Advances in behavioral based safety : proceedings of HSFEA 2020 / / Faisal Khan [and three others] |
Pubbl/distr/stampa | Singapore : , : Springer, , [2022] |
Descrizione fisica | 1 online resource (389 pages) |
Disciplina | 660.2804 |
Soggetto topico |
Chemicals - Safety measures
Industrial safety |
ISBN | 981-16-8270-4 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNINA-9910578686803321 |
Singapore : , : Springer, , [2022] | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Analytical troubleshooting of process machinery and pressure vessels [[electronic resource] ] : including real-world case studies / / Anthony Sofronas |
Autore | Sofronas Anthony |
Pubbl/distr/stampa | Hoboken, N.J., : John Wiley & Sons, c2006 |
Descrizione fisica | 1 online resource (374 p.) |
Disciplina |
621.8/16
621.816 660.2804 |
Soggetto topico |
Machinery - Maintenance and repair
Plant maintenance |
Soggetto genere / forma | Electronic books. |
ISBN |
1-280-31135-5
9786610311354 0-470-23188-2 0-471-75203-7 0-471-75202-9 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
ANALYTICAL TROUBLESHOOTING OF PROCESS MACHINERY AND PRESSURE VESSELS; CONTENTS; Preface; 1 Introduction; 2 Strength of Materials; 2.1 Load Calculations; 2.2 Stress Calculations; 2.2.1 Axial Stress; 2.2.2 Shear Stress; 2.2.3 Bending Stress; 2.2.4 Torsional Stress; 2.2.5 Combined Stresses; 2.2.6 Thermal Stresses; 2.2.7 Transient Temperatures and Stresses; 2.2.8 High-Temperature Creep; 2.2.9 Shell Stresses; 2.3 Piping Thermal Forces, Moments, and Frequencies; 2.3.1 Piping Failures; 2.4 Allowable and Design Stresses; 2.5 Fatigue Due to Cyclic Loading; 2.6 Elongation and Deflection Calculations
2.7 Factor of Safety2.8 Case History: Agitator Steady Bearing Loading; 2.8.1 Additional Agitator Guidelines (Single Impeller); 2.9 Case History: Extruder Shaft Failure; 2.10 Dynamic Loading; 2.10.1 Centrifugal Force; 2.10.2 Inertias and WR(2); 2.10.3 Energy Relationships; 2.11 Case History: Centrifuge Bearing Failures; 2.12 Case History: Bird Impact Force on a Windscreen; 2.13 Case History: Torsional Impact on a Propeller; 2.14 Case History: Startup Torque on a Motor Coupling; 2.15 Case History: Friction Clamping Due to Bolting; 2.16 Case History: Failure of a Connecting Rod in a Race Car 2.17 Bolting2.17.1 Holding Capacity; 2.17.2 Limiting Torque; 2.17.3 Bolt Elongation and Relaxation; 2.17.4 Torquing Methods; 2.17.5 Fatigue of Bolts; 2.17.6 Stripping Strength of Threads; 2.17.7 Case History: Power Head Gasket Leak; 2.18 Ball and Roller Bearing Life Estimates; 2.18.1 Case History: Bearing Life of a Shaft Support; 2.18.2 Coupling Offset and Bearing Life; 2.19 Hydrodynamic Bearings; 2.19.1 Shell and Pad Failures; 2.20 Gears; 2.20.1 Gear Acceptability Calculations; 2.20.2 Case History: Uprate Acceptability of a Gear Unit; 2.21 Interference Fits 2.21.1 Keyless Hydraulically Fitted Hubs2.21.2 Case History: Taper Fit Holding Ability; 2.21.3 Case History: Flying Hydraulically Fitted Hub; 2.22 Strength of Welds; 2.23 Fatigue of Welds; 2.24 Repair of Machinery; 2.24.1 Shafts; 2.24.2 Housings and Cases; 2.24.3 Gearboxes; 2.24.4 Sleeve Bearings and Bushing Clearances; 2.24.5 Alignments; 2.24.6 Acceptable Coupling Offset and Angular Misalignment; 2.24.7 Vibration Measurements; 2.25 Interpreting Mechanical Failures; 2.25.1 Failures with Axial, Bending, and Torsional Loading; 2.25.2 Gear Teeth Failures; 2.25.3 Spring Failures 2.25.4 Bolt Failures2.25.5 Bearing Failures; 2.25.6 Reading a Bearing; 2.25.7 Large Gearbox Keyway and Shaft Failures; 2.26 Case History: Sizing a Bushing Running Clearance; 2.27 Case History: Galling of a Shaft in a Bushing; 2.28 Case History: Remaining Fatigue Life with Cyclic Stresses; 2.29 Procedure for Evaluating Gasketed Joints; 2.30 Gaskets in High-Temperature Service; 2.31 O-Ring Evaluation; 2.32 Case History: Gasket That Won't Pass a Hydrotest; 2.33 Case History: Heat Exchanger Leak Due to Temperature; 2.34 Equipment Wear; 2.35 Case History: Excessive Wear of a Ball Valve 3 Vibration Analysis |
