Extensively using experimental and numerical illustrations, CombustionPhenomena: Selected Mechanisms of Flame Formation, Propagation, and Extinction provides a comprehensive survey of the fundamental processes of flame formation, propagation, and extinction. Taking you through the stages of combustion, leading experts visually display, mathematically explain, and clearly theorize on important physical topics of combustion. After a historical introduction to the field, they discuss combustion chemistry, flammability limits, and spark ignition. They also study counterflow twin-flame configuration, flame in a vortex core, the propagation characteristics of edge flames, instabilities, and tulip flames. In addition, the book describes flame extinction in narrow channels, global quenching of premixed flames by turbulence, counterflow premixed flame extinction limits, the interaction of flames with fluids in rotating vessels, and turbulent flames. The final chapter explores diffusion flames as well as combustion in spark- and compression-ignition engines. It also examines the transition from deflagration to detonation, along with the detonation wave structure. With downloadable resources of images that beautifully illustrate a range of combustion phenomena, this book facilitates a practical understanding of the processes occurring in the conception, spread, and extinguishment of a flame. It will help you on your way to finding solutions to real issues encountered in transportation, power generation, industrial processes, chemical engineering, and fire and explosion hazards.

This book describes how safety and other professionals may use safety database software on a personal computer to manage their safety and health programs. It emphasizes the tech niques and features necessary to develop a computerized safety data system for a personal computer.

Provides managers, architects, plant engineers, technicians, and others with a concise background in the principles of fire protection and property loss control (a new chapter on life safety elements was added to the second edition). Some of the topics are the characteristics and behavior of fire, t

The Fire Safety and Risk Management Revision Guide: for the NEBOSH Fire Certificate is the perfect revision aid for students preparing to take their NEBOSH National Certificate in Fire Safety and Risk Management. As well as being a handy companion volume to the Fire Protection Association textbook Fire Safety and Risk Management: for the NEBOSH National Certificate in Fire Safety and Risk Management, it will also serve as a useful aide-memoire for those in fire safety roles. The book: provides practical revision guidance and strategies for students; highlights the key information for each learning outcome of the current NEBOSH syllabus; gives students opportunities to test their knowledge based on NEBOSH-style questions and additional exercises; provides details of publically available guidance documents that students will be able to refer to. The revision guide is fully aligned to the current NEBOSH syllabus, providing complete coverage in bite-sized chunks, helping students to learn and memorise the most important topics. Throughout the book, the guide refers back to the Fire Safety and Risk Management textbook, helping students to consolidate their learning.

This companion to the bestselling Introduction to Health and Safety at Work will help you prepare for the written assessments on the NEBOSH National General Certificate in Occupational Health and Safety (2019 specification). It provides complete coverage of the syllabus in bite-sized chunks and will help you learn and memorise the most important areas, with links provided back to the main Introduction to Health and Safety at Work text to help you consolidate your learning. Small and portable, making it ideal for use anywhere: at home, in the classroom or on the move Includes specimen questions and answers based on recent examination papers Everything you need for productive revision in one handy reference source This revision guide is written by an experienced lecturer and former Vice Chairman of NEBOSH, who has spent many years helping students become accredited by NEBOSH.

Provides an understanding of fire loads, analysis, and design of various structural members. Includes detailed design methods and model studies. Covers in detail different types of fire-fighting equipment, their functions and applications.

We all depend on infrastructure for civilised living with the scale and sophistication of what we build ever increasing. Manifestly we all have a vested interest in construction being safe, and yet failures occur. Not infrequently these failures are catastrophic and accompanied by huge cost and occasional loss of life. Avoiding such tragedies is every engineer's desire but how to do it is not straightforward. Nor is it straightforward to respond the question of: is this project safe? Nonetheless, progress can be made by laying down guidelines of what makes structures safe and by studying the pattern of past failures as a basis for predicting what might go wrong. This assists by drawing on the author's considerable career experiences of observation, study and practice. The opening chapter describes the general challenges of making structures safe taking account of uncertainty and the consequence of failure, and it also describes the evolution of safety thinking which nowadays includes issues of worker safety and health. Subsequent chapters discuss what is meant by both failure and safety and describe various safety attributes that ought to be targeted. Even over the last 50 years, structural methodologies for analysis and design have evolved to reflect the way we collectively think is the best to assure safe structures. Many of the notions used are rather abstract and so can best be appreciated by learning from what has gone wrong in the past. Unfortunately there is no shortage of precedents. Hence all subsequent chapters covering human error, material failures, construction failures and fire follow a general pattern of describing the problem, accompanied by examples illustrating how failures have arisen in practice. It will be apparent that common themes recur. Engineered structures protect societies, so some of the biggest challenges we face are of designing against the possibility of man-made or environmental catastrophe. Most readers will be familiar with the occurrence of natural events such as storm, flood and earthquake and so two chapters are devoted to man-made and natural hazards. Occupational health and safety, plus designers' legal obligations to assure these, are described in another chapter. The final chapter concerns Avoiding Failure and deals with concepts such as hazards and risk and the procedures that can be followed to minimise the probability of serious failure occurring.

