ML16127A502: Difference between revisions

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SECTION  TITLE  1.1 HYDRAULIC MODEL
SECTION  TITLE  1.1 HYDRAULIC MODEL


1.2 REACTOR BUILDING DESIGN BASIS ACCIDENT
===1.2 REACTOR===
BUILDING DESIGN BASIS ACCIDENT


2.0 ENVIRONMENTAL QUALIFICATION PROGRAM
===2.0 ENVIRONMENTAL===
QUALIFICATION PROGRAM


==2.1 INTRODUCTION==
==2.1 INTRODUCTION==
Line 33: Line 35:
2.2 EQ ORGANIZATION 2.3 EQ MASTER LIST
2.2 EQ ORGANIZATION 2.3 EQ MASTER LIST


2.4 ENVIRONMENTAL PARAMETERS
===2.4 ENVIRONMENTAL===
PARAMETERS


2.5 QUALIFICATION OF EQUIPMENT
===2.5 QUALIFICATION===
OF EQUIPMENT


==3.0 REFERENCES==
==3.0 REFERENCES==
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SECTION  TITLE  1.1 HYDRAULIC MODEL
SECTION  TITLE  1.1 HYDRAULIC MODEL


1.2 REACTOR BUILDING DESIGN BASIS ACCIDENT
===1.2 REACTOR===
BUILDING DESIGN BASIS ACCIDENT


2.0 ENVIRONMENTAL QUALIFICATION PROGRAM
===2.0 ENVIRONMENTAL===
QUALIFICATION PROGRAM


==2.1 INTRODUCTION==
==2.1 INTRODUCTION==
Line 97: Line 103:
2.2 EQ ORGANIZATION 2.3 EQ MASTER LIST
2.2 EQ ORGANIZATION 2.3 EQ MASTER LIST


2.4 ENVIRONMENTAL PARAMETERS
===2.4 ENVIRONMENTAL===
PARAMETERS


2.5 QUALIFICATION OF EQUIPMENT
===2.5 QUALIFICATION===
OF EQUIPMENT


==3.0 REFERENCES==
==3.0 REFERENCES==

Latest revision as of 14:50, 9 October 2018

024_06 Appendix 06B Environmental QUALIFICATION-PT Parameters
ML16127A502
Person / Time
Site: Three Mile Island Constellation icon.png
Issue date: 04/11/2016
From:
Exelon Generation Co
To:
Office of Nuclear Reactor Regulation
Shared Package
ML16127A520 List: ... further results
References
TMI-16-035
Download: ML16127A502 (38)


Text

TMI-1 UFSAR APPENDIX 6B 6B-i REV. 20, APRIL 2010

APPENDIX 6B

TMI-1 UFSAR APPENDIX 6B 6B-ii REV. 20, APRIL 2010 TABLE OF CONTENTS

SECTION TITLE 1.1 HYDRAULIC MODEL

1.2 REACTOR

BUILDING DESIGN BASIS ACCIDENT

2.0 ENVIRONMENTAL

QUALIFICATION PROGRAM

2.1 INTRODUCTION

2.2 EQ ORGANIZATION 2.3 EQ MASTER LIST

2.4 ENVIRONMENTAL

PARAMETERS

2.5 QUALIFICATION

OF EQUIPMENT

3.0 REFERENCES

TMI-1 UFSAR APPENDIX 6B 6B-iii REV. 20, APRIL 2010 LIST OF TABLES

TABLE TITLE 6B-1 Heat Transfer Coefficients Applied to the Reactor Coolant System and to the Reactor Building for LOCA analysis

6B-2 Engineered Safeguards Data

6B-3 Summary of Reactor Building LOCA Pressure Analysis 6B-4 Deleted

6B-5 Isotopic Core Inventory

6B-6 Assumptions Used In Development of LOCA Temperature Profile

6B-7 Assumptions Used in Development of RB MSLB Temperature Profile

TMI-1 UFSAR APPENDIX 6B 6B-iv REV. 20, APRIL 2010 LIST OF FIGURES

FIGURE TITLE 6B-1 Loft Semiscale Blowdown Test No. 546 Vessel Pressure Vs Time (LOCA) 6B-2 Loft Test No. 546 Predicted Percent Mass Remaining Vs Time (LOCA)

6B-3 Envelope of Peak Reactor Building Pressure Versus Rupture Sizes With 3 Air Coolers Operating (LOCA) 6B-4 Reactor Building Pressure Versus Time for the DBA (LOCA

) 8.5 FT 2 Rupture with 3 Reactor Building Air Coolers

6B-5 Reactor Building Vapor and Sump Coolant Temperatures Versus Time for the DBA (LOCA) With 3 Reactor Building Air Coolers

6B-6 Reactor Building Energy Inventory Versus Time for the DBA (LOCA) with 3 Reactor Building Air Coolers 6B-7 Reactor Building Pressure Versus Time After Rupture (14.1 FT 2 LOCA) 6B-8 Reactor Building Pressure Versus Time After Rupture (5.0 FT 2 LOCA) 6B-9 Reactor Building Pressure Versus Time After Rupture (3.0 FT 2 LOCA) 6B-10 Reactor Building Pressure Versus Time After Rupture (1.0 FT 2 LOCA) 6B-11 Reactor Building Pressure Versus Time for the DBA (LOCA) With 2 Air Coolers and 1,500 GPM Spray