Record Nr. | UNINA-9910143403403321 |
Sofronas Anthony | ||
Hoboken, N.J., : John Wiley & Sons, c2006 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Analytical troubleshooting of process machinery and pressure vessels [[electronic resource] ] : including real-world case studies / / Anthony Sofronas |
Autore | Sofronas Anthony |
Pubbl/distr/stampa | Hoboken, N.J., : John Wiley & Sons, c2006 |
Descrizione fisica | 1 online resource (374 p.) |
Disciplina |
621.8/16
621.816 660.2804 |
Soggetto topico |
Machinery - Maintenance and repair
Plant maintenance |
ISBN |
1-280-31135-5
9786610311354 0-470-23188-2 0-471-75203-7 0-471-75202-9 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
ANALYTICAL TROUBLESHOOTING OF PROCESS MACHINERY AND PRESSURE VESSELS; CONTENTS; Preface; 1 Introduction; 2 Strength of Materials; 2.1 Load Calculations; 2.2 Stress Calculations; 2.2.1 Axial Stress; 2.2.2 Shear Stress; 2.2.3 Bending Stress; 2.2.4 Torsional Stress; 2.2.5 Combined Stresses; 2.2.6 Thermal Stresses; 2.2.7 Transient Temperatures and Stresses; 2.2.8 High-Temperature Creep; 2.2.9 Shell Stresses; 2.3 Piping Thermal Forces, Moments, and Frequencies; 2.3.1 Piping Failures; 2.4 Allowable and Design Stresses; 2.5 Fatigue Due to Cyclic Loading; 2.6 Elongation and Deflection Calculations
2.7 Factor of Safety2.8 Case History: Agitator Steady Bearing Loading; 2.8.1 Additional Agitator Guidelines (Single Impeller); 2.9 Case History: Extruder Shaft Failure; 2.10 Dynamic Loading; 2.10.1 Centrifugal Force; 2.10.2 Inertias and WR(2); 2.10.3 Energy Relationships; 2.11 Case History: Centrifuge Bearing Failures; 2.12 Case History: Bird Impact Force on a Windscreen; 2.13 Case History: Torsional Impact on a Propeller; 2.14 Case History: Startup Torque on a Motor Coupling; 2.15 Case History: Friction Clamping Due to Bolting; 2.16 Case History: Failure of a Connecting Rod in a Race Car 2.17 Bolting2.17.1 Holding Capacity; 2.17.2 Limiting Torque; 2.17.3 Bolt Elongation and Relaxation; 2.17.4 Torquing Methods; 2.17.5 Fatigue of Bolts; 2.17.6 Stripping Strength of Threads; 2.17.7 Case History: Power Head Gasket Leak; 2.18 Ball and Roller Bearing Life Estimates; 2.18.1 Case History: Bearing Life of a Shaft Support; 2.18.2 Coupling Offset and Bearing Life; 2.19 Hydrodynamic Bearings; 2.19.1 Shell and Pad Failures; 2.20 Gears; 2.20.1 Gear Acceptability Calculations; 2.20.2 Case History: Uprate Acceptability of a Gear Unit; 2.21 Interference Fits 2.21.1 Keyless Hydraulically Fitted Hubs2.21.2 Case History: Taper Fit Holding Ability; 2.21.3 Case History: Flying Hydraulically Fitted Hub; 2.22 Strength of Welds; 2.23 Fatigue of Welds; 2.24 Repair of Machinery; 2.24.1 Shafts; 2.24.2 Housings and Cases; 2.24.3 Gearboxes; 2.24.4 Sleeve Bearings and Bushing Clearances; 2.24.5 Alignments; 2.24.6 Acceptable Coupling Offset and Angular Misalignment; 2.24.7 Vibration Measurements; 2.25 Interpreting Mechanical Failures; 2.25.1 Failures with Axial, Bending, and Torsional Loading; 2.25.2 Gear Teeth Failures; 2.25.3 Spring Failures 2.25.4 Bolt Failures2.25.5 Bearing Failures; 2.25.6 Reading a Bearing; 2.25.7 Large Gearbox Keyway and Shaft Failures; 2.26 Case History: Sizing a Bushing Running Clearance; 2.27 Case History: Galling of a Shaft in a Bushing; 2.28 Case History: Remaining Fatigue Life with Cyclic Stresses; 2.29 Procedure for Evaluating Gasketed Joints; 2.30 Gaskets in High-Temperature Service; 2.31 O-Ring Evaluation; 2.32 Case History: Gasket That Won't Pass a Hydrotest; 2.33 Case History: Heat Exchanger Leak Due to Temperature; 2.34 Equipment Wear; 2.35 Case History: Excessive Wear of a Ball Valve 3 Vibration Analysis |