Presenting a comprehensive overview of the fire resistance of building structures, this key text brings together a large volume of material from many sources on this increasingly important topic. Opening with the fundamentals of fires and fire safety, the book gives an introduction to real fire exposure and the response of strutures to such fires, outlining the important contribution of structural fire resistance to overall fire safety. Methods of calculating fire severity and achieving fire resistance are described, including fire performance of the main structural materials including structural steel, reinforced concrete and timber construction. Particularly valuable elements of the book are its design sections (incorporating international methods), where the arlier material is synthesised and recommendations are rmade for rational design of building structures exposed to fires.
Structural Design for Fire Safety provides expert guidance on:

• interpreting code requirements for fire safety
• understanding the concepts of fire severity and fire resistance
• estimating time-temperature curves for fully developed compartment fires
• understanding the behaviour of structural elements and buildings exposed to fires
• designing steel, concrete and timber structures to resist fire exposure
• assessing the fire performance of existing structures

In 1971, Francis L. Brannigan created Building Construction for the Fire Service, a groundbreaking resource offering the most comprehensive knowledge of building construction available to fire fighters. With his dedication to fire fighter safety and saving lives, the legacy of Frank Brannigan continues with the sixth edition of Brannigan's Building Construction for the Fire Service. The Sixth Edition meets and exceeds the National Fire Academy's Fire and Emergency Services Higher Education (FESHE) course objectives and outcomes for the Associate's Core-Level course called Building Construction for Fire Protection (C0275). Brannigan's Building Construction for the Fire Service, Sixth Edition is an integral resource for fire officers, instructors, those studying for promotion, individuals taking civil service examinations, fire science students, and both current and prospective fire fighters. It is part of an integrated teaching and learning system that combines dynamic features and content to support instructors and to help prepare students for their career in firefighting. This new edition features: Chapter 7 Non-Fire Building Systems (new) describes several categories of non-fire systems in buildings, including electrical systems, plumbing systems, conveyances, refrigeration systems, and Ventilation (HVAC) systems, in addition to the hazards the systems pose for fire fighters. New or expanded content on: Aluminum-clad polyethylene panels Scaffolding Cranes and their use Modular construction using stacked shipping containers Light-weight wood-frame construction Fire escapes and stair design Cross-laminated timber and heavy timber construction Methods of protecting steel against fire New "green" materials and methods such as hempcrete and biofilters Structural wall framing systems with insulated studs Air-supported structures for sporting events Massive single-structure lightweight wood frame apartment buildings Firefighting recommendations in lightweight wood frame residential buildings Building construction and its relationship to flow path Historical perspective on fire resistance testing and its shortcomings Roofing material tests Safety issues of post-fire investigation of significantly damaged/collapsed buildings Scenario-Based Learning. Case Studies are found at the beginning and end of each chapter to encourage and foster critical-thinking skills. Tactical Considerations. This feature offers suggestions for firefighting, safety concerns, and related additional material for application on the fireground. Wrap-Up. Chapter Summaries, Key Terms, Challenging Questions, and Suggesting Readings promote comprehension and mastery of course objectives and outcomes.

This accessible reference introduces firefighting and fire safety systems on ships and is written in line with the IACS Classification Rules for Firefighting Systems. It covers the design, construction, use and maintenance of firefighting and fire safety systems, with cross references to the American Bureau of Shipping rules and various Classification Society regulations which pertain to specific Classification Society rules. Focuses on basic principles in line with current practice Aimed at non-specialists The book suits professional seafarers, students, and cadets, as well as leisure sailors and professionals involved in the logistics industry. It is also particularly useful for naval architects, ship designers, and engineers who need to interpret the Class rules when developing shipboard firefighting systems.

