Fundamentally, fire prevention and control refer to systems and practices that increase a facility's ability to avoid fires, limit the development and spread of fires, and rapidly and effectively control fires. Changing safety codes and regulations along with recent technological advances have rendered the first edition of this popular handbook som
The first handbook devoted to the coverage of materials in the field of fire engineering. Fire Protection Building Materials Handbook walks you through the challenging maze of choosing form the hundreds of commercially available materials used in buildings today and tells you which burn and /or are weakened during exposure to fire. It is the burning characteristics of materials, which usually allow fires to begin and propagate, and the degradation of materials that cause the most damage. Providing expert guidance every step of the way, Fire Protection Building Materials Handbook helps the architect, designers and fire protection engineers to design and maintain safer buildings while complying with international codes.
Fundamentals of Fire Protection for the Safety Professional provides safety managers with a guide for incorporating fire hazard awareness and protection into their safety management plans. Industrial fires pose one of the greatest threats to organizations in terms of financial, human, and property losses. Understanding fire safety basics, the physics of fire, and the properties and classes of common hazards is key to designing fire safety management programs that not only protect an organization’s assets but also ensure the safe evacuation of all involved. Fundamentals of Fire Protection for the Safety Professional takes an in-depth look at fire hazards in the workplace—from the substances required to do business to the building construction itself—and provides practical fire safety principles that can be applied in any work environment. Readers will learn how to develop emergency action plans and fire prevention plans, implement effective alarm and detection systems and fire extinguishment systems, and develop a comprehensive fire program management plan that is in compliance with Federal Emergency Management Agency, Occupational Safety and Health Administration, Environmental Protection Agency, and National Fire Protection Association standards. Each chapter includes a chapter summary and sample problems, making this an ideal training tool in the workplace or the classroom. Answers to chapter questions and a comprehensive glossary and index are provided at the end of the book.
From the publisher's website: "The Handbook is a massive resource, consisting of 1116 pages, tightly set in a 2-column, 8.5" x 11" (215 x 280 mm) format. The book includes 627 black-and-white figures, 447 tables, and 140 color plates. The Handbook is divided into two main sections: Chapters 1 through 13 include presentations of the fundamental principles of ignition sources and of the response of ignitable materials to heat or energy in various forms. Chapters 14 and 15 constitute an "encyclopedia of ignition," containing extensive information on individual materials, devices, and products. Chapter 14 comprises alphabetically-arranged narrative descriptions of ignition properties and hazards for substances ranging from "Accelerants in incendiary fires" to "Zirconium." Chapter 15 contains database tables giving information on 473 pure chemical compounds and over 500 commercial or natural products, including such substances as dusts, fuels, lubricants, plastics, and woods."
Written by an engineer for engineers, this book is both training manual and on-going reference, bringing together all the different facets of the complex processes that must be in place to minimize the risk to people, plant and the environment from fires, explosions, vapour releases and oil spills. Fully compliant with international regulatory requirements, relatively compact but comprehensive in its coverage, engineers, safety professionals and concerned company management will buy this book to capitalize on the author's life-long expertise. This is the only book focusing specifically on oil and gas and related chemical facilities. This new edition includes updates on management practices, lessons learned from recent incidents, and new material on chemical processes, hazards and risk reviews (e.g. CHAZOP). Latest technology on fireproofing, fire and gas detection systems and applications is also covered. An introductory chapter on the philosophy of protection principles along with fundamental background material on the properties of the chemicals concerned and their behaviours under industrial conditions, combined with a detailed section on modern risk analysis techniques makes this book essential reading for students and professionals following Industrial Safety, Chemical Process Safety and Fire Protection Engineering courses. - A practical, results-oriented manual for practicing engineers, bringing protection principles and chemistry together with modern risk analysis techniques - Specific focus on oil and gas and related chemical facilities, making it comprehensive and compact - Includes the latest best practice guidance, as well as lessons learned from recent incidents
A must-have guide for current and future safety professionals, the third edition of this practical handbook presents the key elements of an effective fire safety management program; explains the types and functions of fire control equipment; discusses the identification and control of hazardous materials; identifies safety organizations and available resources for fire service programs; describes commonly installed fire detection systems and their maintenance and inspection; and includes learning objectives, case studies, updated codes and standards, and information about emergency response and school fire safety planning.
In addition to architects, engineers, and design professionals, fire fighters also need to understand fire protection systems in order to manage the fire scene and minimize risks to life and property. Fire Protection Systems, Second Edition provides a comprehensive overview of the various types of fire protection systems, their operational abilities and characteristics, and their applications within various types of structures. The new Second Edition meets the latest course objectives from the Fire and Emergency Services Higher Education’s (FESHE) Fire Protection Systems model curriculum and covers: • Water supply basics, including sources, distribution networks, piping, and hydrants. • Active fire protection systems and components, their operational characteristics, and installation, inspection, testing, and maintenance requirements. • Passive fire protection systems such as firewalls, fire separation assemblies, and fire dampers • Smoke control and management systems, gas-based suppression, access and egress control systems, and the code requirements for installation of these systems. Ensure that you are completely up-to-date on the latest fire protection systems and their operational characteristics and abilities with Fire Protection Systems, Second Edition.
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.