Record Nr. | UNINA-9910830162703321 |
Sofronas Anthony | ||
Hoboken, N.J., : John Wiley & Sons, c2006 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Analytical troubleshooting of process machinery and pressure vessels [[electronic resource] ] : including real-world case studies / / Anthony Sofronas |
Autore | Sofronas Anthony |
Pubbl/distr/stampa | Hoboken, N.J., : John Wiley & Sons, c2006 |
Descrizione fisica | 1 online resource (374 p.) |
Disciplina |
621.8/16
621.816 660.2804 |
Soggetto topico |
Machinery - Maintenance and repair
Plant maintenance |
ISBN |
1-280-31135-5
9786610311354 0-470-23188-2 0-471-75203-7 0-471-75202-9 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
ANALYTICAL TROUBLESHOOTING OF PROCESS MACHINERY AND PRESSURE VESSELS; CONTENTS; Preface; 1 Introduction; 2 Strength of Materials; 2.1 Load Calculations; 2.2 Stress Calculations; 2.2.1 Axial Stress; 2.2.2 Shear Stress; 2.2.3 Bending Stress; 2.2.4 Torsional Stress; 2.2.5 Combined Stresses; 2.2.6 Thermal Stresses; 2.2.7 Transient Temperatures and Stresses; 2.2.8 High-Temperature Creep; 2.2.9 Shell Stresses; 2.3 Piping Thermal Forces, Moments, and Frequencies; 2.3.1 Piping Failures; 2.4 Allowable and Design Stresses; 2.5 Fatigue Due to Cyclic Loading; 2.6 Elongation and Deflection Calculations
2.7 Factor of Safety2.8 Case History: Agitator Steady Bearing Loading; 2.8.1 Additional Agitator Guidelines (Single Impeller); 2.9 Case History: Extruder Shaft Failure; 2.10 Dynamic Loading; 2.10.1 Centrifugal Force; 2.10.2 Inertias and WR(2); 2.10.3 Energy Relationships; 2.11 Case History: Centrifuge Bearing Failures; 2.12 Case History: Bird Impact Force on a Windscreen; 2.13 Case History: Torsional Impact on a Propeller; 2.14 Case History: Startup Torque on a Motor Coupling; 2.15 Case History: Friction Clamping Due to Bolting; 2.16 Case History: Failure of a Connecting Rod in a Race Car 2.17 Bolting2.17.1 Holding Capacity; 2.17.2 Limiting Torque; 2.17.3 Bolt Elongation and Relaxation; 2.17.4 Torquing Methods; 2.17.5 Fatigue of Bolts; 2.17.6 Stripping Strength of Threads; 2.17.7 Case History: Power Head Gasket Leak; 2.18 Ball and Roller Bearing Life Estimates; 2.18.1 Case History: Bearing Life of a Shaft Support; 2.18.2 Coupling Offset and Bearing Life; 2.19 Hydrodynamic Bearings; 2.19.1 Shell and Pad Failures; 2.20 Gears; 2.20.1 Gear Acceptability Calculations; 2.20.2 Case History: Uprate Acceptability of a Gear Unit; 2.21 Interference Fits 2.21.1 Keyless Hydraulically Fitted Hubs2.21.2 Case History: Taper Fit Holding Ability; 2.21.3 Case History: Flying Hydraulically Fitted Hub; 2.22 Strength of Welds; 2.23 Fatigue of Welds; 2.24 Repair of Machinery; 2.24.1 Shafts; 2.24.2 Housings and Cases; 2.24.3 Gearboxes; 2.24.4 Sleeve Bearings and Bushing Clearances; 2.24.5 Alignments; 2.24.6 Acceptable Coupling Offset and Angular Misalignment; 2.24.7 Vibration Measurements; 2.25 Interpreting Mechanical Failures; 2.25.1 Failures with Axial, Bending, and Torsional Loading; 2.25.2 Gear Teeth Failures; 2.25.3 Spring Failures 2.25.4 Bolt Failures2.25.5 Bearing Failures; 2.25.6 Reading a Bearing; 2.25.7 Large Gearbox Keyway and Shaft Failures; 2.26 Case History: Sizing a Bushing Running Clearance; 2.27 Case History: Galling of a Shaft in a Bushing; 2.28 Case History: Remaining Fatigue Life with Cyclic Stresses; 2.29 Procedure for Evaluating Gasketed Joints; 2.30 Gaskets in High-Temperature Service; 2.31 O-Ring Evaluation; 2.32 Case History: Gasket That Won't Pass a Hydrotest; 2.33 Case History: Heat Exchanger Leak Due to Temperature; 2.34 Equipment Wear; 2.35 Case History: Excessive Wear of a Ball Valve 3 Vibration Analysis |
Record Nr. | UNINA-9910841899703321 |
