Electrostatic Hazards

Electrostatic Hazards

Author: Günter Luttgens

Publisher: Elsevier

Published: 1997-06-19

Total Pages: 179

ISBN-13: 0080505406

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In the US, UK and Europe there is in excess of one notifiable dust or electrostatic explosion every day of the year. This clearly makes the hazards associated with the handling of materials subject to either cause or react to electrostatic discharge of vital importance to anyone associated with their handling or industrial bulk use. This book provides a comprehensive guide to the dangers of static electricity and how to avoid them. It will prove invaluable to safety managers and professionals, as well as all personnel involved in the activities concerned, in the chemical, agricultural, pharmaceutical and petrochemical process industries. Electrostatic Hazards makes extended use of case studies to illustrate the principles being expounded, thereby making it far more open, accessible and attractive to the practitioner in industry than the highly theoretical texts which are also available. The authors have many years' experience in the area behind them, including the professional teaching of the content provided here. Günter Lüttgens is a widely acknowledged consultant who travels Europe providing training to major industrial corporations on this subject, whilst Norman Wilson practices what is written here in his professional capacity with the British Textile Technology Group. - Extended use of case studies to illustrate the principles.This makes the book far more open, accessible and attractive to the practitioner in industry than the highly theoretical texts also available - Authors have many years experience in the area - Both authors have been widely published with considerable previous book-writing experience


Avoiding Static Ignition Hazards in Chemical Operations

Avoiding Static Ignition Hazards in Chemical Operations

Author: Laurence G. Britton

Publisher: John Wiley & Sons

Published: 2010-08-27

Total Pages: 304

ISBN-13: 0470935391

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Written by Laurence Britton, who has over 20 years' experience in the fields of static ignition and process fire and explosion hazards research, this resource addresses an area not extensively covered in process safety standards or literature: understanding and reducing potential hazards associated with static electricity. The book covers the nature of static electricity, characteristics and effective energies of different static resources, techniques for evaluating static electricity hazards, general bonding, grounding, and other techniques used to control static or prevent ignition, gases and liquids, powders and hybrid mixtures.


Electrostatic Ignitions of Fires and Explosions

Electrostatic Ignitions of Fires and Explosions

Author: Thomas H. Pratt

Publisher: John Wiley & Sons

Published: 2010-09-07

Total Pages: 198

ISBN-13: 0470935146

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Tom Pratt, a long-time process safety practitioner and lecturer in electrostatic safety, wrote this book to educate industry in the basics of electrostatics. It offers a selected collection of information designed to give readers the tools they need to examine the hazard potential of common industrial processes. Among the topics addressed are separation and accumulation of charge, discharge, minimum ignition energies, discharge energies, electrification in industrial processes, design and operating criteria, measurements, quantification of electrostatic scenarios. A selection of case histories helps illustrate sources of electrostatic ignition of combustibles, and strategies for preventing such incidents.


Advances in Cryogenic Engineering

Advances in Cryogenic Engineering

Author: K.D. Timmerhaus

Publisher: Springer Science & Business Media

Published: 2013-12-14

Total Pages: 591

ISBN-13: 147570531X

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The 1961 Cryogenic Engineering Conference Committee is pleased to present the papers of the 1961 Cryogenic Engineering Conference. We are grateful to have had the University of Michigan at Ann Arbor, Michigan as our host for the seventh annual meeting of this group. The Conference Committee in presenting the papers oftbis Conference takes this opportunity to acknowledge the assistance of an Editorial Committee in the selection of papers for the program. Since over one hundred and twenty papers were submitted, their task of screening and evaluating the papers was a dif ficult one. The Committee guided by G. j. V an Wylen, who also served as chair man of the Conference Committee, included R. W. Arnett, B. W. Birmingham, D. B. Chelton, R. j. Corruccini, C. j. Guntner, M. j. Hiza, R. B. jacobs, A. J. Kidnay, R. H. Kropschot, j. Macinko, D. B. Mann, R. P. Mikesell, R. L. Powell, J. R. Purcell, R. P. Reed, R. j. Richards, A. F. Schmidt, R. B. Stewart, and K. A. Warren.


