The volume explains how risk and decision-making analytics can be applied to the wicked problem of protecting infrastructure and society from extreme events. There is increasing research that takes into account the risks associated with the timing and severity of extreme events in engineering to reduce the vulnerability or increase the resiliency of infrastructure. "Engineering for extremes" is defined as measures taken to reduce the vulnerability or increase the resiliency of built infrastructure to climate change, hurricanes, storms, floods, earthquakes, heat waves, fires, and malevolent and abnormal events that include terrorism, gas explosions, vehicle impact and vehicle overload. The book introduces the key concepts needed to assess the economic and social well-being risks, costs and benefits of infrastructure to extreme events. This includes hazard modelling (likelihood and severity), infrastructure vulnerability, resilience or exposure (likelihood and extent of damage), social and economic loss models, risk reduction from protective measures, and decision theory (cost-benefit and utility analyses). Case studies authored by experts from around the world describe the practical aspects of risk assessment when deciding on the most cost-efficient measures to reduce infrastructure vulnerability to extreme events for housing, buildings, bridges, roads, tunnels, pipelines, and electricity infrastructure in the developed and developing worlds.

When confronted with a fire protection problem, building management is often desperately short on information and know-how in this critical component of protection for their own facility. It is not that the material is hard to grasp, but that there is so much of it that makes the task seem so daunting. Touching on the many subfields of fire protection engineering, Fire Protection for Commercial Facilities deconstructs the issues of fire prevention and life safety into easily digested information. Written in a conversational tone that makes the concepts easy to understand, this book presents systems and practices that can increase a facility's ability to avoid fires, limit the development and spread of fires, and effectively control fires. It provides guidance for decision making regarding what can be effectively controlled in-house, and what should be contracted out to relieve the workload burden of the in-house staff. The information offered augments a broad range of expertise common to building or plant engineers, keeping them abreast of the divergent subfields of fire prevention. Every facility manager dreams of the day when absolutely nothing goes wrong, the week where no new unforeseen problems occur. A fire protection problem is just one of the many emergencies that might spoil this dream. Delineating current and time-tested fire protection practices, this book explores the wide array of fire protection engineering applications encountered during typical facility operations so that facilities managers can be well-versed, informed, and better able to handle fire-related incidents.

This book details the state-of-the-art methodological advances for delineating the toxicology and working mechanisms of nanomaterials, microplastics, fine aerosol particulates (PM2.5) as well as emerging organic pollutants. It also provides latest computational approaches for toxicity prediction and risk assessment of nanoscale materials which possess realistic chances to enter the environment and human organism. Written by leading scientists at the frontiers of environmental science and nanomedicine, this book is intended for both young researchers and experienced professionals working in the fields of environmental protection, human health and occupational safety, nanotechnology, material science and nanomedicine, as well as graduate students majoring in environmental and health sciences.

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 bridges the gap between risk assessment and fire safety engineering like few other resources. As all required knowledge for Probability and Statistics for Fire Engineering is included in the preliminary chapters, the book is suitable for teaching Fire Engineering components in a wide range of engineering courses for senior graduates and for postgraduate students of Fire Engineering. It will also serve as a comprehensive reference for professionals. This book describes the theory and the models involved in risk analysis, and includes case studies of multiple fire scenarios. Building fire safety and human behavioural responses to these scenarios show the benefits of risk-based fire safety design.

This book is devoted to the complex nature of fire, the intricasies of the combustion process, the influence of chemical and physical properties of fuels, and the proper means of fire extinguishment. It lists sequentially the various factors in the combustion process.

Master an Approach Based on Fire Safety Goals, Fire Scenarios, and the Assessment of Design Alternatives Performance-Based Fire Safety Design demonstrates how fire science can be used to solve fire protection problems in the built environment. It also provides an understanding of the performance-based design process, deterministic and risk-based analysis techniques, development of design fire scenarios, trial design development and analysis, and building lifecycle management. Develop a Strategy That Meets the Fire Safety Goals for a Building Topics addressed include designing to protect people from fire, design of detection systems, smoke control systems and structural fire resistance, addressing computational and design uncertainty, and fire testing to support design development or evaluation. Identifies key attributes of performance-based design Reviews the advantages and disadvantages of performance-based design over specification-based prescriptive design Provides a series of steps offering a framework/process for performance-based design Performance-Based Fire Safety Design focuses on the development and application of performance-based fire safety design approaches. Written by leading experts in the field, this text addresses the unique features and uses of a building and helps you gain a better understanding of how a building will perform in the event of a fire.