Sofronas Anthony | ||
Hoboken, N.J., : John Wiley & Sons, c2006 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
ATEX—Explosive Atmospheres [[electronic resource] ] : Risk Assessment, Control and Compliance / / by Torben Jespen |
Autore | Jespen Torben |
Edizione | [1st ed. 2016.] |
Pubbl/distr/stampa | Cham : , : Springer International Publishing : , : Imprint : Springer, , 2016 |
Descrizione fisica | 1 online resource (196 p.) |
Disciplina | 660.2804 |
Collana | Springer Series in Reliability Engineering |
Soggetto topico |
Law—Europe
Quality control Reliability Industrial safety Chemistry Manufactures European Law Quality Control, Reliability, Safety and Risk Safety in Chemistry, Dangerous Goods Manufacturing, Machines, Tools, Processes |
ISBN | 3-319-31367-3 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | Workplace Legislation -- Risk parameters -- ATEX – Prevention -- ATEX – Equipment selection -- ATEX – Mitigating measures -- ATEX – Risk Assessment -- Zone Classification – Oil Fluids -- Zone Classification – Natural Gas -- Zone Classification – Dusts -- ATEX – Worldwide -- ATEX – Equipment Regulation -- ATEX – Ignition Hazard Assessment (IHA) -- ATEX – Ignition Sources -- ATEX – Communicating IHA Results -- ATEX – Ex-marking -- Fires and Explosions. |
Record Nr. | UNINA-9910254253203321 |
Jespen Torben | ||
Cham : , : Springer International Publishing : , : Imprint : Springer, , 2016 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
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 |
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 |
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 [[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-9910841718203321 |
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 | ||
|
Bretherick's Handbook of Reactive Chemical Hazards [[electronic resource] ] : 2-Volume Set |
Autore | URBEN PETER |
Edizione | [7th ed.] |
Pubbl/distr/stampa | Burlington, : Elsevier Science, 2006 |
Descrizione fisica | 1 online resource (2660 p.) |
Disciplina |
541.39
660.2804 |
Soggetto topico |
Chemical reactions
Chemicals Chemicals - Safety measures Hazardous substances Chemical & Materials Engineering Engineering & Applied Sciences Chemical Engineering Technology - General |
Soggetto genere / forma | Electronic books. |
ISBN |
1-281-07680-5
9786611076801 0-08-052340-4 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; Volume 2; Contents - Volume 1; INTRODUCTION; Aims of the Handbook; Scope and Source Coverage; Volume 1; General Arrangement; Specific Chemical Entries (Volume 1); Grouping of Reactants; General Group Entries (Volume 2); Nomenclature; Cross Reference System; Information Content of Individual Entries; REACTIVE CHEMICAL HAZARDS; Basics; Kinetic Factors; Adiabatic Systems; Reactivity vs. Composition and Structure; Reaction Mixtures; Protective Measures; SPECIFIC CHEMICALS (Elements and compounds arranged in formula order); APPENDIX 1 Source Title Abbreviations used in Handbook References
APPENDIX 2 Tabulated Fire-related DataAPPENDIX 3 Glossary of Abbreviations and Technical Terms; APPENDIX 4 Index of Chemical Names and Serial Numbers used as Titles in Volume 1; APPENDIX 5 Index of CAS Registry Numbers and Text Serial Numbers; Contents - Volume 2; CLASS, GROUP AND TOPIC; APPENDIX 1 Source Title Abbreviations used in Handbook References; APPENDIX 2 Glossary of Abbreviations and Technical Terms; APPENDIX 3 Index of Class, Group and Topic Titles used in Volume 2; APPENDIX 4 Classified Index of Class, Group and Topic Titles used in Volume 2 |
Record Nr. | UNINA-9910480822503321 |
URBEN PETER | ||
Burlington, : Elsevier Science, 2006 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
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