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Guidelines for Vapor Cloud Explosion, Pressure Vessel Burst, BLEVE, and Flash Fire Hazards / Center for Chemical Process Safety

By: Center for Chemical Process Safety [author]

Language: English Publisher: Hoboken, NJ : John Wiley and Sons, c2010Edition: Second EditionDescription: 1 online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9780470640449; 9780470251478 ; 9781118209875Subject(s): Chemical plants -- Fires and fire prevention | Chemical plants -- Safety measures | Pressure vessels -- Safety measures | Chemicals -- Fires and fire prevention | Explosions -- PreventionDDC classification: 660.2804 Online resources: Full text available at Wiley Online Library Click here to view

Contents:

TABLE OF CONTENTS List of Tables. List of Figures. Glossary. Acknowledgements. 1. INTRODUCTION. 2. MANAGEMENT OVERVIEW. 2.1. Flash Fires. 2.2. Vapor Cloud Explosions. 2.3. Pressure Vessel Bursts. 2.4. BLEVEs. 2.5. Prediction methodologies. 3. CASE HISTORIES. 3.1. Historical experience. 3.2. Flash fires. 3.3. Vapor Cloud Explosions. 3.4. Pressure Vessel Burst. 3.5. BLEVE. 4. BASIC CONCEPTS. 4.1. Atmospheric Vapor Cloud Dispersion. 4.2. Ignition. 4.3. Thermal Radiation. 4.4. Explosions — VCE. 4.5. Blast Effects. 5. FLASH FIRES. 5.1. Overview of Experimental Research. 5.2. Flash-Fire Radiation Models. 5.3. Sample Calculations. 6. VAPOR CLOUD EXPLOSIONS. 6.1. Introduction. 6.2. Vapor Cloud Deflagration Theory and Research. 6.3. Vapor Cloud Detonation Theory and Research. 6.4. VCE Prediction Methods. 6.5. Sample problems. 7. PRESSURE VESSEL BURSTS. 7.1. Mechanism of a PVB. 7.2. Scaling Laws Used in PVB Analyses. 7.3. Blast Eeffects of Pressure-Vessel Bursts. 7.4. Methods for Predicting Blast Effects from Vessel Bursts. 7.5. Fragments from a PVB. 7.6. Predicting Fragment Effects from Vessel Bursts. 8. BASIC PRINCIPLES OF BLEVES. 8.1. Introduction. 8.2. Definition of a BLEVE. 8.3. Theory. 8.4. BLEVE Consequences. 8.5. Analytical Models. 8.6. Sample Problems. 9. REFERENCES. APPENDIX A: VIEW FACTORS FOR SELECTED CONFIGURATIONS. APPENDIX B: TABULATION OF SOME GAS PROPERTIES IN METRIC UNITS. APPENDIX C: CONVERSION FACTORS TO SI FOR SELECTED QUANTITIES.

Summary: DESCRIPTION This guide provides an overview of methods for estimating the characteristics of vapor cloud explosions, flash fires, and boiling-liquid-expanding-vapor explosions (BLEVEs) for practicing engineers. It has been updated to include advanced modeling technology, especially with respect to vapor cloud modeling and the use of computational fluid dynamics. The text also reviews past experimental and theoretical research and methods to estimate consequences. Heavily illustrated with photos, charts, tables, and diagrams, this manual is an essential tool for safety, insurance, regulatory, and engineering students and professionals.

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Item type	Current location	Home library	Call number	Status	Date due	Barcode	Item holds
EBOOK	COLLEGE LIBRARY	COLLEGE LIBRARY	660.2804 C33324 2010 (Browse shelf)	Available		CL-52397

Total holds: 0

ABOUT THE AUTHOR
Since 1985, the Center for Chemical Process Safety (CCPS) has been the world leader in developing and disseminating information on process safety management and technology. CCPS, an industry technology alliance of the American Institute of Chemical Engineers (AIChE), has published over 80 books in its process safety guidelines and process safety concepts series, and over 100 training modules through its Safety in Chemical Engineering Education (SACHE) series.

TABLE OF CONTENTS
List of Tables.
List of Figures.

Glossary.

Acknowledgements.

1. INTRODUCTION.

2. MANAGEMENT OVERVIEW.

2.1. Flash Fires.

2.2. Vapor Cloud Explosions.

2.3. Pressure Vessel Bursts.

2.4. BLEVEs.

2.5. Prediction methodologies.

3. CASE HISTORIES.

3.1. Historical experience.

3.2. Flash fires.

3.3. Vapor Cloud Explosions.

3.4. Pressure Vessel Burst.

3.5. BLEVE.

4. BASIC CONCEPTS.

4.1. Atmospheric Vapor Cloud Dispersion.

4.2. Ignition.

4.3. Thermal Radiation.

4.4. Explosions — VCE.

4.5. Blast Effects.

5. FLASH FIRES.

5.1. Overview of Experimental Research.

5.2. Flash-Fire Radiation Models.

5.3. Sample Calculations.

6. VAPOR CLOUD EXPLOSIONS.

6.1. Introduction.

6.2. Vapor Cloud Deflagration Theory and Research.

6.3. Vapor Cloud Detonation Theory and Research.

6.4. VCE Prediction Methods.

6.5. Sample problems.

7. PRESSURE VESSEL BURSTS.

7.1. Mechanism of a PVB.

7.2. Scaling Laws Used in PVB Analyses.

7.3. Blast Eeffects of Pressure-Vessel Bursts.

7.4. Methods for Predicting Blast Effects from Vessel Bursts.

7.5. Fragments from a PVB.

7.6. Predicting Fragment Effects from Vessel Bursts.

8. BASIC PRINCIPLES OF BLEVES.

8.1. Introduction.

8.2. Definition of a BLEVE.

8.3. Theory.

8.4. BLEVE Consequences.

8.5. Analytical Models.

8.6. Sample Problems.

9. REFERENCES.

APPENDIX A: VIEW FACTORS FOR SELECTED CONFIGURATIONS.

APPENDIX B: TABULATION OF SOME GAS PROPERTIES IN METRIC UNITS.

APPENDIX C: CONVERSION FACTORS TO SI FOR SELECTED QUANTITIES.

DESCRIPTION
This guide provides an overview of methods for estimating the characteristics of vapor cloud explosions, flash fires, and boiling-liquid-expanding-vapor explosions (BLEVEs) for practicing engineers. It has been updated to include advanced modeling technology, especially with respect to vapor cloud modeling and the use of computational fluid dynamics. The text also reviews past experimental and theoretical research and methods to estimate consequences. Heavily illustrated with photos, charts, tables, and diagrams, this manual is an essential tool for safety, insurance, regulatory, and engineering students and professionals.

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