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Over the last three decades the process industries have grown very rapidly, with corresponding increases in the quantities of hazardous materials in process, storage or transport. Plants have become larger and are often situated in or close to densely populated areas. Increased hazard of loss of life or property is continually highlighted with incidents such as Flixborough, Bhopal, Chernobyl, Three Mile Island, the Phillips 66 incident, and Piper Alpha to name but a few. The field of Loss Prevention is, and continues to, be of supreme importance to countless companies, municipalities and governments around the world, because of the trend for processing plants to become larger and often be situated in or close to densely populated areas, thus increasing the hazard of loss of life or property. This book is a detailed guidebook to defending against these, and many other, hazards. It could without exaggeration be referred to as the "bible" for the process industries. This is THE standard reference work for chemical and process engineering safety professionals. For years, it has been the most complete collection of information on the theory, practice, design elements, equipment, regulations and laws covering the field of process safety. An entire library of alternative books (and cross-referencing systems) would be needed to replace or improve upon it, but everything of importance to safety professionals, engineers and managers can be found in this all-encompassing reference instead. Frank Lees' world renowned work has been fully revised and expanded by a team of leading chemical and process engineers working under the guidance of one of the world’s chief experts in this field. Sam Mannan is professor of chemical engineering at Texas A&M University, and heads the Mary Kay O’Connor Process Safety Center at Texas A&M. He received his MS and Ph.D. in chemical engineering from the University of Oklahoma, and joined the chemical engineering department at Texas A&M University as a professor in 1997. He has over 20 years of experience as an engineer, working both in industry and academia. New detail is added to chapters on fire safety, engineering, explosion hazards, analysis and suppression, and new appendices feature more recent disasters. The many thousands of references have been updated along with standards and codes of practice issued by authorities in the US, UK/Europe and internationally. In addition to all this, more regulatory relevance and case studies have been included in this edition. Written in a clear and concise style, Loss Prevention in the Process Industries covers traditional areas of personal safety as well as the more technological aspects and thus provides balanced and in-depth coverage of the whole field of safety and loss prevention. * A must-have standard reference for chemical and process engineering safety professionals * The most complete collection of information on the theory, practice, design elements, equipment and laws that pertain to process safety * Only single work to provide everything; principles, practice, codes, standards, data and references needed by those practicing in the field
There is a small, but finite, probability that radio frequency currents induced in industrial structures may cause sparking at discontinuities. If a flammable gaseous mixture is present, and if the incident field strength is sufficiently great, an ignition may result, leading to deleterious consequences. There is a demand for soundly based, realistic assessment procedures to estimate the significance of this mode of hazard at sensitive industrial plants. This thesis describes work undertaken to advance understanding of this hazard and to refine assessment procedures. The first three chapters give historical reviews of the hazard and attempts to quantify it, culminating in a procedure proposed by the author. Detailed analyses are presented, on which the proposed procedure is based, particular attention being given to the behaviour of typical industrial structures as unintended receiving, antennas. The succeeding four chapters describe experimental work on one aspect of the hazard: ignition by pulsed microwave sources (e.g. radar). Design of an ignition cell. is considered, and detailed analyses of its performance are presented. The microwave power for the cell was supplied by a radar source and comprehensive instrumentation applied to the circuit, as a result of which detailed observation of the ignition phenomena was possible. These observations are presented and assessments made of the minimum energy absorbed in the ignition of hydrogen, ethylene, methane and propane, each in their most-easily-ignited admixture with air at NTP. The conclusions, the most important of which is that the current widely-accepted value of the minimum ignition energy of hydrogen is too high, are summarised in the final chapter, together with suggestions for further research.
Summarizes core information for quick reference in the workplace, using tables and checklists wherever possible. Essential reading for safety officers, company managers, engineers, transport personnel, waste disposal personnel, environmental health officers, trainees on industrial training courses and engineering students. This book provides concise and clear explanation and look-up data on properties, exposure limits, flashpoints, monitoring techniques, personal protection and a host of other parameters and requirements relating to compliance with designated safe practice, control of hazards to people's health and limitation of impact on the environment. The book caters for the multitude of companies, officials and public and private employees who must comply with the regulations governing the use, storage, handling, transport and disposal of hazardous substances. Reference is made throughout to source documents and standards, and a Bibliography provides guidance to sources of wider ranging and more specialized information. Dr Phillip Carson is Safety Liaison and QA Manager at the Unilever Research Laboratory at Port Sunlight. He is a member of the Institution of Occupational Safety and Health, of the Institution of Chemical Engineers' Loss Prevention Panel and of the Chemical Industries Association's `Exposure Limits Task Force' and `Health Advisory Group'. Dr Clive Mumford is a Senior Lecturer in Chemical Engineering at the University of Aston and a consultant. He lectures on several courses of the Certificate and Diploma of the National Examining Board in Occupational Safety and Health. [Given 5 star rating] - Occupational Safety & Health, July 1994 - Loss Prevention Bulletin, April 1994 - Journal of Hazardous Materials, November 1994 - Process Safety & Environmental Prot., November 1994
Safety at Work features articles from 25 specialist contributors written in association with the Institution of Occupational Safety and Health. This third edition of the book contains revisions to reflect developments in health and safety legislation and to rationalize the structure of some of the chapters. This book is organized into 31 chapters. Several chapters from the second edition were revised. Chapters on occupational safety law were combined into one chapter. The Management Techniques and Behavioral Science chapters were also combined in to Management of Risk to reflect the growing importance of broad based risk control strategies. A chapter on the employer's obligations for safety was included to replace the behavioral science techniques chapter and the practical day-to-day engineering application of physics and chemistry techniques was retitled Engineering science. A new chapter on the safe use of chemicals has also been added to cover with the important field covered by the Control of Substances Hazardous to Health Regulations 1988. This book will be of interest to occupational safety professionals and others interested in workplace safety.
Lees' Process Safety Essentials is a single-volume digest presenting the critical, practical content from Lees' Loss Prevention for day-to-day use and reference. It is portable, authoritative, affordable, and accessible — ideal for those on the move, students, and individuals without access to the full three volumes of Lees'. This book provides a convenient summary of the main content of Lees', primarily drawn from the hazard identification, assessment, and control content of volumes one and two. Users can access Essentials for day-to-day reference on topics including plant location and layout; human factors and human error; fire, explosion and toxic release; engineering for sustainable development; and much more. This handy volume is a valuable reference, both for students or early-career professionals who may not need the full scope of Lees', and for more experienced professionals needing quick, convenient access to information. - Boils down the essence of Lees'—the process safety encyclopedia trusted worldwide for over 30 years - Provides safety professionals with the core information they need to understand the most common safety and loss prevention challenges - Covers the latest standards and presents information, including recent incidents such as Texas City and Buncefield