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Avoiding static ignition hazards in chemical operations [[electronic resource] /] / Laurence G. Britton
| Avoiding static ignition hazards in chemical operations [[electronic resource] /] / Laurence G. Britton |
| Autore | Britton Laurence G. <1951-> |
| Pubbl/distr/stampa | New York, : Center for Chemical Process Safety of the American Institute of Chemical Engineers, c1999 |
| Descrizione fisica | 1 online resource (304 p.) |
| Disciplina |
660.2804
660/.2804 |
| Collana | CCPS concept book |
| Soggetto topico |
Electrostatics
Chemical plants - Safety measures |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-282-78331-9
9786612783319 0-470-93540-5 1-59124-591-5 0-470-93539-1 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Avoiding Static Ignition Hazards in Chemical Operations: A CCPS Concept Book; CONTENTS; Preface; Acknowledgments; 1 INTRODUCTION; 1-1. Purpose; 1-2. Exclusions; 1-3. Units; 1-4. Organization of the Book; 2 FUNDAMENTALS OF STATIC ELECTRICITY; 2-1. What Is Static Electricity?; 2-1.1. Charge Separation; 2-1.2. Magnitude of Current and Potential; 2-1.3. Concentration of Charged Species; 2-1.4. Importance of Trace Contaminants; 2-1.5. Hazard Evaluation; 2-1.6. Statistics; 2-2. Charge Generation; 2-2.1. Induction Charging; 2-2.2. Ionic Charging; 2-3. Charge Dissipation
2-3.1. Variability of Conductivity2-4. Charge Accumulation; 2-5. Ignition; 2-5.1. Effective Energy; 2-6. Static Discharges; 2-6.1. Corona Discharge; 2-6.2. Brush Discharge; 2-6.3. Bulking Brush Discharge; 2-6.4. Spark Discharge; 2-6.5. Propagating Brush Discharge (PBD); 2-6.6. Surface Streamer; 2-7. Personnel Spark and Shock Hazards; 2-7.1. Body Capacitance and Resistance; 2-7.2. Voltage (V) and Energy (W) Attained; 2-7.3. Human Shock Response; 3 EVALUATING THE HAZARD OF STATIC ELECTRICITY; 3-1. General; 3-2. Hazard Identification Methods; 3-2.1. Decision Trees; 3-3. Charge Accumulation 3-3.1. Conductive Objects3-3.2. Nonconductive Objects; 3-4. Energy Estimates; 3-4.1. Charge Sharing; 3-5. Instrumentation; 3-5.1. Charge; 3-5.2. Electric Field; 3-5.3. Potential; 3-5.4. Ignition Energy; 3-5.5. Conductivity of Liquids; 3-5.6. Resistivity of Solids; 3-5.7. Resistance; 3-6. Direct Observation of Discharges; 3-7. Radio Frequency Detection of Discharges; 3-8. Measuring the Effective Energy of Nonspark Discharges; 3-8.1. Gas Composition; 4 CONTROLLING ELECTROSTATIC HAZARDS; 4-1. Bonding and Grounding; 4-1.1. Definitions; 4-1.2. Purpose of Bonding and Grounding 4-1.3. Resistance to Ground4-1.4. Bonding and Grounding Systems; 4-1.5. Ground Rods; 4-1.6. Grounding and Cathodic Protection; 4-2. Control of Charge Relaxation; 4-2.1. Increase of Conductivity; 4-2.2. Charge Neutralizers; 4-3. Control of Personnel Charging; 4-3.1. Personnel Grounding; 4-3.2. Clothing; 4-3.3. Gloves; 4-4. Control of Flammable Atmospheres; 4-4.1. Liquid Nitrogen/Liquid Air Hazards; 5 FLAMMABLE LIQUIDS, VAPORS, AND GASES; 5-1. Ignition Hazards of Liquid Vapor and Mist; 5-1.1. Flammable Liquid; 5-1.2. Flammable Limits; 5-1.3. Liquid Mist; 5-1.4. Minimum Ignition Energy (MIE) 5-1.5. Explosion Prevention Systems5-2. Generation and Relaxation (Loss) of Charge in Liquid Systems; 5-2.1. Charge Generation; 5-2.2. Charge Density; 5-2.3. Factors Influencing Charge Generation; 5-2.4. Charge Relaxation; 5-2.5. Classification of Liquids based on Conductivity; 5-2.6. Antistatic Additives; 5-2.7. Bonding and Grounding; 5-3. Flow in Pipe, Hose, and Tubing; 5-3.1. Metallic Piping Systems; 5-3.2. Nonconductive Pipe and Linings; 5-3.3. Flexible Hoses; 5-3.4. Dip Pipes; 5-3.5. Filters and Relaxation Tanks; 5-3.6. Suspended Material; 5-3.7. Valves and Other Line Restrictions 5-4. Filling Criteria for Tank Operations |
| Record Nr. | UNINA-9910143239203321 |
Britton Laurence G. <1951->
|
||
| New York, : Center for Chemical Process Safety of the American Institute of Chemical Engineers, c1999 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Avoiding static ignition hazards in chemical operations [[electronic resource] /] / Laurence G. Britton
| Avoiding static ignition hazards in chemical operations [[electronic resource] /] / Laurence G. Britton |
