روشهایی برای ارزیابی و مدیریت ایمنی فرآیند در سیستمهای فرآیند دیجیتالشده
Methods to Assess and Manage Process Safety in Digitalized Process System (ISSN)
معرفی کتاب «روشهایی برای ارزیابی و مدیریت ایمنی فرآیند در سیستمهای فرآیند دیجیتالشده» (با عنوان لاتین Methods to Assess and Manage Process Safety in Digitalized Process System (ISSN)) نوشتهٔ Faisal Khan, Hans J. Pasman, Ming Yang، منتشرشده توسط نشر Academic Press در سال 2015. این کتاب در 408 صفحه، فرمت epub، زبان انگلیسی ارائه شده است.
This book provides insight into domino effects in industrial chemical sites and process industries. It is about the integration of safety and security resources to prevent and mitigate domino effects in the process industries. It explains how chemical industrial areas, comprised of various hazardous installations, are susceptible to a chain of undesired events, or domino effects, triggered by accidental events or intentional attacks and then presents solutions to prevent them. Firstly, the book provides a dynamic graph approach to model the domino effects induced by accidental fire or intentional fire, considering the spatial-temporal evolution of fires. Then, a dynamic risk assessment method based on a discrete dynamic event tree is proposed to assess the likelihood of VCEs and the vulnerability of installations, addressing the time dependencies in vapor cloud dispersion and the uncertainty of delayed ignitions. A dynamic methodology based on dynamic graphs and Monte Carlo is provided to assess the vulnerability of individuals and installations exposed to multi-hazards, such as fire, explosion and toxic release during escalation events. Based on these domino effect models, an economic approach is developed to integrate safe and security resources, obtaining the most cost–benefit protection strategy for preventing domino effects. Finally, a resilience-based approach is provided to find out the most cost-resilient way to protect chemical industrial areas, addressing possible domino effects. This integrated approach will be of interest to researchers, industrial engineers, chemical engineers and safety managers and will help professionals to new solutions in the area of safety and security. Based on the authors 20 years of teaching, Risk Analysis in Techniques, Tools, and Trends presents an engineering approach to probabilistic risk analysis (PRA). It emphasizes methods for comprehensive PRA studies, including techniques for risk management. The author assumes little or no prior knowledge of risk analysis on the part of the student and provides the necessary mathematical and engineering foundations. The text relies heavily on, but is not limited to, examples from the nuclear industry, because that is where PRA techniques were first developed. Since PRA provides a best-estimate approach, the author pays special attention to explaining uncertainty characterization. The book begins with a description of the basic definitions and principles of risk, safety, and performance and presents the elements of risk analysis and their applications in engineering. After highlighting the methods for performing PRAs, the author describes how to assess and measure performance of the building blocks of PRAs, such as reliability of hardware subsystems, structures, components, human actions, and software. He covers methods of characterizing uncertainties and methods for propagating them through the PRA model to estimate uncertainties of the results. The book explores how to identify and rank important and sensitive contributors to the estimated risk using the PRA and performance assessment models. It also includes a description of risk acceptance criteria and the formal methods for making decisions related to risk management options and strategies. The book concludes with a brief review of the main aspects, issues, and methods of risk communication. Drawing on notes, homework problems, and exams from courses he has taught as well as feedback from his students, Professor Modarres provides a from-the-trenches method for teaching risk assessment for engineers. This is a textbook that is easy to use for students and professors alike. Within The Last Fifty Years The Performance Requirements For Technical Objects And Systems Were Supplemented With: Customer Expectations (quality), Abilities To Prevent The Loss Of The Object Properties In Operation Time (reliability And Maintainability), Protection Against The Effects Of Undesirable Events (safety And Security) And The Ability To Restore Performance (resilience). The Need To Adapt The Operation Of Complex Systems In Such An Uncertain And Volatile Environment Has Caused The Necessity To Formulate New And Well Established Achievements Associated With Modeling, Testing And Evaluation Of These Properties. The Concept Of