Center for Chemical Process Safety (CCPS)
Guidelines for Evaluating Process Plant Buildings for External Explosions, Fires, and Toxic Releases
Center for Chemical Process Safety (CCPS)
Guidelines for Evaluating Process Plant Buildings for External Explosions, Fires, and Toxic Releases
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Siting of permanent and temporary buildings in process areas requires careful consideration of potential effects of explosions and fires arising from accidental release of flammable materials. This book, which updates the 1996 edition, provides a single-source reference that explains the American Petroleum Institute (API) permanent (752) and temporary (753) building recommended practices and details how to implement them. New coverage on toxicity and updated standards are also highlighted. Practical and easy-to-use, this reliable guide is a must-have for implementing safe building practices.
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Siting of permanent and temporary buildings in process areas requires careful consideration of potential effects of explosions and fires arising from accidental release of flammable materials. This book, which updates the 1996 edition, provides a single-source reference that explains the American Petroleum Institute (API) permanent (752) and temporary (753) building recommended practices and details how to implement them. New coverage on toxicity and updated standards are also highlighted. Practical and easy-to-use, this reliable guide is a must-have for implementing safe building practices.
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Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Wiley & Sons
- 2. Aufl.
- Seitenzahl: 240
- Erscheinungstermin: 10. April 2012
- Englisch
- Abmessung: 250mm x 164mm x 20mm
- Gewicht: 502g
- ISBN-13: 9780470643679
- ISBN-10: 0470643676
- Artikelnr.: 33255945
- Verlag: Wiley & Sons
- 2. Aufl.
- Seitenzahl: 240
- Erscheinungstermin: 10. April 2012
- Englisch
- Abmessung: 250mm x 164mm x 20mm
- Gewicht: 502g
- ISBN-13: 9780470643679
- ISBN-10: 0470643676
- Artikelnr.: 33255945
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.
1. Introduction 1 1.1 Objective 4 1.2 Building Siting Evaluation Process 5
1.3 Selection of Approach 6 1.4 Background 6 1.5 Phillips, Pasadena, Texas
USA: Propylene HDPE Unit VCE ad BLEVEs 10 1.6 Evolution of Design and
Siting Practices for Buildings in Process Plants 18 1.7 Organization of the
Book 20 2. Management Overview 21 2.1 Process Overview 21 2.2 Management
Responsibilities under API RP-752 and API RP-753 27 3. Determining the
Scope of the Building Siting Evaluation 31 3.1 Introduction 31 3.2
Buildings Considered 31 3.3 Scenario Selection 36 4. Building Siting
Evaluation Criteria 45 4.1 Introduction 45 4.2 Occupant Vulnerability 46
4.3 Criteria for Existing Buildings Exposed to Explosion Hazards 48 4.4
Criteria for Fires 58 4.5 Criteria for Toxic Exposures 62 4.6 Criteria for
Building Upgrades and New Buildings 64 4.7 Risk Criteria 65 5. Explosion
Hazards 71 5.1 Introduction 71 5.2 Select Explosion Approach 72 5.3
Modeling and Quantifying and Explosion Hazards 74 5.4 Building Response to
Explosion Hazards 78 5.5 Occupant VULNERABILITY to Explosion Hazards 90 5.6
Actions Required at the Completion of the Evaluation 90 6. Fire Hazards
Assessment 93 6.1 Introduction 93 6.2 Determining if a Fire Hazard Exists
97 6.3 Spacing Table Approach 97 6.4 Performing a Consequence-Based or
Risk-Based building siting evaluation for Fire 99 6.5 Occupant Response to
Fire Hazards 105 6.6 Defining the Fire Protection Concept 106 7. Toxic
Hazards Assessment 109 7.1 Introduction 109 7.2 Determining if a Toxic
Hazard Exists 109 7.3 Building siting evaluation for toxics 111 7.4
Defining the Toxic Protection Concept 120 7.5 Evacuation vs.
Sheltering-In-Place 120 8. Frequency and Probability Assessment 125 8.1
Introduction 125 8.2 Developing a Scenario List 127 8.3 Calculation of
Frequency of Initiating Event or accident 129 8.4 Probability and Frequency
of Final Outcomes 144 8.5 Unit-Based Outcome Frequencies 149 9. Risk
Assessment 151 9.1 Introduction 151 9.2 Risk Measure Types 154 9.3
Calculating Risk 158 9.4 Interpretation and Use of Risk Measures 169 10.