| Autore | Britton Laurence G. <1951-> |
| Pubbl/distr/stampa | New York, : Center for Chemical Process Safety of the American Institute of Chemical Engineers, c1999 |
| Descrizione fisica | 1 online resource (304 p.) |
| Disciplina |
660.2804
660/.2804 |
| Collana | CCPS concept book |
| Soggetto topico |
Electrostatics
Chemical plants - Safety measures |
| ISBN |
1-282-78331-9
9786612783319 0-470-93540-5 1-59124-591-5 0-470-93539-1 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Avoiding Static Ignition Hazards in Chemical Operations: A CCPS Concept Book; CONTENTS; Preface; Acknowledgments; 1 INTRODUCTION; 1-1. Purpose; 1-2. Exclusions; 1-3. Units; 1-4. Organization of the Book; 2 FUNDAMENTALS OF STATIC ELECTRICITY; 2-1. What Is Static Electricity?; 2-1.1. Charge Separation; 2-1.2. Magnitude of Current and Potential; 2-1.3. Concentration of Charged Species; 2-1.4. Importance of Trace Contaminants; 2-1.5. Hazard Evaluation; 2-1.6. Statistics; 2-2. Charge Generation; 2-2.1. Induction Charging; 2-2.2. Ionic Charging; 2-3. Charge Dissipation
2-3.1. Variability of Conductivity2-4. Charge Accumulation; 2-5. Ignition; 2-5.1. Effective Energy; 2-6. Static Discharges; 2-6.1. Corona Discharge; 2-6.2. Brush Discharge; 2-6.3. Bulking Brush Discharge; 2-6.4. Spark Discharge; 2-6.5. Propagating Brush Discharge (PBD); 2-6.6. Surface Streamer; 2-7. Personnel Spark and Shock Hazards; 2-7.1. Body Capacitance and Resistance; 2-7.2. Voltage (V) and Energy (W) Attained; 2-7.3. Human Shock Response; 3 EVALUATING THE HAZARD OF STATIC ELECTRICITY; 3-1. General; 3-2. Hazard Identification Methods; 3-2.1. Decision Trees; 3-3. Charge Accumulation 3-3.1. Conductive Objects3-3.2. Nonconductive Objects; 3-4. Energy Estimates; 3-4.1. Charge Sharing; 3-5. Instrumentation; 3-5.1. Charge; 3-5.2. Electric Field; 3-5.3. Potential; 3-5.4. Ignition Energy; 3-5.5. Conductivity of Liquids; 3-5.6. Resistivity of Solids; 3-5.7. Resistance; 3-6. Direct Observation of Discharges; 3-7. Radio Frequency Detection of Discharges; 3-8. Measuring the Effective Energy of Nonspark Discharges; 3-8.1. Gas Composition; 4 CONTROLLING ELECTROSTATIC HAZARDS; 4-1. Bonding and Grounding; 4-1.1. Definitions; 4-1.2. Purpose of Bonding and Grounding 4-1.3. Resistance to Ground4-1.4. Bonding and Grounding Systems; 4-1.5. Ground Rods; 4-1.6. Grounding and Cathodic Protection; 4-2. Control of Charge Relaxation; 4-2.1. Increase of Conductivity; 4-2.2. Charge Neutralizers; 4-3. Control of Personnel Charging; 4-3.1. Personnel Grounding; 4-3.2. Clothing; 4-3.3. Gloves; 4-4. Control of Flammable Atmospheres; 4-4.1. Liquid Nitrogen/Liquid Air Hazards; 5 FLAMMABLE LIQUIDS, VAPORS, AND GASES; 5-1. Ignition Hazards of Liquid Vapor and Mist; 5-1.1. Flammable Liquid; 5-1.2. Flammable Limits; 5-1.3. Liquid Mist; 5-1.4. Minimum Ignition Energy (MIE) 5-1.5. Explosion Prevention Systems5-2. Generation and Relaxation (Loss) of Charge in Liquid Systems; 5-2.1. Charge Generation; 5-2.2. Charge Density; 5-2.3. Factors Influencing Charge Generation; 5-2.4. Charge Relaxation; 5-2.5. Classification of Liquids based on Conductivity; 5-2.6. Antistatic Additives; 5-2.7. Bonding and Grounding; 5-3. Flow in Pipe, Hose, and Tubing; 5-3.1. Metallic Piping Systems; 5-3.2. Nonconductive Pipe and Linings; 5-3.3. Flexible Hoses; 5-3.4. Dip Pipes; 5-3.5. Filters and Relaxation Tanks; 5-3.6. Suspended Material; 5-3.7. Valves and Other Line Restrictions 5-4. Filling Criteria for Tank Operations |
| Record Nr. | UNISA-996212664103316 |
|
Britton Laurence G. <1951->
|
||
| New York, : Center for Chemical Process Safety of the American Institute of Chemical Engineers, c1999 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. di Salerno | ||
| ||
Avoiding static ignition hazards in chemical operations [[electronic resource] /] / Laurence G. Britton
| Avoiding static ignition hazards in chemical operations [[electronic resource] /] / Laurence G. Britton |
| Autore | Britton Laurence G. <1951-> |
| Pubbl/distr/stampa | New York, : Center for Chemical Process Safety of the American Institute of Chemical Engineers, c1999 |
| Descrizione fisica | 1 online resource (304 p.) |
| Disciplina |
660.2804