Andrew Furness and Martin Muckett give an introduction to all areas of fire safety management, including the legal framework, causes and prevention of fire and explosions, fire protection measures, fire risk assessment, and fire investigation. Fire safety is not treated as an isolated area but linked into an effective health and safety management system.
"Introduction to Fire Safety Management" has been developed for the NEBOSH Certificate in Fire Safety and Risk Management and is also suitable for other NVQ level 3 and 4 fire safety courses. The text is highly illustrated in full colour, easy to read and supported by checklists, report forms and record sheets. This practical approach makes the book a valuable reference for health and safety professionals, fire officers, facility managers, safety reps, managers, supervisors and HR personnel in companies, as well as fire safety engineers, architects, construction managers and emergency fire services personnel.
Andrew Furness CFIOSH, GIFireE, Dip2OSH, MIIRSM, MRSH, is Managing Director of Salvus Consulting Limited who specialise in Fire Safety. He was the chairman of the NEBOSH / IOSH working party that developed the NEBOSH Fire Safety and Risk Management certificate.
Martin Muckett MA, MBA, CMIOSH, MIFireE, Dip2OSH, former Principal Health and Safety Advisor to The Fire Service Inspectorate and Principal Fire Safety Officer, Martin is currently Salvus Consulting Limited's Senior Fire Safety Trainer / Consultant.
* Fully covers the syllabus for the NEBOSH Certificate in Fire Safety and Risk Management
* Student-friendly presentation in full colour packed with illustrations and photographs
* Includes a summary oflegislation relevant to fire safety, ideal as a reference for students as well as practitioners

This textbook provides students and academics with a conceptual understanding of fire behavior and fire effects on people and ecosystems to support effective integrated fire management. Through case studies, interactive spreadsheets programmed with equations and graphics, and clear explanations, the book provides undergraduate, graduate, and professional readers with a straightforward learning path. The authors draw from years of experience in successfully teaching fundamental concepts and applications, synthesizing cutting-edge science, and applying lessons learned from fire practitioners. We discuss fire as part of environmental and human health. Our process-based, comprehensive, and quantitative approach encompasses combustion and heat transfer, and fire effects on people, plants, soils, and animals in forest, grassland, and woodland ecosystems from around the Earth. Case studies and examples link fundamental concepts to local, landscape, and global fire implications, including social-ecological systems. Globally, fire science and integrated fire management have made major strides in the last few decades. Society faces numerous fire-related challenges, including the increasing occurrence of large fires that threaten people and property, smoke that poses a health hazard, and lengthening fire seasons worldwide. Fires are useful to suppress fires, conserve wildlife and habitat, enhance livestock grazing, manage fuels, and in ecological restoration. Understanding fire science is critical to forecasting the implication of global change for fires and their effects. Increasing the positive effects of fire (fuels reduction, enhanced habitat for many plants and animals, ecosystem services increased) while reducing the negative impacts of fires (loss of human lives, smoke and carbon emissions that threaten health, etc.) is part of making fires good servants rather than bad masters.

This is the most comprehensive guide to collecting fire-related antiques available, presenting a fascinating collection of functional items like helmets, parade trumpets, fire extinguishing grenades, alarm boxes, and lanterns. It also offers ranking and ceremonial effects such as badges, trophies, medals and awards, and ephemera that celebrate the culture and mystique of firefighting, including toys, artwork, movie posters, and much more. Forgotten relics, such as firefighting adventure novels, show the enormous amount of respect and admiration society has had for firefighters. Covering colonial times to the present, with a brief historical introduction, this authoritative reference serves hobbyists and the most serious collectors of "firematics." Nearly 700 color photographs are inside with detailed descriptions and up-to-date pricing information.

This book provides insight on how disaster risk management can increase the resilience of society to various natural hazards. The multi-dimensionality of resilience and the various different perspectives in regards to disaster risk reduction are taken explicitly into account by providing studies and approaches on different scales and ranging from natural science based methods to social science frameworks. For all chapters, special emphasis is placed on implementation aspects and specifically in regards to the targets and priorities for action laid out in the Sendai Framework for Disaster Risk Reduction. The chapters provide also a starting point for interested readers on specific issues of resilience and therefore include extensive reference material and important future directions for research.

The book is a comprehensive volume on multi-hazards and their management for a sustainable built environment. It focuses on the role of civil engineering in building disaster resilient society. This book brings together all diverse disciplines of civil engineering and related areas (for example, geotechnical engineering, water resources engineering, structural engineering, transportation engineering, environmental engineering, construction management, GIS, and remote sensing) towards a common goal of disaster resilience through an interdisciplinary approach. It contains methods and case studies focusing on civil engineering solutions to reduce the disaster risk. The book contents are aligned in line with the priorities set by UN-Sendai Framework for Disaster Risk Reduction and UN-SDGs to promote a global culture of risk-awareness and disaster reduction. The book will be a useful comprehensive reference for disaster risk reduction beneficial for engineering students, teaching faculty, researchers, industry professionals and policymakers.