6B-12 Maximum Hot Spot Clad Temperature Vs Variable Heat Transfer Coefficient After DNB for a 36 inch ID, Double-Ended, Hot Leg Pipe Rupture (LOCA)

6B-13 Reactor Building Vapor and Sump Coolant Temperatures Versus Time for the DBA (LOCA) with Two Reactor Building Air Coolers & 1500 GPM Sprays 6B-13A Deleted

6B-13B Deleted

6B-13C Deleted

6B-14 Deleted 6B-15 RB MSLB EQ Temperature Profile TMI-1 UFSAR APPENDIX 6B 6B-v REV. 20, APRIL 2010 LIST OF FIGURES (cont'd)

FIGURE TITLE 6B-16 LOCA EQ Temperature Profile 6B-17 LOCA RB Pressure From EQ Model

6B-18 RB MSLB EQ Pressure Profile

6B-19 RB EQ Temperature Profile

6B-20 RB EQ Pressure Profile

TMI-1 UFSAR APPENDIX 6B 6B-i REV. 20, APRIL 2010

APPENDIX 6B

TMI-1 UFSAR APPENDIX 6B 6B-ii REV. 20, APRIL 2010 TABLE OF CONTENTS

SECTION TITLE 1.1 HYDRAULIC MODEL

1.2 REACTOR

BUILDING DESIGN BASIS ACCIDENT

2.0 ENVIRONMENTAL

QUALIFICATION PROGRAM

2.1 INTRODUCTION

2.2 EQ ORGANIZATION 2.3 EQ MASTER LIST

2.4 ENVIRONMENTAL

PARAMETERS

2.5 QUALIFICATION

OF EQUIPMENT

3.0 REFERENCES

TMI-1 UFSAR APPENDIX 6B 6B-iii REV. 20, APRIL 2010 LIST OF TABLES

TABLE TITLE 6B-1 Heat Transfer Coefficients Applied to the Reactor Coolant System and to the Reactor Building for LOCA analysis

6B-2 Engineered Safeguards Data

6B-3 Summary of Reactor Building LOCA Pressure Analysis 6B-4 Deleted

6B-5 Isotopic Core Inventory

6B-6 Assumptions Used In Development of LOCA Temperature Profile

6B-7 Assumptions Used in Development of RB MSLB Temperature Profile

TMI-1 UFSAR APPENDIX 6B 6B-iv REV. 20, APRIL 2010 LIST OF FIGURES

FIGURE TITLE 6B-1 Loft Semiscale Blowdown Test No. 546 Vessel Pressure Vs Time (LOCA) 6B-2 Loft Test No. 546 Predicted Percent Mass Remaining Vs Time (LOCA)

6B-3 Envelope of Peak Reactor Building Pressure Versus Rupture Sizes With 3 Air Coolers Operating (LOCA) 6B-4 Reactor Building Pressure Versus Time for the DBA (LOCA

) 8.5 FT 2 Rupture with 3 Reactor Building Air Coolers

6B-5 Reactor Building Vapor and Sump Coolant Temperatures Versus Time for the DBA (LOCA) With 3 Reactor Building Air Coolers

6B-6 Reactor Building Energy Inventory Versus Time for the DBA (LOCA) with 3 Reactor Building Air Coolers 6B-7 Reactor Building Pressure Versus Time After Rupture (14.1 FT 2 LOCA) 6B-8 Reactor Building Pressure Versus Time After Rupture (5.0 FT 2 LOCA) 6B-9 Reactor Building Pressure Versus Time After Rupture (3.0 FT 2 LOCA) 6B-10 Reactor Building Pressure Versus Time After Rupture (1.0 FT 2 LOCA) 6B-11 Reactor Building Pressure Versus Time for the DBA (LOCA) With 2 Air Coolers and 1,500 GPM Spray

6B-12 Maximum Hot Spot Clad Temperature Vs Variable Heat Transfer Coefficient After DNB for a 36 inch ID, Double-Ended, Hot Leg Pipe Rupture (LOCA)

6B-13 Reactor Building Vapor and Sump Coolant Temperatures Versus Time for the DBA (LOCA) with Two Reactor Building Air Coolers & 1500 GPM Sprays 6B-13A Deleted

6B-13B Deleted

6B-13C Deleted

6B-14 Deleted 6B-15 RB MSLB EQ Temperature Profile TMI-1 UFSAR APPENDIX 6B 6B-v REV. 20, APRIL 2010 LIST OF FIGURES (cont'd)

FIGURE TITLE 6B-16 LOCA EQ Temperature Profile 6B-17 LOCA RB Pressure From EQ Model

6B-18 RB MSLB EQ Pressure Profile

6B-19 RB EQ Temperature Profile

6B-20 RB EQ Pressure Profile