660/.2804 |
| Collana | CCPS concept book |
| Soggetto topico |
Electrostatics
Chemical plants - Safety measures |
| ISBN |
1-282-78331-9
9786612783319 0-470-93540-5 1-59124-591-5 0-470-93539-1 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Avoiding Static Ignition Hazards in Chemical Operations: A CCPS Concept Book; CONTENTS; Preface; Acknowledgments; 1 INTRODUCTION; 1-1. Purpose; 1-2. Exclusions; 1-3. Units; 1-4. Organization of the Book; 2 FUNDAMENTALS OF STATIC ELECTRICITY; 2-1. What Is Static Electricity?; 2-1.1. Charge Separation; 2-1.2. Magnitude of Current and Potential; 2-1.3. Concentration of Charged Species; 2-1.4. Importance of Trace Contaminants; 2-1.5. Hazard Evaluation; 2-1.6. Statistics; 2-2. Charge Generation; 2-2.1. Induction Charging; 2-2.2. Ionic Charging; 2-3. Charge Dissipation
2-3.1. Variability of Conductivity2-4. Charge Accumulation; 2-5. Ignition; 2-5.1. Effective Energy; 2-6. Static Discharges; 2-6.1. Corona Discharge; 2-6.2. Brush Discharge; 2-6.3. Bulking Brush Discharge; 2-6.4. Spark Discharge; 2-6.5. Propagating Brush Discharge (PBD); 2-6.6. Surface Streamer; 2-7. Personnel Spark and Shock Hazards; 2-7.1. Body Capacitance and Resistance; 2-7.2. Voltage (V) and Energy (W) Attained; 2-7.3. Human Shock Response; 3 EVALUATING THE HAZARD OF STATIC ELECTRICITY; 3-1. General; 3-2. Hazard Identification Methods; 3-2.1. Decision Trees; 3-3. Charge Accumulation 3-3.1. Conductive Objects3-3.2. Nonconductive Objects; 3-4. Energy Estimates; 3-4.1. Charge Sharing; 3-5. Instrumentation; 3-5.1. Charge; 3-5.2. Electric Field; 3-5.3. Potential; 3-5.4. Ignition Energy; 3-5.5. Conductivity of Liquids; 3-5.6. Resistivity of Solids; 3-5.7. Resistance; 3-6. Direct Observation of Discharges; 3-7. Radio Frequency Detection of Discharges; 3-8. Measuring the Effective Energy of Nonspark Discharges; 3-8.1. Gas Composition; 4 CONTROLLING ELECTROSTATIC HAZARDS; 4-1. Bonding and Grounding; 4-1.1. Definitions; 4-1.2. Purpose of Bonding and Grounding 4-1.3. Resistance to Ground4-1.4. Bonding and Grounding Systems; 4-1.5. Ground Rods; 4-1.6. Grounding and Cathodic Protection; 4-2. Control of Charge Relaxation; 4-2.1. Increase of Conductivity; 4-2.2. Charge Neutralizers; 4-3. Control of Personnel Charging; 4-3.1. Personnel Grounding; 4-3.2. Clothing; 4-3.3. Gloves; 4-4. Control of Flammable Atmospheres; 4-4.1. Liquid Nitrogen/Liquid Air Hazards; 5 FLAMMABLE LIQUIDS, VAPORS, AND GASES; 5-1. Ignition Hazards of Liquid Vapor and Mist; 5-1.1. Flammable Liquid; 5-1.2. Flammable Limits; 5-1.3. Liquid Mist; 5-1.4. Minimum Ignition Energy (MIE) 5-1.5. Explosion Prevention Systems5-2. Generation and Relaxation (Loss) of Charge in Liquid Systems; 5-2.1. Charge Generation; 5-2.2. Charge Density; 5-2.3. Factors Influencing Charge Generation; 5-2.4. Charge Relaxation; 5-2.5. Classification of Liquids based on Conductivity; 5-2.6. Antistatic Additives; 5-2.7. Bonding and Grounding; 5-3. Flow in Pipe, Hose, and Tubing; 5-3.1. Metallic Piping Systems; 5-3.2. Nonconductive Pipe and Linings; 5-3.3. Flexible Hoses; 5-3.4. Dip Pipes; 5-3.5. Filters and Relaxation Tanks; 5-3.6. Suspended Material; 5-3.7. Valves and Other Line Restrictions 5-4. Filling Criteria for Tank Operations |
| Record Nr. | UNINA-9910829934703321 |
|
Britton Laurence G. <1951->
|
||
| New York, : Center for Chemical Process Safety of the American Institute of Chemical Engineers, c1999 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Avoiding static ignition hazards in chemical operations / / Laurence G. Britton
| Avoiding static ignition hazards in chemical operations / / Laurence G. Britton |
| Autore | Britton Laurence G. <1951-> |
| Pubbl/distr/stampa | New York, : Center for Chemical Process Safety of the American Institute of Chemical Engineers, c1999 |
| Descrizione fisica | 1 online resource (304 p.) |
| Disciplina | 660/.2804 |
| Collana | CCPS concept book |
| Soggetto topico |
Electrostatics
Chemical plants - Safety measures |
| ISBN |
9786612783319
