What Went Wrong? (6th Ed.) Case Histories of Process Plant Disasters and How They Could Have Been Avoided
Auteurs : Kletz Trevor, Amyotte Paul
What Went Wrong? 6th Edition provides a complete analysis of the design, operational, and management causes of process plant accidents and disasters. Co-author Paul Amyotte has built on Trevor Kletz?s legacy by incorporating questions and personal exercises at the end of each major book section. Case histories illustrate what went wrong and why it went wrong, and then guide readers in how to avoid similar tragedies and learn without having to experience the loss incurred by others. Updated throughout and expanded, this sixth edition is the ultimate resource of experienced-based analysis and guidance for safety and loss prevention professionals.
INTRODUCTION 1. Case Histories and Their Use in Enhancing Process Safety Knowledge 2. Bhopal 3. Opportunities for Reflection
MAINTENANCE AND OPERATIONS 4. Maintenance: Preparation and Performance 5. Operating Methods 6. Entry to Vessels and Other Confined Spaces 7. Accidents Said to Be Due to Human Error 8. Labeling 9. Testing of Trips and Other Protective Systems 10. Opportunities for Reflection
EQUIPMENT AND MATERIALS OF CONSTRUCTION 11. Storage Tanks 12. Stacks 13. Pipes and Vessels 14. Tank Trucks and Tank Cars 15. Other Equipment 16. Materials of Construction 17. Opportunities for Reflection
HAZARDS AND LOSS OF CONTAINMENT 18. Leaks 19. Liquefied Flammable Gases 20. Hazards of Common Materials 21. Static Electricity 22. Reactions – Planned and Unplanned 23. Explosions 24. Opportunities for Reflection
KNOWLEDGE AND COMMUNICATION 26. Poor Communication 27. Accidents in Other Industries 28. Accident Investigation – Missed Opportunities 29. Opportunities for Reflection
DESIGN AND MODIFICATIONS 30. Inherently Safer Design 31. Changing Procedures Instead of Designs 32. Both Design and Operations Could Have Been Better 33. Modifications: Changes to Equipment and Processes 34. Modifications: Changes in Organization 35. Reverse Flow, Other Unforeseen Deviations, and Hazop 36. Control 37. Opportunities for Reflection
CONCLUSION38. An Accident That May Have Affected the Future of Process Safety 39. An Accident That Did Not Occur 40. Summary of Lessons Learned
APPENDICES 1. Relative Frequencies of Incidents 2. Why Should We Publish Accident Reports? 3. Some Tips for Accident Investigators 4. Recommended Reading 5. Afterthoughts
Paul Amyotte is a Distinguished Research Professor and Professor of Chemical Engineering at Dalhousie University (Halifax, Canada). He is a chemical engineering graduate of the Royal Military College of Canada (Bachelor’s), Queen’s University (Master’s), the Technical University of Nova Scotia (PhD) and a registered professional engineer in Nova Scotia. Dr. Amyotte is a member and past president of Canadian Society of Chemical Engineering, a member of American Institute of Chemical Engineers, a Fellow of Chemical Institute of Canada, the Engineering Institute of Canada, Canadian Academy of Engineering, Engineers Canada, and the Canadian Academy of Engineering. Dr. Amyotte has an extensive record of authorship, with six books, several book chapters, and over 350 papers published in peer-reviewed journals or presented at national and international conferences. He has presented invited plenary lectures at symposia in Canada, France, Italy, Malaysia, Netherlands, Norway, Poland, Qatar, Taiwan, and the United States. He is the current editor of the Journal of Loss Prevention in the Process Industries, and a past president of the Canadian Society for Chemical Engineering, Engineers Nova Scotia, and Engineers Canad
- 20% new material and updating of existing content with parts A and B now combined
- Exposition of topical concepts including Natech events, process security, warning signs, and domino effects
- New case histories and lessons learned drawn from other industries and applications such as laboratories, pilot plants, bioprocess plants, and electronics manufacturing facilities
Date de parution : 08-2019
Ouvrage de 840 p.
15.2x22.8 cm