Mitigation Plans and Ongoing Risk Management 171 10.1 Development of
Mitigation Plans 171 10.2 Building Modifications 177 11. Managing the
Building Siting Process 185 11.1 Management of Change 185 11.2
Documentation Requirements 187 11.3 Documentation of Mitigation Systems
Criteria and Performance 188 11.4 Maintaining Documentation "EverGreen" 189
1.3 Selection of Approach 6 1.4 Background 6 1.5 Phillips, Pasadena, Texas
USA: Propylene HDPE Unit VCE ad BLEVEs 10 1.6 Evolution of Design and
Siting Practices for Buildings in Process Plants 18 1.7 Organization of the
Book 20 2. Management Overview 21 2.1 Process Overview 21 2.2 Management
Responsibilities under API RP-752 and API RP-753 27 3. Determining the
Scope of the Building Siting Evaluation 31 3.1 Introduction 31 3.2
Buildings Considered 31 3.3 Scenario Selection 36 4. Building Siting
Evaluation Criteria 45 4.1 Introduction 45 4.2 Occupant Vulnerability 46
4.3 Criteria for Existing Buildings Exposed to Explosion Hazards 48 4.4
Criteria for Fires 58 4.5 Criteria for Toxic Exposures 62 4.6 Criteria for
Building Upgrades and New Buildings 64 4.7 Risk Criteria 65 5. Explosion
Hazards 71 5.1 Introduction 71 5.2 Select Explosion Approach 72 5.3
Modeling and Quantifying and Explosion Hazards 74 5.4 Building Response to
Explosion Hazards 78 5.5 Occupant VULNERABILITY to Explosion Hazards 90 5.6
Actions Required at the Completion of the Evaluation 90 6. Fire Hazards
Assessment 93 6.1 Introduction 93 6.2 Determining if a Fire Hazard Exists
97 6.3 Spacing Table Approach 97 6.4 Performing a Consequence-Based or
Risk-Based building siting evaluation for Fire 99 6.5 Occupant Response to
Fire Hazards 105 6.6 Defining the Fire Protection Concept 106 7. Toxic
Hazards Assessment 109 7.1 Introduction 109 7.2 Determining if a Toxic
Hazard Exists 109 7.3 Building siting evaluation for toxics 111 7.4
Defining the Toxic Protection Concept 120 7.5 Evacuation vs.
Sheltering-In-Place 120 8. Frequency and Probability Assessment 125 8.1
Introduction 125 8.2 Developing a Scenario List 127 8.3 Calculation of
Frequency of Initiating Event or accident 129 8.4 Probability and Frequency
of Final Outcomes 144 8.5 Unit-Based Outcome Frequencies 149 9. Risk
Assessment 151 9.1 Introduction 151 9.2 Risk Measure Types 154 9.3
Calculating Risk 158 9.4 Interpretation and Use of Risk Measures 169 10.
Mitigation Plans and Ongoing Risk Management 171 10.1 Development of
Mitigation Plans 171 10.2 Building Modifications 177 11. Managing the
Building Siting Process 185 11.1 Management of Change 185 11.2
Documentation Requirements 187 11.3 Documentation of Mitigation Systems
Criteria and Performance 188 11.4 Maintaining Documentation "EverGreen" 189
1. Introduction 1 1.1 Objective 4 1.2 Building Siting Evaluation Process 5
1.3 Selection of Approach 6 1.4 Background 6 1.5 Phillips, Pasadena, Texas
USA: Propylene HDPE Unit VCE ad BLEVEs 10 1.6 Evolution of Design and
Siting Practices for Buildings in Process Plants 18 1.7 Organization of the
Book 20 2. Management Overview 21 2.1 Process Overview 21 2.2 Management
Responsibilities under API RP-752 and API RP-753 27 3. Determining the
Scope of the Building Siting Evaluation 31 3.1 Introduction 31 3.2
Buildings Considered 31 3.3 Scenario Selection 36 4. Building Siting
Evaluation Criteria 45 4.1 Introduction 45 4.2 Occupant Vulnerability 46
4.3 Criteria for Existing Buildings Exposed to Explosion Hazards 48 4.4
Criteria for Fires 58 4.5 Criteria for Toxic Exposures 62 4.6 Criteria for
Building Upgrades and New Buildings 64 4.7 Risk Criteria 65 5. Explosion
Hazards 71 5.1 Introduction 71 5.2 Select Explosion Approach 72 5.3
Modeling and Quantifying and Explosion Hazards 74 5.4 Building Response to
Explosion Hazards 78 5.5 Occupant VULNERABILITY to Explosion Hazards 90 5.6
Actions Required at the Completion of the Evaluation 90 6. Fire Hazards
Assessment 93 6.1 Introduction 93 6.2 Determining if a Fire Hazard Exists
97 6.3 Spacing Table Approach 97 6.4 Performing a Consequence-Based or
Risk-Based building siting evaluation for Fire 99 6.5 Occupant Response to
Fire Hazards 105 6.6 Defining the Fire Protection Concept 106 7. Toxic
Hazards Assessment 109 7.1 Introduction 109 7.2 Determining if a Toxic
Hazard Exists 109 7.3 Building siting evaluation for toxics 111 7.4
Defining the Toxic Protection Concept 120 7.5 Evacuation vs.