9781282783317 1282783319 9780470935408 0470935405 9781591245919 1591245915 9780470935392 0470935391 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Avoiding Static Ignition Hazards in Chemical Operations: A CCPS Concept Book; CONTENTS; Preface; Acknowledgments; 1 INTRODUCTION; 1-1. Purpose; 1-2. Exclusions; 1-3. Units; 1-4. Organization of the Book; 2 FUNDAMENTALS OF STATIC ELECTRICITY; 2-1. What Is Static Electricity?; 2-1.1. Charge Separation; 2-1.2. Magnitude of Current and Potential; 2-1.3. Concentration of Charged Species; 2-1.4. Importance of Trace Contaminants; 2-1.5. Hazard Evaluation; 2-1.6. Statistics; 2-2. Charge Generation; 2-2.1. Induction Charging; 2-2.2. Ionic Charging; 2-3. Charge Dissipation
2-3.1. Variability of Conductivity2-4. Charge Accumulation; 2-5. Ignition; 2-5.1. Effective Energy; 2-6. Static Discharges; 2-6.1. Corona Discharge; 2-6.2. Brush Discharge; 2-6.3. Bulking Brush Discharge; 2-6.4. Spark Discharge; 2-6.5. Propagating Brush Discharge (PBD); 2-6.6. Surface Streamer; 2-7. Personnel Spark and Shock Hazards; 2-7.1. Body Capacitance and Resistance; 2-7.2. Voltage (V) and Energy (W) Attained; 2-7.3. Human Shock Response; 3 EVALUATING THE HAZARD OF STATIC ELECTRICITY; 3-1. General; 3-2. Hazard Identification Methods; 3-2.1. Decision Trees; 3-3. Charge Accumulation 3-3.1. Conductive Objects3-3.2. Nonconductive Objects; 3-4. Energy Estimates; 3-4.1. Charge Sharing; 3-5. Instrumentation; 3-5.1. Charge; 3-5.2. Electric Field; 3-5.3. Potential; 3-5.4. Ignition Energy; 3-5.5. Conductivity of Liquids; 3-5.6. Resistivity of Solids; 3-5.7. Resistance; 3-6. Direct Observation of Discharges; 3-7. Radio Frequency Detection of Discharges; 3-8. Measuring the Effective Energy of Nonspark Discharges; 3-8.1. Gas Composition; 4 CONTROLLING ELECTROSTATIC HAZARDS; 4-1. Bonding and Grounding; 4-1.1. Definitions; 4-1.2. Purpose of Bonding and Grounding 4-1.3. Resistance to Ground4-1.4. Bonding and Grounding Systems; 4-1.5. Ground Rods; 4-1.6. Grounding and Cathodic Protection; 4-2. Control of Charge Relaxation; 4-2.1. Increase of Conductivity; 4-2.2. Charge Neutralizers; 4-3. Control of Personnel Charging; 4-3.1. Personnel Grounding; 4-3.2. Clothing; 4-3.3. Gloves; 4-4. Control of Flammable Atmospheres; 4-4.1. Liquid Nitrogen/Liquid Air Hazards; 5 FLAMMABLE LIQUIDS, VAPORS, AND GASES; 5-1. Ignition Hazards of Liquid Vapor and Mist; 5-1.1. Flammable Liquid; 5-1.2. Flammable Limits; 5-1.3. Liquid Mist; 5-1.4. Minimum Ignition Energy (MIE) 5-1.5. Explosion Prevention Systems5-2. Generation and Relaxation (Loss) of Charge in Liquid Systems; 5-2.1. Charge Generation; 5-2.2. Charge Density; 5-2.3. Factors Influencing Charge Generation; 5-2.4. Charge Relaxation; 5-2.5. Classification of Liquids based on Conductivity; 5-2.6. Antistatic Additives; 5-2.7. Bonding and Grounding; 5-3. Flow in Pipe, Hose, and Tubing; 5-3.1. Metallic Piping Systems; 5-3.2. Nonconductive Pipe and Linings; 5-3.3. Flexible Hoses; 5-3.4. Dip Pipes; 5-3.5. Filters and Relaxation Tanks; 5-3.6. Suspended Material; 5-3.7. Valves and Other Line Restrictions 5-4. Filling Criteria for Tank Operations |
| Record Nr. | UNINA-9910877284603321 |
|
Britton Laurence G. <1951->
|
||
| New York, : Center for Chemical Process Safety of the American Institute of Chemical Engineers, c1999 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Bow ties in risk management : a concept book for process safety / / CCPS, in association with the Energy Institute Center For Chemical Process Safety of The American Institute Of Chemical Engineers, and Energy Institute, London, UK
| Bow ties in risk management : a concept book for process safety / / CCPS, in association with the Energy Institute Center For Chemical Process Safety of The American Institute Of Chemical Engineers, and Energy Institute, London, UK |
| Pubbl/distr/stampa | Hoboken, NJ : , : John Wiley & Sons, Inc. : , : American Institute of Chemical Engineers, , [2018] |
| Descrizione fisica | 1 online resource (215 pages) |
| Disciplina | 660/.2804 |
| Collana | Process safety guidelines and concept books |
| Soggetto topico |
Chemical plants - Safety measures
Risk management Organizational learning |
| ISBN |
1-119-49034-0
1-5231-1970-5 1-119-49038-3 1-119-49035-9 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910554861003321 |
