Table of Contents

Introduction. Hazard and Risk. Design Fire Scenarios. Design Fires. Fire Dynamics and Hazard Calculations. Human Behavior. Detection and Suppression System Design. Smoke Control Design. Structural Fire Resistance. Fire Testing. Performance-Based Design Documentation and Management. Uncertainty.

About the Author

Morgan Hurley is project director at Aon Fire Protection Engineering in Maryland and former technical director of SFPE. He serves as adjunct faculty at the University of Maryland and California Polytechnic State University. Morgan chaired the NFPA Life Safety Code Technical Committee on Fundamentals, which developed the performance-based design option in NFPA 101 and NFPA 5000. Morgan is a recipient of the Committee Service Award for distinguished service in the development of NFPA codes and standards from NFPA. He is also a licensed professional engineer.

Eric Rosenbaum

Reviews

"This book could serve as a useful companion to the SFPE Engineering Guide on Performance-Based Fire Protection, especially for those practitioners who are new to the field and seeking to understand performance concepts in more depth than is provided in the SFPE Guide."
—Brian Meacham, Worcester Polytechnic Institute, USA"The approach in this book is fantastic. Providing practical applications on how performance-based design is used in both prescriptive-based regulations and performance-based regulations is a strong motivational factor for any fire safety engineer. Additionally, the book provides a unique and much needed approach to show how performance-based is linked to the design of fire protection systems. …this book fills a much needed void by providing practical guidance for the practicing fire safety engineer."
—Chris Jelenewicz, P.E., SFPE Senior Manager for Engineering Practice, Society of Fire Protection Engineers, USA"Certainly as a US-specific guide, it is a very useful for students, AHJ’s, fire department personnel, and fire protection engineers, as it provides an introduction to nearly every aspect of fire protection: from hazards and risk, to types of fire protection systems and human behavioral response."
—David Barber, Fire Technology"A quick read weighing in at less than 200 pages, the book provides a variety of references for further reading while being a self-contained resource unto itself. An index furthers the book's efficacy. For newcomers, Performance-Based Fire Safety Design can become an eventually dog-eared tome to build a library around; for veterans, a majority of the research and equations outlined should be familiar but one can never be reminded enough of the building blocks of fire protection upon which our industry is based. And the book accomplishes this in the context of lessons on PBD."
—Fire Protection Engineering