Ludwig's Applied Process Design for Chemical and Petrochemical Plants Incorporating Process Safety Incidents

Ludwig's Applied Process Design for Chemical and Petrochemical Plants Incorporating Process Safety Incidents

Author: A. Kayode Coker

Publisher: Elsevier

Published: 2024-07-10

Total Pages: 978

ISBN-13: 0443301158

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Ludwig's Applied Process Design for Chemical and Petrochemical Plants Incorporating Process Safety Incidents is ever evolving starting with the first edition some 60 years ago. The volumes in this fifth edition provide improved techniques and fundamental design methodologies to guide the practicing engineer in designing process equipment and applying chemical processes to the properly detailed hardware. As indicative of the new title, process safety incidents are incorporated in many of the chapters, reviewing the root causes, and how these could be mitigated in future. Like its predecessor, this new edition continues to present updated information for achieving optimum operational and process conditions and to avoid problems caused by inadequate sizing and lack of internally detailed hardware. The volumes provide both fundamental theories where applicable and direct application of these theories to applied equations essential in the design effort. This approach in presenting design information is essential for troubleshooting process equipment and in executing system performance analysis. Volume 1B continues to cover mixing of liquids, process safety and pressure[1]relieving devices, metallurgy and corrosion, and process optimization. It builds upon Ernest E. Ludwig's classic text to further enhance its use as a chemical engineering process design manual of methods and proven fundamentals. This new edition includes new content on three-phase separation, mixing of liquids, ejectors, and mechanical vacuum systems, process safety and pressure-relieving devices, metallurgy and corrosion, and optimization of chemical process/blending. Some chapters review pressure-relieving devices and provide case studies for process safety incidents, which are well illustrated from US Chemical Safety Hazard Investigation Board (www.csb.gov). Finally, this book contains a glossary of Petroleum and Petrochemical Terminologies and Physical and Chemical Characteristics of Major Hydrocarbons.? Provides improved design manual for methods and proven fundamentals of process design with related data and charts? Covers complete range of basic day-to-day petrochemical operation topics? Extensively revised with new material added on three-phase separation, metallurgy, and corrosion? Process safety management/HAZOP and hazard analyses, and optimization of chemical process/blending? Presents many examples using Honeywell UniSim Design software, developed and executable computer programs, and Excel spreadsheet programs? Includes case studies of process safety incidents, guidance for troubleshooting, and checklists? Includes Software of Conversion Table and 30+ process data sheets in excel format


Fundamentals of Process Safety Engineering

Fundamentals of Process Safety Engineering

Author: Samarendra Kumar Biswas

Publisher: CRC Press

Published: 2021-08-16

Total Pages: 498

ISBN-13: 100042457X

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This textbook covers the essential aspects of process safety engineering in a practical and comprehensive manner. It provides readers with an understanding of process safety hazards in the refining and petrochemical industries and how to manage them in a reliable and professional manner. It covers the most important concepts: static electricity, intensity of thermal radiation, thermodynamics of fluid phase equilibria, boiling liquid expanding vapor explosion (BLEVE), emission source models, hazard identification methods, risk control and methods for achieving manufacturing excellence while also focusing on safety. Extensive case studies are included. Aimed at senior undergraduate and graduate chemical engineering students and practicing engineers, this book covers process safety principles and engineering practice authoritatively, with comprehensive examples: • Fundamentals, methods, and procedures for the industrial practice of process safety engineering. • The thermodynamic fundamentals and computational methods for release rates from ruptures in pipelines, vessels, and relief valves. • Fundamentals of static electricity hazards and their mitigation. • Quantitative assessment of fires and explosions. • Principles of dispersion calculations for toxic or flammable gases and vapors. • Methods of qualitative and quantitative risk assessment and control.


Electrification of Particulates in Industrial and Natural Multiphase flows

Electrification of Particulates in Industrial and Natural Multiphase flows

Author: Zhaolin Gu

Publisher: Springer

Published: 2017-07-26

Total Pages: 179

ISBN-13: 981103026X

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This book introduces comprehensive fundamentals, numerical simulations and experimental methods of electrification of particulates entrained multiphase flows. The electrifications of two particulate forms, liquid droplets and solid particles, are firstly described together. Liquid droplets can be charged under preset or associated electric fields, while solid particles can be charged through contact. Different charging ways in gas (liquid)-liquid or gas-solid multiphase flows are summarized, including ones that are beneficial to industrial processes, such as electrostatic precipitation, electrostatic spraying, and electrostatic separation, etc., ones harmful for shipping and powder industry, and ones occurring in natural phenomenon, such as wind-blown sand and thunderstorm. This book offers theoretical references to the control and utilization of the charging or charged particulates in multiphase flows as well.


Guidelines for Engineering Design for Process Safety

Guidelines for Engineering Design for Process Safety

Author: CCPS (Center for Chemical Process Safety)

Publisher: John Wiley & Sons

Published: 2010-10-12

Total Pages: 607

ISBN-13: 0470938269

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Inherently safer plants begin with the initial design. Here is where integrity and reliability can be built in at the lowest cost, and with maximum effectiveness. This book focuses on process safety issues in the design of chemical, petrochemical, and hydrocarbon processing facilities. It discusses how to select designs that can prevent or mitigate the release of flammable or toxic materials, which could lead to a fire, explosion, or environmental damage. All engineers on the design team, the process hazard analysis team, and those who make basic decisions on plant design, will benefit from its comprehensive coverage, its organization, and the extensive references to literature, codes, and standards that accompany each chapter.