| Hoboken, NJ : , : John Wiley & Sons, Inc. : , : American Institute of Chemical Engineers, , [2018] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Bow ties in risk management : a concept book for process safety / / CCPS, in association with the Energy Institute Center For Chemical Process Safety of The American Institute Of Chemical Engineers, and Energy Institute, London, UK
| Bow ties in risk management : a concept book for process safety / / CCPS, in association with the Energy Institute Center For Chemical Process Safety of The American Institute Of Chemical Engineers, and Energy Institute, London, UK |
| Pubbl/distr/stampa | Hoboken, NJ : , : John Wiley & Sons, Inc. : , : American Institute of Chemical Engineers, , [2018] |
| Descrizione fisica | 1 online resource (215 pages) |
| Disciplina | 660/.2804 |
| Collana | Process safety guidelines and concept books |
| Soggetto topico |
Chemical plants - Safety measures
Risk management Organizational learning |
| ISBN |
1-119-49034-0
1-5231-1970-5 1-119-49038-3 1-119-49035-9 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910822724403321 |
| Hoboken, NJ : , : John Wiley & Sons, Inc. : , : American Institute of Chemical Engineers, , [2018] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Deflagration and detonation flame arresters / / Stanley S. Grossel
| Deflagration and detonation flame arresters / / Stanley S. Grossel |
| Autore | Grossel Stanley S. <1928-> |
| Pubbl/distr/stampa | New York, New York : , : Center for Chemical Process Safety of the American Institute of Chemical Engineers, , 2002 |
| Descrizione fisica | 1 online resource (235 p.) |
| Disciplina |
660.2804
662.2 |
| Collana | A CCPS Concept Book |
| Soggetto topico |
Chemical processes - Safety measures
Chemical plants - Safety measures Chemical plants - Safety appliances |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-283-37271-1
9786613372710 0-470-93564-2 1-59124-576-1 0-470-93565-0 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Deflagration and Detonation Flame Arresters; Contents; Preface; Acknowledgments; Acronyms and Abbreviations; 1 Introduction; 1.1. Intended Audience; 1.2. Why This Book Was Written; 1.3. What Is Covered in This Book; 1.4. What the Reader Should Learn from This Book; 1.5. Units of Measure; 2 History and State-of-the Art; 2.1. Historical Development of Flame Arresters; 2.2. Case Histories of Successful and Unsuccessful Applications of Flame Arresters; 2.2.1. Successful Applications; 2.2.2. Unsuccessful Applications; 2.3. Evolution of Standards and Codes; 2.3.1. United States; 2.3.2. Canada
2.3.3. United Kingdom2.3.4. Europe and International; 2.4. Safety Concerns and Environmental Regulations: Tradeoffs and Conflicts; 2.5. References; 3 Overview of Deflagration and Detonation Prevention and Protection Practices; 3.1. Introduction; 3.2. Deflagration and Detonation Flame Arresters; 3.3. Deflagration Venting; 3.4. Oxidant Concentration Reduction; 3.5. Combustible Concentration Reduction; 3.6. Deflagration Suppression; 3.7. Deflagration Pressure Containment; 3.8. Equipment and Piping Isolation; 3.9. References 4 Overview of Combustion and Flame Propagation Phenomena Related to DDAs4.1. Introduction to the Chemistry and Physics of Flame Propagation; 4.1.1. Combustion Chemistry and Thermodynamics; 4.1.2. Flammability Characteristics; 4.1.3. Decomposition Flames; 4.2. Dynamics of Flame Propagation; 4.2.1. Burning Velocity and Flame Speed; 4.2.2. Flame Acceleration and Deflagration-to-Detonation Transition (DDT); 4.2.3. Detonations; 4.3. Ignition and Quenching; 4.4. Theoretical Basis for Flame Arrester Design and Operation; 4.5 References; 5 Deflagration and Detonation Flame Arrester Technology 5.1. Where Flame Arresters May Be Needed5.2. Types of Flame Arresters; 5.2.1. Introduction; 5.2.2. Crimped Metal Ribbon; 5.2.3. Parallel Plate; 5.2.4. Expanded Metal Cartridge; 5.2.5. Perforated Plate; 5.2.6. Wire Gauze; 5.2.7. Sintered Metal; 5.2.8. Ceramic Balls; 5.2.9. Metal Shot; 5.2.10. Hydraulic (Liquid Seal) Flame Arrester; 5.2.11. Packed Bed Flame Arrester; 5.2.12. Velocity Flame Stopper; 5.2.13. High Velocity Vent Valve; 5.2.14. Conservation Vent Valves as Flame Arresters; 5.3. Selection and Design Criteria/Considerations; 5.3.1. Classification