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Fire safety regulations in many countries require Fire Risk Assessment to be carried out for buildings such as workplaces and houses in multiple occupation. This duty is imposed on a "Responsible Person" and also on any other persons having control of buildings in compliance with the requirements specified in the regulations. Although regulations only require a qualitative assessment of fire risk, a quantitative assessment is an essential first step for performing cost-benefit analysis of alternative fire strategies to comply with the regulations and selecting the most cost-effective strategy. To facilitate this assessment, various qualitative, semi-quantitative and quantitative techniques of fire risk assessment, already developed, are critically reviewed in this book and some improvements are suggested. This book is intended to be an expanded version of Part 7: Probabilistic risk assessment, 2003, a Published Document (PD) to British Standard BS 7974: 2001 on the Application of Fire Safety Engineering Principles to the Design of Buildings. Ganapathy Ramachandran and David Charters were co-authors of PD 7974 Part 7. Quantitative Risk Assessment in Fire Safety is essential reading for consultants, academics, fire safety engineers, fire officers, building control officers and students in fire safety engineering. It also provides useful tools for fire protection economists and risk management professionals, including those involved in fire insurance underwriting.
Fire safety regulations in many countries require Fire Risk Assessment to be carried out for buildings such as workplaces and houses in multiple occupation. This duty is imposed on a "Responsible Person" and also on any other persons having control of buildings in compliance with the requirements specified in the regulations. Although regulations only require a qualitative assessment of fire risk, a quantitative assessment is an essential first step for performing cost-benefit analysis of alternative fire strategies to comply with the regulations and selecting the most cost-effective strategy. To facilitate this assessment, various qualitative, semi-quantitative and quantitative techniques of fire risk assessment, already developed, are critically reviewed in this book and some improvements are suggested. This book is intended to be an expanded version of Part 7: Probabilistic risk assessment, 2003, a Published Document (PD) to British Standard BS 7974: 2001 on the Application of Fire Safety Engineering Principles to the Design of Buildings. Ganapathy Ramachandran and David Charters were co-authors of PD 7974 Part 7. Quantitative Risk Assessment in Fire Safety is essential reading for consultants, academics, fire safety engineers, fire officers, building control officers and students in fire safety engineering. It also provides useful tools for fire protection economists and risk management professionals, including those involved in fire insurance underwriting.
This book arrives at just the right time to facilitate understanding of performance-based fire risk assessment in buildings – an integral part of the global shift in policy away from traditional prescriptive codes. Yung, an internationally recognised expert on the subject of fire risk assessment, introduces the basic principles and techniques that help the reader to understand the various methodologies that are currently in place or being proposed by different organisations. Through his illustration of basic principles and techniques he enables the reader to conduct their own fire risk assessments. He demonstrates how the probabilities of fire scenarios are assessed based on the probabilities of success and failure of fire protection measures that are in place. He also shows how the consequences of fire scenarios are assessed based on the intensity and speed of fire and smoke spread, the probability and speed of occupant response and evacuation, and the effectiveness and speed of fire department response and rescue efforts. Yung’s clear and practical approach to this highly topical subject enables the reader to integrate the various tools available into a quantitative framework that can be used for decision making. He brings an invaluable resource to all those involved in fire engineering and risk assessment, including students, academics, building designers, fire protection engineers, structural engineers, regulators and risk analysts.
Fire safety is a major concern in many industries, particularly as there have been significant increases in recent years in the quantities of hazardous materials in process, storage or transport. Plants are becoming larger and are often situated in or close to densely populated areas, and the hazards are continually highlighted with incidents such as the fires and explosions at the Piper Alpha oil and gas platform, and the Enschede firework factory. As a result, greater attention than ever before is now being given to the evaluation and control of these hazards. In a comprehensive treatment of the subject unavailable elsewhere, this book describes in detail the applications of hazard and risk analysis to fire safety, going on to develop and apply quantification methods. It also gives an explanation in quantitative terms of improvements in fire safety in association with the costs that are expended in their achievement. Furthermore, a quantitative approach is applied to major fire and explosion disasters to demonstrate crucial faults and events. Featuring: Full international coverage and a review of several major fires and explosion disasters. Presentation of the properties and science of fire including the latest research. Detailed coverage of the performance of fire safety measures. This is an essential book for practitioners in fire safety engineering, loss prevention professionals, technical personnel in insurance companies as well as academics involved in fire science and postgraduate students. This book is also a useful reference for fire safety officers, building designers, engineers in the process industries, safety practitioners and risk assessment consultants.
Fires can be considered a causal chain-of-events in which the growth and spread of fire may cause damage and injury if it is rapid enough to overcome the barriers placed in its way. Fire tests for fire resistance of the barriers can be used in a quantitative risk assessment. The fire growth and spread is modeled in a state transition model (STM). The fire barriers are presented as part of the fire protection model (FPM), which is based on a portion of the National Fire Prevention Association (NFPA) decision tree. An emergency equivalent network is introduced to couple the fire growth model (FGM) and the FPM so that the spread of fire beyond the room of origin can be computed. An example is presented in which a specific building floor plan is analyzed to obtain the shortest expected time for fire to spread between two points. To obtain the probability and time for each link in the network, data from the results of fire tests were used. These results were found to be lacking, and new standards giving better data are advocated.