Sheltering-In-Place 120 8. Frequency and Probability Assessment 125 8.1
Introduction 125 8.2 Developing a Scenario List 127 8.3 Calculation of
Frequency of Initiating Event or accident 129 8.4 Probability and Frequency
of Final Outcomes 144 8.5 Unit-Based Outcome Frequencies 149 9. Risk
Assessment 151 9.1 Introduction 151 9.2 Risk Measure Types 154 9.3
Calculating Risk 158 9.4 Interpretation and Use of Risk Measures 169 10.
Mitigation Plans and Ongoing Risk Management 171 10.1 Development of
Mitigation Plans 171 10.2 Building Modifications 177 11. Managing the
Building Siting Process 185 11.1 Management of Change 185 11.2
Documentation Requirements 187 11.3 Documentation of Mitigation Systems
Criteria and Performance 188 11.4 Maintaining Documentation "EverGreen" 189
1.3 Selection of Approach 6 1.4 Background 6 1.5 Phillips, Pasadena, Texas
USA: Propylene HDPE Unit VCE ad BLEVEs 10 1.6 Evolution of Design and
Siting Practices for Buildings in Process Plants 18 1.7 Organization of the
Book 20 2. Management Overview 21 2.1 Process Overview 21 2.2 Management
Responsibilities under API RP-752 and API RP-753 27 3. Determining the
Scope of the Building Siting Evaluation 31 3.1 Introduction 31 3.2
Buildings Considered 31 3.3 Scenario Selection 36 4. Building Siting
Evaluation Criteria 45 4.1 Introduction 45 4.2 Occupant Vulnerability 46
4.3 Criteria for Existing Buildings Exposed to Explosion Hazards 48 4.4
Criteria for Fires 58 4.5 Criteria for Toxic Exposures 62 4.6 Criteria for
Building Upgrades and New Buildings 64 4.7 Risk Criteria 65 5. Explosion
Hazards 71 5.1 Introduction 71 5.2 Select Explosion Approach 72 5.3
Modeling and Quantifying and Explosion Hazards 74 5.4 Building Response to
Explosion Hazards 78 5.5 Occupant VULNERABILITY to Explosion Hazards 90 5.6
Actions Required at the Completion of the Evaluation 90 6. Fire Hazards
Assessment 93 6.1 Introduction 93 6.2 Determining if a Fire Hazard Exists
97 6.3 Spacing Table Approach 97 6.4 Performing a Consequence-Based or
Risk-Based building siting evaluation for Fire 99 6.5 Occupant Response to
Fire Hazards 105 6.6 Defining the Fire Protection Concept 106 7. Toxic
Hazards Assessment 109 7.1 Introduction 109 7.2 Determining if a Toxic
Hazard Exists 109 7.3 Building siting evaluation for toxics 111 7.4
Defining the Toxic Protection Concept 120 7.5 Evacuation vs.
Sheltering-In-Place 120 8. Frequency and Probability Assessment 125 8.1
Introduction 125 8.2 Developing a Scenario List 127 8.3 Calculation of
Frequency of Initiating Event or accident 129 8.4 Probability and Frequency
of Final Outcomes 144 8.5 Unit-Based Outcome Frequencies 149 9. Risk
Assessment 151 9.1 Introduction 151 9.2 Risk Measure Types 154 9.3
Calculating Risk 158 9.4 Interpretation and Use of Risk Measures 169 10.
Mitigation Plans and Ongoing Risk Management 171 10.1 Development of
Mitigation Plans 171 10.2 Building Modifications 177 11. Managing the
Building Siting Process 185 11.1 Management of Change 185 11.2
Documentation Requirements 187 11.3 Documentation of Mitigation Systems
Criteria and Performance 188 11.4 Maintaining Documentation "EverGreen" 189