According to NEC Groups and MESGs 5.3.2. Reactions and Combustion Dynamics of Fast-Burning Gases5.3.3. Flame Propagation Direction; 5.3.4. Quenching Diameter, Quenching Length, and Flame Velocity; 5.3.5. Burnback Resistance; 5.3.6. Pressure Drop Limitations; 5.3.7. Fouling and Plugging Potential and Protection; 5.3.8. Unwanted Phases; 5.3.9. Material Selection Requirements; 5.3.10. Special Design Options; 5.3.1 1. System Constraints; 5.3.12. Mixture Composition; 5.3.13. Operating Temperature and Pressure; 5.3.14. Ignition Location; 5.3.15. Changes in Pipe Diameter; 5.3.16. Location and Orientation; 5.3.1 7. Reliability 5.3.18. Monitoring and Instrumentation |
| Record Nr. | UNINA-9910142521903321 |
|
Grossel Stanley S. <1928->
|
||
| New York, New York : , : Center for Chemical Process Safety of the American Institute of Chemical Engineers, , 2002 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Deflagration and detonation flame arresters / / Stanley S. Grossel
| Deflagration and detonation flame arresters / / Stanley S. Grossel |
| Autore | Grossel Stanley S. <1928-> |
| Pubbl/distr/stampa | New York, New York : , : Center for Chemical Process Safety of the American Institute of Chemical Engineers, , 2002 |
| Descrizione fisica | 1 online resource (235 p.) |
| Disciplina |
660.2804
662.2 |
| Collana | A CCPS Concept Book |
| Soggetto topico |
Chemical processes - Safety measures
Chemical plants - Safety measures Chemical plants - Safety appliances |
| ISBN |
1-283-37271-1
9786613372710 0-470-93564-2 1-59124-576-1 0-470-93565-0 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Deflagration and Detonation Flame Arresters; Contents; Preface; Acknowledgments; Acronyms and Abbreviations; 1 Introduction; 1.1. Intended Audience; 1.2. Why This Book Was Written; 1.3. What Is Covered in This Book; 1.4. What the Reader Should Learn from This Book; 1.5. Units of Measure; 2 History and State-of-the Art; 2.1. Historical Development of Flame Arresters; 2.2. Case Histories of Successful and Unsuccessful Applications of Flame Arresters; 2.2.1. Successful Applications; 2.2.2. Unsuccessful Applications; 2.3. Evolution of Standards and Codes; 2.3.1. United States; 2.3.2. Canada
2.3.3. United Kingdom2.3.4. Europe and International; 2.4. Safety Concerns and Environmental Regulations: Tradeoffs and Conflicts; 2.5. References; 3 Overview of Deflagration and Detonation Prevention and Protection Practices; 3.1. Introduction; 3.2. Deflagration and Detonation Flame Arresters; 3.3. Deflagration Venting; 3.4. Oxidant Concentration Reduction; 3.5. Combustible Concentration Reduction; 3.6. Deflagration Suppression; 3.7. Deflagration Pressure Containment; 3.8. Equipment and Piping Isolation; 3.9. References 4 Overview of Combustion and Flame Propagation Phenomena Related to DDAs4.1. Introduction to the Chemistry and Physics of Flame Propagation; 4.1.1. Combustion Chemistry and Thermodynamics; 4.1.2. Flammability Characteristics; 4.1.3. Decomposition Flames; 4.2. Dynamics of Flame Propagation; 4.2.1. Burning Velocity and Flame Speed; 4.2.2. Flame Acceleration and Deflagration-to-Detonation Transition (DDT); 4.2.3. Detonations; 4.3. Ignition and Quenching; 4.4. Theoretical Basis for Flame Arrester Design and Operation; 4.5 References; 5 Deflagration and Detonation Flame Arrester Technology 5.1. Where Flame Arresters May Be Needed5.2. Types of Flame Arresters; 5.2.1. Introduction; 5.2.2. Crimped Metal Ribbon; 5.2.3. Parallel Plate; 5.2.4. Expanded Metal Cartridge; 5.2.5. Perforated Plate; 5.2.6. Wire Gauze; 5.2.7. Sintered Metal; 5.2.8. Ceramic Balls; 5.2.9. Metal Shot; 5.2.10. Hydraulic (Liquid Seal) Flame Arrester; 5.2.11. Packed Bed Flame Arrester; 5.2.12. Velocity Flame Stopper; 5.2.13. High Velocity Vent Valve; 5.2.14. Conservation Vent Valves as Flame Arresters; 5.3. Selection and Design Criteria/Considerations; 5.3.1. Classification According to NEC Groups and MESGs 5.3.2. Reactions and Combustion Dynamics of Fast-Burning Gases5.3.3. Flame Propagation Direction; 5.3.4. Quenching Diameter, Quenching Length, and Flame Velocity; 5.3.5. Burnback Resistance; 5.3.6. Pressure Drop Limitations; 5.3.7. Fouling and Plugging Potential and Protection; 5.3.8. Unwanted Phases; 5.3.9. Material Selection Requirements; 5.3.10. Special Design Options; 5.3.1 1. System Constraints; 5.3.12. Mixture Composition; 5.3.13. Operating Temperature and Pressure; 5.3.14. Ignition Location; 5.3.15. Changes in Pipe Diameter; 5.3.16. Location and Orientation; 5.3.1 7. Reliability 5.3.18. Monitoring and Instrumentation |