Chemical process quantitative risk analysis (CPQRA) as applied to the CPI was first fully described in the first edition of this CCPS Guidelines book. This second edition is packed with information reflecting advances in this evolving methodology, and includes worked examples on a CD-ROM. CPQRA is used to identify incident scenarios and evaluate their risk by defining the probability of failure, the various consequences and the potential impact of those consequences. It is an invaluable methodology to evaluate these when qualitative analysis cannot provide adequate understanding and when more information is needed for risk management. This technique provides a means to evaluate acute hazards and alternative risk reduction strategies, and identify areas for cost-effective risk reduction. There are no simple answers when complex issues are concerned, but CPQRA2 offers a cogent, well-illustrated guide to applying these risk-analysis techniques, particularly to risk control studies. Special Details: Includes CD-ROM with example problems worked using Excel and Quattro Pro. For use with Windows 95, 98, and NT.
The SFPE Guide to Fire Risk Assessment provides guidance to qualified practitioners in developing, selecting, and using fire risk assessment methodologies for the design, construction, and operation of buildings, facilities, or processes. It also addresses fire risk acceptability, the role of fire risk assessment and fire risk management in the fire safety design process, and associated communication/ monitoring of fire risk. The guide Includes a new flow chart that outlines the risk assessment process. It also includes new information related to: Risk Perception F-N curves Risk communication Residual risk management Risk monitoring Sensitivity analysis The guide also provides clear guidance on conducting qualitative and quantitative analysis. It also uses examples that reinforce topics discussed.
FIRE RISK MANAGEMENT Practical methodologies to develop holistic and comprehensive fire safety strategies for buildings and industrial assets In Fire Risk Management: Principles and Strategies for Buildings and Industrial Assets, a team of distinguished authors delivers an incisive combination of risk management principles and fire safety assessment methods that offers practical strategies and workflows to prevent and mitigate today’s complex fire scenarios. The book summarizes modern, risk-based approaches to fire safety, discussing fire safety objectives in terms of functional statements, performance requirements, and detailed protection measures for buildings and industrial assets towards the development of a fire safety case to timely manage risk with a systematic and structured approach throughout the life cycle of the asset. The authors introduce the fundamentals of fire safety and design principles before moving on to discuss topics like fire risk assessment methods, risk profiles, risk mitigation, safety management and performance, and protective layers and controls. Fire Risk Management presents practical methods, often borrowed from those successfully used in other domains, that can be defined, shared, and communicated with multiple stakeholders from different backgrounds and with different needs and perspectives. Readers will also find: A code-neutral examination of fire safety principles that is independent of local regulations Discussions of key principle standards, including NFPA 550 and ISO 45001, and guidelines on fire risk assessment Practical explorations that connect theory with practice in the real world In-depth case studies that walk readers through fire risk management strategies for railway stations, warehouse storage facilities, heritage buildings, renewable energy installations, and process industry plants Perfect for fire safety practitioners, engineers, and other stakeholders involved in the design and operation of buildings and industrial assets, Fire Risk Management: Principles and Strategies for Buildings and Industrial Assets will also earn a place in the libraries of facility owners and operators, safety systems managers, occupational health and safety professionals, and code officials.
The SFPE Guide to Fire Risk Assessment provides guidance to qualified practitioners in developing, selecting, and using fire risk assessment methodologies for the design, construction, and operation of buildings, facilities, or processes. It also addresses fire risk acceptability, the role of fire risk assessment and fire risk management in the fire safety design process, and associated communication/ monitoring of fire risk. The guide Includes a new flow chart that outlines the risk assessment process. It also includes new information related to: Risk Perception F-N curves Risk communication Residual risk management Risk monitoring Sensitivity analysis The guide also provides clear guidance on conducting qualitative and quantitative analysis. It also uses examples that reinforce topics discussed.
Revised and significantly expanded, the fifth edition of this classic work offers both new and substantially updated information. As the definitive reference on fire protection engineering, this book provides thorough treatment of the current best practices in fire protection engineering and performance-based fire safety. Over 130 eminent fire engineers and researchers contributed chapters to the book, representing universities and professional organizations around the world. It remains the indispensible source for reliable coverage of fire safety engineering fundamentals, fire dynamics, hazard calculations, fire risk analysis, modeling and more. With seventeen new chapters and over 1,800 figures, the this new edition contains: Step-by-step equations that explain engineering calculations Comprehensive revision of the coverage of human behavior in fire, including several new chapters on egress system design, occupant evacuation scenarios, combustion toxicity and data for human behavior analysis Revised fundamental chapters for a stronger sense of context Added chapters on fire protection system selection and design, including selection of fire safety systems, system activation and controls and CO2 extinguishing systems Recent advances in fire resistance design Addition of new chapters on industrial fire protection, including vapor clouds, effects of thermal radiation on people, BLEVEs, dust explosions and gas and vapor explosions New chapters on fire load density, curtain walls, wildland fires and vehicle tunnels Essential reference appendices on conversion factors, thermophysical property data, fuel properties and combustion data, configuration factors and piping properties “Three-volume set; not available separately”