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An introductory course on Health, Safety and Environment (HSE) as applicable to all manufacturing and exploration engineering industries. Its first part deals with fundamentals, ecology and environmental engineering and covers air and water pollution sources, magnitude, measuring techniques and remedial measures to minimize them. The second pa
Safety in the Process Industries tackles safety issues concerning the process industry. The book covers the various hazards, policies, and safety measures in the process industry. The first part of the text presents policies and case histories. Part II discusses the various hazards present in the process industry, such as electrical, fire, explosives, corrosive chemicals, and hardware. Part III tackles hazard control in design and maintenance. Part IV deals with other related topics that concern safety, such as management, safety training, and emergency planning. The book will be of great help to individuals involved in the management, development, planning, design, construction, operation, inspection, and maintenance of a process plant.
Proceedings of the European Conference on Emergency Planning for Industrial Hazards, held at the Congress Centre, Villa Ponti, Varese, Italy, 4-6 November 1987.
The industrial workplace should be an environmentally sound and reliable operation with established safety and health policies and practices. Most companies work hard to achieve this goal by having Industrial Safety and Risk Management programs in place. The key benefits of a first-class ISRM program are the reduction of risk to people, environment, assets and production for company personnel, contractors, the public and investors. Professors Wilson and McCutcheon offer an integrated approach to industrial safety and risk management and explain the elements of practice required to manage health, safety and environmental risk effectively. Contributors from industry and government add their expertise to provide a comprehensive examination of issues concerning industrial health, safety and risk management programs; risk assessment and management; causation models and systematic incident investigation; and human factors. Case studies of industrial disasters offer lessons in how to proactively reduce risks in operations or projects. Industrial Safety and Risk Management provides a solid base for students and industry to implement, manage and improve their understanding and knowledge of safety and risk management programs. It provides an excellent training program for new professionals, junior managers and supervisors working in industry.
Here is a new and analytical approach to chemical plant safety-encompassing design, construction, and operation to reduce the likelihood of hazardous incidents as well as actions to mitigate their consequences should they still occur. The most significant safety issues are addressed both from the viewpoint of the fundamental phenomena and the perspective of plant design. Many of the phenomena covered are outside the scope of the normal chemical engineering curriculae; examples include compressible multiphase flow, deflagrations and detonations, turbulent dispersion, thermochemical characterization methods for material decomposition and reactions. In the plant design area, topics of importance include built in redundancy of equipment, and minimization of inventory of hazardous materials. The combination of the fundamental and applied aspects makes this book a unique and useful one for both the academic and industrial sectors.
Guidelines for Risk Based Process Safety provides guidelines for industries that manufacture, consume, or handle chemicals, by focusing on new ways to design, correct, or improve process safety management practices. This new framework for thinking about process safety builds upon the original process safety management ideas published in the early 1990s, integrates industry lessons learned over the intervening years, utilizes applicable "total quality" principles (i.e., plan, do, check, act), and organizes it in a way that will be useful to all organizations - even those with relatively lower hazard activities - throughout the life-cycle of a company.
Herbert William Heinrich has been one of the most influential safety pioneers. His work from the 1930s/1940s affects much of what is done in safety today – for better and worse. Heinrich’s work is debated and heavily critiqued by some, while others defend it with zeal. Interestingly, few people who discuss the ideas have ever read his work or looked into its backgrounds; most do so based on hearsay, secondary sources, or mere opinion. One reason for this is that Heinrich’s work has been out of print for decades: it is notoriously hard to find, and quality biographical information is hard to get. Based on some serious "safety archaeology," which provided access to many of Heinrich’s original papers, books, and rather rich biographical information, this book aims to fill this gap. It deals with the life and work of Heinrich, the context he worked in, and his influences and legacy. The book defines the main themes in Heinrich’s work and discusses them, paying attention to their origins, the developments that came from them, interpretations and attributions, and the critiques that they may have attracted over the years. This includes such well-known ideas and metaphor as the accident triangle, the accident sequence (dominoes), the hidden cost of accidents, the human element, and management responsibility. This book is the first to deal with the work and legacy of Heinrich as a whole, based on a unique richness of material and approaching the matter from several (new) angles. It also reflects on Heinrich’s relevance for today’s safety science and practice.
Lees' is industry's first stop for process safety information. Lees' 4e is the comprehensive and scaleable source of professional industrial process safety and loss prevention information. Available in print and electronic formats, and online with additional new tools and an annual update schedule, Lees' provides users with the information they require to ensure process safety. Volume 1 covers legislation, engineering and design: Key topics include law; major hazard control; economics and insurance; reliability engineering; hazard identification; hazard assessment; process design; pressure system design; control system design; emission and dispersion; and fire. Volume 2 covers operation and practical safety: Key topics include explosion, toxic release, plant operation, storage, transport, emergency planning, personal safety, accident research, reactive chemicals, safety instrumented systems, and chemical security. Volume 3 contains the case histories and data, including ACMH model license conditions; HSE guidelines' public planning inquiries; standards and codes; process safety management (PSM) regulations in the United States; risk management program regulations * THE process safety encyclopedia, trusted worldwide for over 30 years * Now available in print and online, to aid searchability and portability * Over 3600 print pages cover the full scope of process safety and loss prevention, compiling theory, practice, standards, legislation, case studies and lessons learned, in one resource as opposed to multiple sources.