| Record Nr. | UNISA-996199266703316 |
|
Grossel Stanley S. <1928->
|
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| New York, New York : , : Center for Chemical Process Safety of the American Institute of Chemical Engineers, , 2002 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. di Salerno | ||
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Deflagration and detonation flame arresters / / Stanley S. Grossel
| Deflagration and detonation flame arresters / / Stanley S. Grossel |
| Autore | Grossel Stanley S. <1928-> |
| Pubbl/distr/stampa | New York, New York : , : Center for Chemical Process Safety of the American Institute of Chemical Engineers, , 2002 |
| Descrizione fisica | 1 online resource (235 p.) |
| Disciplina |
660.2804
662.2 |
| Collana | A CCPS Concept Book |
| Soggetto topico |
Chemical processes - Safety measures
Chemical plants - Safety measures Chemical plants - Safety appliances |
| ISBN |
1-283-37271-1
9786613372710 0-470-93564-2 1-59124-576-1 0-470-93565-0 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Deflagration and Detonation Flame Arresters; Contents; Preface; Acknowledgments; Acronyms and Abbreviations; 1 Introduction; 1.1. Intended Audience; 1.2. Why This Book Was Written; 1.3. What Is Covered in This Book; 1.4. What the Reader Should Learn from This Book; 1.5. Units of Measure; 2 History and State-of-the Art; 2.1. Historical Development of Flame Arresters; 2.2. Case Histories of Successful and Unsuccessful Applications of Flame Arresters; 2.2.1. Successful Applications; 2.2.2. Unsuccessful Applications; 2.3. Evolution of Standards and Codes; 2.3.1. United States; 2.3.2. Canada
2.3.3. United Kingdom2.3.4. Europe and International; 2.4. Safety Concerns and Environmental Regulations: Tradeoffs and Conflicts; 2.5. References; 3 Overview of Deflagration and Detonation Prevention and Protection Practices; 3.1. Introduction; 3.2. Deflagration and Detonation Flame Arresters; 3.3. Deflagration Venting; 3.4. Oxidant Concentration Reduction; 3.5. Combustible Concentration Reduction; 3.6. Deflagration Suppression; 3.7. Deflagration Pressure Containment; 3.8. Equipment and Piping Isolation; 3.9. References 4 Overview of Combustion and Flame Propagation Phenomena Related to DDAs4.1. Introduction to the Chemistry and Physics of Flame Propagation; 4.1.1. Combustion Chemistry and Thermodynamics; 4.1.2. Flammability Characteristics; 4.1.3. Decomposition Flames; 4.2. Dynamics of Flame Propagation; 4.2.1. Burning Velocity and Flame Speed; 4.2.2. Flame Acceleration and Deflagration-to-Detonation Transition (DDT); 4.2.3. Detonations; 4.3. Ignition and Quenching; 4.4. Theoretical Basis for Flame Arrester Design and Operation; 4.5 References; 5 Deflagration and Detonation Flame Arrester Technology 5.1. Where Flame Arresters May Be Needed5.2. Types of Flame Arresters; 5.2.1. Introduction; 5.2.2. Crimped Metal Ribbon; 5.2.3. Parallel Plate; 5.2.4. Expanded Metal Cartridge; 5.2.5. Perforated Plate; 5.2.6. Wire Gauze; 5.2.7. Sintered Metal; 5.2.8. Ceramic Balls; 5.2.9. Metal Shot; 5.2.10. Hydraulic (Liquid Seal) Flame Arrester; 5.2.11. Packed Bed Flame Arrester; 5.2.12. Velocity Flame Stopper; 5.2.13. High Velocity Vent Valve; 5.2.14. Conservation Vent Valves as Flame Arresters; 5.3. Selection and Design Criteria/Considerations; 5.3.1. Classification According to NEC Groups and MESGs 5.3.2. Reactions and Combustion Dynamics of Fast-Burning Gases5.3.3. Flame Propagation Direction; 5.3.4. Quenching Diameter, Quenching Length, and Flame Velocity; 5.3.5. Burnback Resistance; 5.3.6. Pressure Drop Limitations; 5.3.7. Fouling and Plugging Potential and Protection; 5.3.8. Unwanted Phases; 5.3.9. Material Selection Requirements; 5.3.10. Special Design Options; 5.3.1 1. System Constraints; 5.3.12. Mixture Composition; 5.3.13. Operating Temperature and Pressure; 5.3.14. Ignition Location; 5.3.15. Changes in Pipe Diameter; 5.3.16. Location and Orientation; 5.3.1 7. Reliability 5.3.18. Monitoring and Instrumentation |
