Discussion of Results A.5-9 References A.5-10 List of Figures A.5-12 EARTHQUAKE ANALYSIS: 20 INCH SUCTION HEADER A.6-i Introduction A.6-1 Description of 20 Inch Suction Header A.6-1 Analytical Criteria A.6-2 Method of Analyses A.6-2 Computation of Stresses A.6-3 Description of Computer Program A.6-3 Discussion of Results A.6-3 Comments on Assumption A.6-4 List of Figures A.6-5 References A.6-23 EARTHQUAKE ANALYSIS: PRESSURE SUPPRESSION CHAMBER A.7-i Introduction A.7-1 Description of Suppression Chamber A.7-1 Method of Analysis A.7-2 List of Figures A.7-3 References A.7-11 EARTHQUAKE ANALYSIS: RECIRCULATION LINES A.8-i Methods of Analysis A.8-1 Program Theory and Assumptions A.8-1 Purpose A.8-1 Method of Analysis A.8-1 References A.8-1 ME 101 Static Analyses A.8-2 Dynamic Analyses A.8-2 Verification A.8-4 Piping Stress Calculation Index A.8-5 A-ii
MONTICELLO APPENDIX A SEISMIC DESIGN CRITERIA TABLE OF CONTENTS (continued)
PAGE EARTHQUAKE ANALYSIS: OFF GAS STACK A.9-i Introduction A.9-1 Description Criteria A.9-1 Description of Stack A.9-1 Method of Analysis A.9-1 Description of Computer Program A.9-2 Discussion of Results A.9-3 Recommendations A.9-3 References A.9-4 Design Reconciliation A.9-4 A-iii