Intumescent Coating and Fire Protection of Steel Structures establishes the thermo insulation characteristics of intumescent coating under various fire and hydrothermal aging circumstances and shows how to predict the temperature elevation of steel structures protected with intumescent coatings in fires for avoiding structural damage. Introduced are the features and applications of intumescent coatings for protecting steel structures against fire. The constant effective thermal conductivity is defined and employed to simplify the quantification for the thermo-resistance of intumescent coatings. An experimental investigation into the hydrothermal aging effects on insulative properties of intumescent coatings is presented, as well as the influence of topcoat on insulation and aging of intumescent coatings. Also described is a practical method for calculating the temperature of the protected steel structures with intumescent coatings in order to evaluate the fire safety of a structure. The book suits fire and structural engineers, as well as researchers and students concerned with the protection of steel structures.

Structural design in fire conditions is conceptually similar to structural design in normal temperature conditions, but often more difficult because of internal forces induced by thermal expansion, strength reduction due to elevated temperatures, much larger deflections, and numerous other factors. Before making any design decisions it is essential to establish clear objectives, and determine the severity of the design fire. The art and science of designing structures for fire safety has grown considerable in recent years, accompanied by the development of sophisticated codes of practice such as the Eurocodes. The Eurocode documents now represent the best international consensus on design rules for structures exposed to fires. Similarly, codes and standards in the US and the rest of the world are being updated with rational design provisions for evaluating fire resistance of structures. One such example is the recent introduction of rational fire design approach in the latest edition of the American Institute of Steel Construction's steel design manual. Designing Steel Structures for Fire Safety provides guidance for those wishing to apply rational engineering methodologies for fire design of steel structures. Codes alone do not provide enough information for structural design, especially as they become more sophisticated and comprehensive. This book provides background material and serves as a design guide for the user. It should help the reader not familiar with the topic to make calculations of the fire resistance of steel structures according to the Eurocodes or other code provisions. The theoretical, technical or historical background is provided when this helps the user to understand more clearly the calculation methodologies, while examples on simple elements and guidance showing how a complete structure can be analyzed are included. Designing Steel Structures for Fire Safety is a major new contribution to the wider understanding of structural behavior in fires, and will be invaluable to professionals in civil engineering and architecture, students or teachers in these disciplines, and building officials and regulators in all regions of the world.

This thesis details the novel preparation methods and the improved properties of two-dimentional (2D) black phosphorene (BP) and the polymer nanocomposites. Various surface treatment methods are used, and through these designs, better mechanical, thermal and flame retardant properties are achieved for these functionalized materials, thus reducing the fire risk of the polymer composite system.

Wildfire Risk follows from an increasing awareness among fire experts that relying on fire behavior models from the physical sciences to design a risk management program is no longer sufficient -- and that simply increasing public knowledge related to wildfire hazard does not necessarily lead to appropriate risk reduction behaviors. Public land managers, property developers, landowners, and politicians must ask more about the social and psychological factors that motivate people to respond appropriately to risk.

Thus far, the majority of research and applied work about human responses to wildfire mitigation has been directed toward individuals rather than communities. Drawing heavily upon health and risk communication, the contributors highlight the ways that communities and individuals respond to wildfire risk. They discuss how outreach and education can influence community and individual behavior, and they explore differences among ethnic/racial groups and between genders with regard to values, views, and attitudes about wildfire risk and management. They explore the role of public participation in each stage of wildfire risk assessment and mitigation, as well as in planning for evacuation and recovery after fire.

Wildfire Risk concludes with a dedicated section on risk-modeling, with perspectives from the decision sciences, geography, operations research, psychology, experimental economics, and other social sciences.

The book provides practical recommendations for creation of fire retardant materials with an increased service life. The enhanced fire resistance seen in these materials is based on the regularities of the chemical and physicochemical interaction of the components of intumescent composition in the process of thermolytic synthesis of heat-insulating char-foamed layers. The aim of fire protection of various objects with intumescent materials is to create a heat-insulating charred layer on the surface of structural elements; this layer can withstand high temperatures and mechanical damage which are typical during fires. The authors describe the contribution of basic components (melamine, pentaerythritol, ammonium polyphosphate), additional components (chlorinated paraffin, urea, cellulose, carbon nano additives, etc.) and polymer binders of intumescent compositions on the process of charring. The technological aspects of manufacturing, application and operation of fire retardant intumescent compositions, which can be useful for organizations that produce and use fire retardant materials, are also described.

This book, for the first time, introduces comprehensively all main topics of lifeline earthquake engineering, including the structure analysis, network evaluation, and network design. The distinctive features involved in this book are the construction of theories and methods for stochastic analysis of structures based the physical idea, probability analytical algorithms for network evaluation by employing Boolean Algebra, functional evaluation of water distribution networks using hydraulic analysis, and network design methods by employing genetic, simulated annealing, and hybrid algorithms.