A Complex System Applies Not Only To The Technical Ones But Also The Infrastructure Of Major Importance For Social Life Such As Transportation And Logistics Systems, Buildings, Power Systems, Water Distribution Systems Or Health Services. Safety And Reliability: Methodology And Applications Contains The Proceedings Of The 24th European Safety And Reliability Conference (esrel 2014, Wroclaw, Poland, 14-18 September 2014), And Discusses Theories And Methods And Their Applications In The Areas Of Risk, Safety And Reliability. The Abstracts Book (408 Pages) + Full Paper Cd-rom (2496 Pages) Will Be Of Interest To Researchers And Practitioners, Academics And Engineers Working In Academic, Industrial And Governmental Sectors. This book presents an in-depth overview of recent work related to the safety, security, and privacy of cyber-physical systems (CPSs). It brings together contributions from leading researchers in networked control systems and closely related fields to discuss overarching aspects of safety, security, and privacy; characterization of attacks; and solutions to detecting and mitigating such attacks. The book begins by providing an insightful taxonomy of problems, challenges and techniques related to safety, security, and privacy for CPSs. It then moves through a thorough discussion of various control-based solutions to these challenges, including cooperative fault-tolerant and resilient control and estimation, detection of attacks and security metrics, watermarking and encrypted control, privacy and a novel defense approach based on deception. The book concludes by discussing risk management and cyber-insurance challenges in CPSs, and by presentingthe future outlook for this area of research as a whole. Its wide-ranging collection of varied works in the emerging fields of security and privacy in networked control systems makes this book a benefit to both academic researchers and advanced practitioners interested in implementing diverse applications in the fields of IoT, cooperative autonomous vehicles and the smart cities of the future. This book presents an in-depth overview of recent work related to the safety, security, and privacy of cyber-physical systems (CPSs). It brings together contributions from leading researchers in networked control systems and closely related fields to discuss overarching aspects of safety, security, and privacy; characterization of attacks; and solutions to detecting and mitigating such attacks. The book begins by providing an insightful taxonomy of problems, challenges and techniques related to safety, security, and privacy for CPSs. It then moves through a thorough discussion of various control-based solutions to these challenges, including cooperative fault-tolerant and resilient control and estimation, detection of attacks and security metrics, watermarking and encrypted control, privacy and a novel defense approach based on deception. The book concludes by discussing risk management and cyber-insurance challenges in CPSs, and by presenting the future outlook for this area of research as a whole. Its wide-ranging collection of varied works in the emerging fields of security and privacy in networked control systems makes this book a benefit to both academic researchers and advanced practitioners interested in implementing diverse applications in the fields of IoT, cooperative autonomous vehicles and the smart cities of the future "Based on the author's 20 years of experience, Risk Analysis in Engineering: Techniques, Tools, and Trends presents an engineering approach to probabilistic risk analysis (PRA). It emphasizes methods for comprehensive PRA studies, including techniques for risk management. The author assumes little or no prior knowledge of risk analysis on the part of the student and provides the necessary mathematical and engineering foundations. The text relies heavily on, but is not limited to, examples from the nuclear industry, because that is where PRA techniques were first developed. Since PRA provides a best-estimate approach, the author pays special attention to explaining uncertainty characterization."--Jacket Methods to Assess and Manage Process Safety in Digitalized Process System, Volume Six, the latest release in the Methods in Chemical Process Safety series, highlights new advances in the field, with this new volume presenting interesting chapters written by an international board of authors.
دانلود کتاب روشهایی برای ارزیابی و مدیریت ایمنی فرآیند در سیستمهای فرآیند دیجیتالشده
- Provides the authority and expertise of leading contributors from an international board of authors
- Presents the latest release in the Methods in Chemical Process Safety series
- Provides the authority and expertise of leading contributors from an international board of authors