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Evaluation of the Effects and Consequences of Major Accidents in Industrial Plants analyzes the different major accidents which can occur in process plants and during the transportation of hazardous materials. The main features of fires, explosions and toxic releases are discussed, and a set of mathematical models allowing the prediction of their effects and consequences are explained. With a practical approach, the models are applied to simple illustrative examples, as well as to more complex real cases. The use of these calculations in the frame of Quantitative Risk Analysis is also treated. Evaluation of the effects of major accidents in industrial installations covers the following topics: general introduction, source term, fire accidents, vapour cloud explosions, BLEVEs and vessel explosions, atmospheric dispersion of toxic or flammable clouds, vulnerability, and quantitative risk analysis. This book is a useful tool for engineering professionals, as well as an interesting reference for teaching at graduate and post-graduate levels. Both the essential aspects and the calculations related to the diverse accidents are discussed The prediction of effects and consequences is performed with a practical approach Recent contributions from literature have been included Subjects of increasing importance have been included: an extense analysis of BLEVEs, for example, or the atmospheric dispersion of pathogenic agents
Applications of the science of fluid mechanics to the new and expanding fields of industrial safety and environmental protection are discussed in this volume. The material is organized in accordance with the chain-of-events in real accidents, starting with the loss of containment of hazardous fluids, going on to the spreading and mixing processes in water or air, and ending with the damage loads caused by explosions, fires or toxic content. To develop solutions relevant to the wide range of problems considered, it is necessary to draw on material from various branches of fluid mechanics, i.e. from the engineering fields (aero- and gas- and hydrodynamics, hydraulics, heat transfer and two-phase flows) as well as from geophysics (environmental flows, boundary-layer meteorology). The relevant solutions are developed from the fundamental equations, but are kept simple for transparency and understanding. To achieve this, the simplifications offered by scaling, similarity and entrainment concepts are used extensively. Many of the solutions are novel but have been confirmed by laboratory experiments. The material in the book has been used as a teaching text on Master's level, but the content will be useful also for practising engineers and scientists engaged in safety and environmental impact. The problems considered have been encountered in consultancy work for industry and government agencies. The coherent presentation and the fundamental basis for analytical developments, makes the material accessible also to readers not acquainted with the field.
A one-stop reference guide to design for safety principles and applications Design for Safety (DfSa) provides design engineers and engineering managers with a range of tools and techniques for incorporating safety into the design process for complex systems. It explains how to design for maximum safe conditions and minimum risk of accidents. The book covers safety design practices, which will result in improved safety, fewer accidents, and substantial savings in life cycle costs for producers and users. Readers who apply DfSa principles can expect to have a dramatic improvement in the ability to compete in global markets. They will also find a wealth of design practices not covered in typical engineering books—allowing them to think outside the box when developing safety requirements. Design Safety is already a high demand field due to its importance to system design and will be even more vital for engineers in multiple design disciplines as more systems become increasingly complex and liabilities increase. Therefore, risk mitigation methods to design systems with safety features are becoming more important. Designing systems for safety has been a high priority for many safety-critical systems—especially in the aerospace and military industries. However, with the expansion of technological innovations into other market places, industries that had not previously considered safety design requirements are now using the technology in applications. Design for Safety: Covers trending topics and the latest technologies Provides ten paradigms for managing and designing systems for safety and uses them as guiding themes throughout the book Logically defines the parameters and concepts, sets the safety program and requirements, covers basic methodologies, investigates lessons from history, and addresses specialty topics within the topic of Design for Safety (DfSa) Supplements other books in the series on Quality and Reliability Engineering Design for Safety is an ideal book for new and experienced engineers and managers who are involved with design, testing, and maintenance of safety critical applications. It is also helpful for advanced undergraduate and postgraduate students in engineering. Design for Safety is the second in a series of “Design for” books. Design for Reliability was the first in the series with more planned for the future.
The sequel to No Safety in Numbers; a modern day Lord of the Flies for fans of apocalyptic thrillers It's Day 7 in the quarantined mall. The riot is over and the senator trapped inside is determined to end the chaos. Even with new rules, assigned jobs, and heightened security, she still needs to get the teen population under control. So she enlists Marco's help--allowing him to keep his stolen universal card key in exchange for spying on the very football players who are protecting him. But someone is working against the new systems, targeting the teens, and putting the entire mall in even more danger. Lexi, Marco, Ryan, and Shay believe their new alliances are sound. They are wrong. Who can be trusted? And who will be left to trust? The virus was just the beginning.
Accidents involving reactive chemicals can often be prevented, or their effects alleviated, if those handling them have a sound knowledge both of their hazardous properties and of appropriate handling methods. This book addresses this need. It opens with a definition of the key technical terms and evaluation methods for hazardous materials are outlined. Chapter 2 covers accidents involving self-reactive substances, accidents occurring during chemical reactions, and accidents involving hazardous products in the event of an earthquake. In the next three chapters, methods for evaluating fire and explosion hazards of reactive substances are covered. The test methods described include DSC test using a sealed cell, impact sensitivity tests, the ignitability test, burning tests, the pyrolytic severity test, and shock sensitivity tests. Recently, the Japanese Fire Services Law was amended, requiring hazardous materials to be evaluated and classified by appropriate tests. These test methods, described in chapter 4, are related to oxidising solids, combustible solids, spontaneous ignition substances, and water-reactive substances. The final chapter gives examples of the safety assessment of various pyrotechnics. There are few books available on this subject and none so comprehensive. Each of the methods described is practical, effective and of low cost; and many of the application results are from the author's own laboratory. The book will be invaluable to those in public and industrial safety laboratories, R & D chemical laboratories, Fire Departments, explosives manufacturers, and those responsible for the transportation of hazardous materials.
Ben McKee desperately tries to find a way to get himself and his mother out of an abusive situation after his mom marries Larry Taylor.
The Guidance on Corporate Governance for Process Safety draws attention to those at the top of industry to the need for high standards of corporate governance in relation to the management of high hazard industries. The Guidance encourages every director, CEO and President of a major hazard ...