Computer simulation proves to be a valuable tool for the analysis and prediction of compartment fires. With the proper understanding and software, fire safety professionals can use modeling tools and methods to find answers to many critical questions relating to the prevention, investigation, and reconstruction of compartment fires. Thoroughly updated and revised, An Introduction to Mathematical Fire Modeling, Second Edition introduces the concepts, software, and techniques of computer-aided mathematical modeling and the software for the analysis and prediction of a variety of compartment fires. Beginning with basic compartment fire theory, the author develops a simple mathematical model that provides an engineering approximation of the time-varying conditions created by fires in an enclosure that may be subject to hot-layer vents. This is the first book focused on the deterministic computer modeling of compartment fires, and the FIRM model presented is the first fire model to be documented, validated, verified, and evaluated according to ASTM guidelines. The text includes detailed information on the use of the QBASIC software provided on an enclosed CD-ROM.

This book addresses fire safety of combustible facade systems which has gained much attention in recent times due to several major fire accidents across the world where combustible facade systems had a significant role in enhancing the growth of fire. The Grenfell tower (London) fire is one of the most severe accident in this category. The book covers basic design and functional aspects of commonly used facade systems along with the materials typically used in such systems. Subsequently, it discusses the currently available testing methods at component level, intermediate level, and system level. It also provides detailed case studies of six full-scale real fire facade fire experiments that have been jointly carried out by IIT Gandhinagar and Underwriters Laboratories at the full-scale facade testing facility established at IIT Gandhinagar. The book will enable designers and decision makers to make better assessments regarding fire safety of existing and upcoming facade systems. It also serves as a guide to deciding which testing methods are more appropriate under certain conditions.

The book reviews existing research on the challenges of voice and silence in organizations. After a major disaster, when investigators are piecing together the story of what happened, a striking fact often emerges: before disaster struck, some people in the organization involved were aware of dangerous conditions that had the potential to escalate to a critical level. But for a variety of reasons, this crucial information did not reach decision-makers. So, the organization moved ever closer to catastrophe, effectively unaware of the possible threat-despite the fact that some of its employees could see it coming. What is the problem with communication about risk in an organization, and why does this problem exist? What stops people in organizations or project teams from freely reporting and discussing critical risks? This book seeks to answer these questions, starting from a deep analysis of 20 disasters where the concealment of risks played a major part. These case studies are drawn from around the world and span a range of industries: civil nuclear power, coal, oil and gas production, hydropower energy, metals and mining, space exploration, transport, finance, retail manufacturing and even the response of governments to wars, famines and epidemics. Together, case studies give an insight into why people hesitate to report risks-and even when they do, why their superiors often prefer to ignore the news. The book reviews existing research on the challenges of voice and silence in organizations. This helps to explain more generally why people dread passing on bad news to others-and why in the workplace they prefer to keep quiet about unpleasant facts or potential risks when they are talking to superiors and colleagues. The discussion section of the book includes important examples of concealment within the Chinese state hierarchy as well as by leading epidemiologists and governments in the West during the novel coronavirus outbreak in Wuhan in 2019-2020. The full picture of the very early stage of the COVID-19 pandemic remains unclear, and further research is obviously needed to better understand what motivated some municipal, provincial and national officials in China as well as Western counterparts to obfuscate facts in their internal communications about many issues associated with the outbreak.

Ambulatory Surgery Center Safety Guidebook: Managing Code Requirements for Fire and Life Safety helps guide ASC administrative and security staff meet the requirements and standards of both federal and state authorities, including the Life Safety Code, a critical designation for facilities participating in Medicare (CMS) funding reimbursement. Designed for easy reference, the book assumes no code knowledge on the part of ASC staff, and provides guidance for the policies, emergency plans, drills, inspection, testing and maintenance of fire protection and building systems necessary for meeting Life Safety Code requirements. Through sample checklists and log sheets, and a systematic process for completing required documentation, the reader is directed through the crucial steps to achieving code compliance. The guide provides ASC staff the knowledge necessary to be in compliance with the Life Safety Code without the need for an outside security or safety consultant. Through this compliance, facilities remain licensed and qualified for Medicare reimbursement, ultimately improving the financial success of the ASC.