| Record Nr. | UNINA-9910830046003321 |
|
Grossel Stanley S. <1928->
|
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| New York, New York : , : Center for Chemical Process Safety of the American Institute of Chemical Engineers, , 2002 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Emergency planning [[electronic resource] ] : preparedness, prevention & response : June 29, 30 and July 1, 2004 : Orlando, Florida
| Emergency planning [[electronic resource] ] : preparedness, prevention & response : June 29, 30 and July 1, 2004 : Orlando, Florida |
| Pubbl/distr/stampa | New York, : American Institute of Chemical Engineers, 2004 |
| Descrizione fisica | 1 online resource (441 p.) |
| Disciplina | 660.2804 |
| Soggetto topico |
Emergency management
Chemical plants - Safety measures |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-282-78311-4
9786612783111 0-470-92480-2 0-470-92483-7 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Emergency Planning: Preparedness, Prevention & Response; Table of Contents; Emergency Response Plenary Session; Three Incidents: Tank Truck Explosion, Television Interview Railcar Fire, and Intentional Destruction of Acrylic Acid Railcar Using "Vent and Burn"; World Wide Electronic Specialty Gas Emergency Response Program; Unplanned Shutdown Plus Lack of Knowledge Equals Incidents; Community Involvement Plenary Session; Community Involvement Requirements for the Albertan Upstream Petroleum Industry
Existing Side-By-Side: A Look at Community Alert & Emergency Response Issues in the Petro-Chemical IndustryJoint Leveraging of Industrial and Community Assets: A Partnership Between Industry and the Community to Improve Emergency Response Capabilities; Trash to Treasures; Liquefied Natural Gas Issues Plenary Session; Safety and Fire Protection Consideration for LNG Terminals; Blast Wave Damage to Process Equipment as a Trigger of Domino Effects; LNG Terminal Operations Hazard Zones; International Issues Plenary Session Emergency Response of Toxic Substances in Taiwan: The System and Case StudiesImproved Safety at Reduced Operating Costs in a German Chemical Plant; Active Shooter Table Top Exercise Process for Schools; Consequence Assessment Plenary Session; Applying Inherent Safety to Mitigate Offsite Impact of a Toxic Liquid Release; Extended Indoor Explosion Model with Vertical Concentration Profiles and Variable Ventilation Rates; Accounting for Dynamic Processes in Process Emergency Response Using Event Tree Modeling Fuzzy Logic Methodology for Accident Frequency Assessment in Hazardous Materials TransportationCase Histories I Plenary Session; Development of Detailed Action Plans in the Event of a Sodium Hydride Spil/Fire; System Improvements Utilizing FMEA and Fault Tree Analysis; Lessons from Grangemouth: A Case History; Transportation and Value Chain Plenary Sessions; A Graphical Method for Planning Security Vulnerability Analyses of Transportation and Value-Chain Activities; Emergency Preplanning in Pipeline Construction; Reducing Value Chain Vulnerability to Terrorist Attacks Case Histories II Plenary SessionLessons Learned from a Major Accident Involving Uncontrolled Molten Sodium Release; Emergency Response to a Non-Collision HAZMAT Release from a Railcar; CSB Incident Investigation; Layer of Protection Analysis Plenary Session; Managing the Financial Risks of Major Accidents; Initiating Event Frequency Case Study: Electrolytic Cell Process; Use of Layer of Protection Analysis (LOPA) within The Dow Chemical Company; Legal and Regulatory Issues Plenary Session; Implementing Personnel and Organizational Management of Change (P&O MOC) Processes Major Hazard Control in Canada: A Change in the Regulatory Landscape |
| Altri titoli varianti | Center for Chemical Process Safety 19th annual international conference |
| Record Nr. | UNINA-9910139393903321 |
| New York, : American Institute of Chemical Engineers, 2004 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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