Introducing the implementation and integration of fire protection engineering, this concise reference encompasses not only the basic information on the functions, design and implementation of systems, but also reveals how this area can be integrated withother engineering disciplines.
This Guide provides information on special topics that affect the fire safety performance of very tall buildings, their occupants and first responders during a fire. This Guide addresses these topics as part of the overall building design process using performance-based fire protection engineering concepts as described in the SFPE Engineering Guide to Performance Based Fire Protection. This Guide is not intended to be a recommended practice or a document that is suitable for adoption as a code. The Guide pertains to “super tall,” “very tall” and “tall” buildings. Throughout this Guide, all such buildings are called “very tall buildings.” These buildings are characterized by heights that impose fire protection challenges; they require special attention beyond the protection features typically provided by traditional fire protection methods. This Guide does not establish a definition of buildings that fall within the scope of this document.
This publication provides introductory technical guidance for mechanical engineers and other professional engineers, building managers and construction managers interested in fire protection engineering for buildings. Here is what is discussed:1. INTRODUCTION 2. FUNDAMENTAL ELEMENTS OF FIRE PROTECTION ENGINEERING 3. BUILDING MATERIALS AND DESIGN 4. WATER SUPPLY FOR FIRE PROTECTION 5. FIRE EXTINGUISHING SYSTEMS 6. FIRE ALARM SYSTEMS 7. SPECIAL OCCUPANCIES AND HAZARDS 8. OCCUPANCY HAZARD CLASSIFICATION SYSTEM 9. CODES AND OTHER PROFESSIONAL RESOURCES
Introductory technical guidance for professional engineers and construction managers interested in fire protection engineering for buildings and other infrastructure. Here is what is discussed: 1. FIRE PROTECTION ENGINEERING 2. INSPECTION, TESTING AND MAINTENANCE 3. FIRE PROTECTION FOR MEDICAL FACILITIES 4. FIRE STATIONS 5. FIRE EXTINGUISHING AND ALARM SYSTEMS.
Introductory technical guidance for construction managers interested in construction of fire protection systems for buildings and other infrastructure. Here is what is discussed: 1. INTRODUCTION, 2. FUNDAMENTAL ELEMENTS OF FIRE PROTECTION ENGINEERING, 3. BUILDING MATERIALS AND DESIGN, 4. WATER SUPPLY FOR FIRE PROTECTION, 5. FIRE EXTINGUISHING SYSTEMS, 6. FIRE ALARM SYSTEMS, 7. SPECIAL OCCUPANCIES AND HAZARDS, 8. OCCUPANCY HAZARD CLASSIFICATION SYSTEM, 9. CODES AND OTHER PROFESSIONAL RESOURCES.
Designing structures to withstand the effects of fire is challenging, and requires a series of complex design decisions. This third edition of Fire Safety Engineering Design of Structures provides practising fire safety engineers with the tools to design structures to withstand fires. This text details standard industry design decisions, and offers expert design advice, with relevant historical data. It includes extensive data on materials’ behaviour and modeling -- concrete, steel, composite steel-concrete, timber, masonry, and aluminium. While weighted to the fire sections of the Eurocodes, this book also includes historical data to allow older structures to be assessed. It extensively covers fire damage investigation, and includes as far back as possible, the background to code methods to enable the engineer to better understand why certain procedures are adopted. What’s new in the Third Edition? An overview in the first chapter explains the types of design decisions required for optimum fire performance of a structure, and demonstrates the effect of temperature rise on structural performance of structural elements. It extends the sections on less common engineering materials. The section on computer modelling now includes material on coupled heat and mass transfer, enabling a better understanding of the phenomenon of spalling in concrete. It includes a series of worked examples, and provides an extensive reference section. Readers require a working knowledge of structural mechanics and methods of structural design at ambient conditions, and are helped by some understanding of thermodynamics of heat transfer. This book serves as a resource for engineers working in the field of fire safety, consultants who regularly carry out full fire safety design for structure, and researchers seeking background information. Dr John Purkiss is a chartered civil and structural engineer/consultant and former lecturer in structural engineering at Aston University, UK. Dr Long-Yuan Li is Professor of Structural Engineering at Plymouth University, UK, and a Fellow of the Institution of Structural Engineers.
This is an introductory course in fire protection engineering for all of the members of the building design team. The architectural, civil, structural, mechanical and electrical features of buildings and their related infrastructure are all affected by the principles of fire protection engineering. Engineers need to know how fire safety requirements affect the design work they do in their individual technical disciplines. This course will tell you about the principle requirements of fire safety in building design, show you some illustrative examples, and direct you to specific codes and other technical resources you will need to efficiently and effectively incorporate fire protection considerations in your building designs. This is a course that will broaden your skills, add value to your career, and allow you to design safe and cost-effective buildings and related infrastructure for your company, agency, clients and the public.
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.