Risk is the single most prevalent and enduring factor that influences every individual, organization, and society. We often seek protection from negative risk events, but also seek to take advantage of opportunities arising from positive risk events. We may feel overwhelmed by messages encountered in daily interactions with media and society, contributing to a sense of ambiguity over how to act in response to risk-related information and misinformation. We seek to leverage evidence and reason to find our own balance between both positive and negative outcomes in an uncertain world. This ground-breaking book delivers practical concepts and tools that empower readers to leverage innovations in risk science to improve their abilities to interpret, assess, communicate, and handle risk. It provides a practical non-quantitative approach to understanding risk and to making better decisions involving risk. Think RISK covers several key themes in risk science: a) The main goals and strategies for understanding and managing risk b) How readers can inform their risk stances by considering their own individual values and mission c) The difference between risk and safety, and how that difference is critical for managing risk d) The role of psychological factors when understanding and managing risk e) The role of communication when understanding and managing risk, and f) The general importance and incentives for effectively understanding and managing risk. Written for business professionals in all private and public sectors, this book will also be relevant to non-business professionals such as medical practitioners and policymakers and would be an ideal fit for executive education and seminar-style courses in universities, corporate books clubs and training seminars. Because it's based on foundational and scientifically accepted ideas and principles, the book should remain relevant for many years.

The only pocket guide to the UK building regulations on the market Succinct, portable, reliable guide to UK Building regulations Essential for anyone involved in building works or renovations in the UK

The book supplements "Guidelines for Chemical Process Quantitative Risk Analysis" by providing the failure rate data needed to perform a chemical process quantitative risk analysis.

Safety of RMAA works is an almost uncharted topic of rising importance internationally. Small construction contractors are particularly dependant on RMAA work, especially during times of recession, and they undertake more risks on these jobs than large companies do. This book is based on unique international research and consultancy projects which detail, investigate, and suggest solutions to the specific challenges of safety in RMAA works, based on case studies. Starting with an overview of safety in the wider construction industries of developed countries, the first half of this book also provides a comprehensive summary of relevant rules, regulations, and the resulting safety performances. The systems in the UK, US and Hong Kong are described and contrasted, giving the reader an understanding of how different regulatory approaches have yielded a variety of results. From this solid introduction, specific problems observed in RMAA work are examined through case studies, with reference to the underlying cultural and demographic factors, and a variety of practical engineering and management solutions are explored. This important and practical international work is essential reading for postgraduate students of health and safety in construction, construction project management, or construction in developing countries, as well as policy-makers and construction project managers.

Master an Approach Based on Fire Safety Goals, Fire Scenarios, and the Assessment of Design Alternatives Performance-Based Fire Safety Design demonstrates how fire science can be used to solve fire protection problems in the built environment. It also provides an understanding of the performance-based design process, deterministic and risk-based analysis techniques, development of design fire scenarios, trial design development and analysis, and building lifecycle management. Develop a Strategy That Meets the Fire Safety Goals for a Building Topics addressed include designing to protect people from fire, design of detection systems, smoke control systems and structural fire resistance, addressing computational and design uncertainty, and fire testing to support design development or evaluation. Identifies key attributes of performance-based design Reviews the advantages and disadvantages of performance-based design over specification-based prescriptive design Provides a series of steps offering a framework/process for performance-based design Performance-Based Fire Safety Design focuses on the development and application of performance-based fire safety design approaches. Written by leading experts in the field, this text addresses the unique features and uses of a building and helps you gain a better understanding of how a building will perform in the event of a fire.

This textbook is directly aligned to the NEBOSH National Certificate in Fire Safety and Risk Management, with each element of the syllabus explained in detail. Each chapter guides the student through the syllabus with references to legal frameworks and guidelines. Images, tables, case studies and key information are highlighted within the text to make learning more productive. Covering fire behaviour, safety, management, risk assessment, prevention and the changes to HSG65, the book can also be used as a daily reference by professionals. Written by experts in the field of fire safety Complete coverage that goes beyond the syllabus content making it a useful resource after study Illustrated throughout to enhance understanding

1. Fully aligned to the NEBOSH International Certificate in Health and Safety (IGC) 2019 syllabus 2. An authoritative and helpful study guide for the c.30,000 students a year worldwide pursuing the IGC qualification 3. Written by renowned health and safety expert and former NEBOSH Vice Chairman Dr Ed Ferrett 4. Accessible text design, clearly mapping out key learning outcomes and revision points for easy learning and memorization 5. Companion guide to the 4th edition of the renowned International Health and Safety at Work textbook

This book proposes the tool change methods for the excessive tool wear in the construction rules of shield tunnel construction in China. From the perspective of shield tunneling, atmospheric pressure tool change, pressure opening and tool change, and other special techniques, the tool change technologies are proposed. It highlights a number of tool-changing techniques and research and development work, including pressure-changing tools, tool-changing tools in the tool-cylinder arm, and cutter-tooth cutter inter-change since the beginning of the construction of the Nanjing Yangtze River Tunnel.