This book gathers the peer-reviewed proceedings of the 14th International Symposium, PRADS 2019, held in Yokohama, Japan, in September 2019. It brings together naval architects, engineers, academic researchers and professionals who are involved in ships and other floating structures to share the latest research advances in the field. The contents cover a broad range of topics, including design synthesis for ships and floating systems, production, hydrodynamics, and structures and materials. Reflecting the latest advances, the book will be of interest to researchers and practitioners alike.

This book comprises select proceedings of the National Conference on Advances in Structural Technology (CoAST 2019). It brings together different applied and technological aspects of structural engineering. The main topics covered in this book include solid mechanics, composite structures, fluid-structure interaction, soil-structure interaction, structural safety, and structural health monitoring. The book also focuses on emerging structural materials and the different behavior of civil, mechanical, and aerospace structural systems. Given its contents, this book will be a useful reference for researchers and practitioners working in structural safety and engineering.

This book highlights cutting-edge applications of machine learning techniques for disaster management by monitoring, analyzing, and forecasting hydro-meteorological variables. Predictive modelling is a consolidated discipline used to forewarn the possibility of natural hazards. In this book, experts from numerical weather forecast, meteorology, hydrology, engineering, agriculture, economics, and disaster policy-making contribute towards an interdisciplinary framework to construct potent models for hazard risk mitigation. The book will help advance the state of knowledge of artificial intelligence in decision systems to aid disaster management and policy-making. This book can be a useful reference for graduate student, academics, practicing scientists and professionals of disaster management, artificial intelligence, and environmental sciences.

This proceedings volume includes articles presented during the Advanced Research Workshop on Soft Target Protection. The book presents important topics related to the protection of vulnerable objects and spaces, called Soft Targets. The chapters published in this book are thematically assigned to the blocks as follows: Theoretical aspect of soft target protection; Blast resistance of soft targets; Counter terrorism; Technical and technological solutions for soft target protection; Scheme and organizational measures; Blast protection and Forces for soft target protection. In this book, the reader will find a wealth of information about the theoretical background for designing protection of soft targets, as well as the specifics of protecting objects in armed conflict areas. New methods and procedures applicable to the soft target protection are described.

FROM THE INTRODUCTION
"Considerable effort has gone into the study of various aspects of flammability and of various plastic materials, so that these materials which are proving so useful to man will always be used in ways which will not compromise his safety. The task is a continuing one, because the family of plastics continues to grow, and, along with it, its variety of applications. Some of these future applications cannot even be conceived of at the present time. The needs of man and his society are changing, and with them the factors that affect his safety, comfort, and convenience.
A flammability handbook for plastics must necessarily involve a variety of sciences and technologies spread across the whole spectrum of human knowledge, and it is impossible to discuss all the subjects in great depth. Any details extracted for attention are brought because they are believed to be significant to the overall effort to make plastics as useful and safe as humanly possible."

This book evaluates the seismic performance of concrete gravity dams, considering the effects of strong motion duration, mainshock-aftershock seismic sequence, and near-fault ground motion. It employs both the extended finite element method (XFEM) and concrete damaged plasticity (CDP) models to characterize the mechanical behavior of concrete gravity dams under strong ground motions, including the dam-reservoir-foundation interaction. In addition, it discusses the effects of the initial crack, earthquake direction, and cross-stream seismic excitation on the nonlinear dynamic response to strong ground motions, and on the damage-cracking risk of concrete gravity dams. This book provides a theoretical basis for the seismic performance evaluation of high dams, and can also be used as a reference resource for researchers and graduate students engaged in the seismic design of high dams.

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.

This book offers a timely report on methods for risk assessment procedures for dams, with a special emphasis on dams with small storage dimensions. It starts by introducing all important definitions relating to dams, dam safety, such as the most common failure modes, and risks. In turn, it describes in detail the most important evaluation procedures for various failure modes such as piping, flood, earthquake and stability are described in this chapter. Consequence assessment procedures, together with the different steps of the risk evaluation process, are analyzed, providing a guide on how to identify the appropriate failure mode for the examined dam and setting up the appropriate safety plan. The book introduces the most common methods for predicting peak breach discharge, analyzing some relevant case studies. Upon comparing the findings obtained with the different methods, the book concludes with some general suggestions and ideas for future developments. This book fills an important gap between theoretical works and real-life problems being investigating in practical research studies on dam safety and risk management. It provides readers with the necessary knowledge on risk analysis and shows how to apply this in practice to carry out dam safety studies. It offers practical guidelines to set up risk assessment procedures for different failure modes and predicting failure parameters such as failure time, peak breach discharge and breach width.