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A building fire is dynamic. A continually changing hostile fire environment influences time relationships that affect fire defenses and risks to people and building functions. The fire and fire defenses in each building interact with different sequences and distinct ways. Risks are characterized by the building’s performance. Significantly updated and restructured new edition Fire Performance Analysis for Buildings, 2nd Edition organizes the complex interactions into an analytical framework to evaluate any building - at any location - built under any regulatory jurisdiction or era. Systematic, logical procedures evaluate individual component behavior and integrate results to understand holistic performance. The Interactive Performance Information (IPI) chart structures complex time-related interactions among the fire, fire defenses, and associated risks. Quantification uses state-of-the-art deterministic methods of fire safety engineering and fire science. Managing uncertainty is specifically addressed. Key features: Emphasizes fire performance analysis for new or existing buildings. Augments fire dynamics calculation methods with qualitative methods to form a more complete understanding of the effects of hostile fire characteristics on building performance. Describes fire ground operations for engineers with no fire service experience. An analysis evaluates ways the site and building design help or hinder manual fire suppression. Establishes a transition from traditional structural requirements to modern calculation based structural analysis and design for fire conditions. Structural concepts are described for non-structural engineers to enable the roles of each profession to be integrated into comprehensive performance evaluations. Addresses techniques of managing uncertainty to improve understanding and communication with professionals of other disciplines. Describes methods of risk management using information from the building’s performance analysis. Fire Performance Analysis for Buildings, 2nd Edition has been completely restructured around a performance based framework. Applications integrate traditional fire defenses with fire science and engineering to combine component performance with holistic performance.
Explores and brings together the existent body of knowledge on building performance analysis Shortlisted in the CIBSE 2020 Building Performance Awards Building performance is an important yet surprisingly complex concept. This book presents a comprehensive and systematic overview of the subject. It provides a working definition of building performance, and an in-depth discussion of the role building performance plays throughout the building life cycle. The book also explores the perspectives of various stakeholders, the functions of buildings, performance requirements, performance quantification (both predicted and measured), criteria for success, and the challenges of using performance analysis in practice. Building Performance Analysis starts by introducing the subject of building performance: its key terms, definitions, history, and challenges. It then develops a theoretical foundation for the subject, explores the complexity of performance assessment, and the way that performance analysis impacts on actual buildings. In doing so, it attempts to answer the following questions: What is building performance? How can building performance be measured and analyzed? How does the analysis of building performance guide the improvement of buildings? And what can the building domain learn from the way performance is handled in other disciplines? Assembles the current body of knowledge on building performance analysis in one unique resource Offers deep insights into the complexity of using building performance analysis throughout the entire building life cycle, including design, operation and management Contributes an emergent theory of building performance and its analysis Building Performance Analysis will appeal to the building science community, both from industry and academia. It specifically targets advanced students in architectural engineering, building services design, building performance simulation and similar fields who hold an interest in ensuring that buildings meet the needs of their stakeholders.
Around the world, prescriptive building codes and fire safety standards are increasingly being replaced or supplemented by performance-based standards. This book discusses the implications in the industry to provide increased design flexibility, lower costs, improved safety, and even enhanced global trade. The building fire performance evaluation procedures described in this book can be used with any code, standard, or regulatory requirements. The key feature of this publication is its aid to professionals who work in the building and other such industries to make better decisions concerning fire performance and to communicate more effectively with professionals in other disciplines working in this area.
A building fire is dynamic. A continually changing hostile fire environment influences time relationships that affect fire defenses and risks to people and building functions. The fire and fire defenses in each building interact with different sequences and distinct ways. Risks are characterized by the building’s performance. Significantly updated and restructured new edition Fire Performance Analysis for Buildings, 2nd Edition organizes the complex interactions into an analytical framework to evaluate any building - at any location - built under any regulatory jurisdiction or era. Systematic, logical procedures evaluate individual component behavior and integrate results to understand holistic performance. The Interactive Performance Information (IPI) chart structures complex time-related interactions among the fire, fire defenses, and associated risks. Quantification uses state-of-the-art deterministic methods of fire safety engineering and fire science. Managing uncertainty is specifically addressed. Key features: Emphasizes fire performance analysis for new or existing buildings. Augments fire dynamics calculation methods with qualitative methods to form a more complete understanding of the effects of hostile fire characteristics on building performance. Describes fire ground operations for engineers with no fire service experience. An analysis evaluates ways the site and building design help or hinder manual fire suppression. Establishes a transition from traditional structural requirements to modern calculation based structural analysis and design for fire conditions. Structural concepts are described for non-structural engineers to enable the roles of each profession to be integrated into comprehensive performance evaluations. Addresses techniques of managing uncertainty to improve understanding and communication with professionals of other disciplines. Describes methods of risk management using information from the building’s performance analysis. Fire Performance Analysis for Buildings, 2nd Edition has been completely restructured around a performance based framework. Applications integrate traditional fire defenses with fire science and engineering to combine component performance with holistic performance.
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.
Fire safety is a major concern in many industries, particularly as there have been significant increases in recent years in the quantities of hazardous materials in process, storage or transport. Plants are becoming larger and are often situated in or close to densely populated areas, and the hazards are continually highlighted with incidents such as the fires and explosions at the Piper Alpha oil and gas platform, and the Enschede firework factory. As a result, greater attention than ever before is now being given to the evaluation and control of these hazards. In a comprehensive treatment of the subject unavailable elsewhere, this book describes in detail the applications of hazard and risk analysis to fire safety, going on to develop and apply quantification methods. It also gives an explanation in quantitative terms of improvements in fire safety in association with the costs that are expended in their achievement. Furthermore, a quantitative approach is applied to major fire and explosion disasters to demonstrate crucial faults and events. Featuring: Full international coverage and a review of several major fires and explosion disasters. Presentation of the properties and science of fire including the latest research. Detailed coverage of the performance of fire safety measures. This is an essential book for practitioners in fire safety engineering, loss prevention professionals, technical personnel in insurance companies as well as academics involved in fire science and postgraduate students. This book is also a useful reference for fire safety officers, building designers, engineers in the process industries, safety practitioners and risk assessment consultants.
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 book introduces the subject of probabilistic analysis to engineers and can be used as a reference in applying this technology.
This book applies a behavioral point of view to individuals’ fire safety in historic buildings. It outlines theoretical and operative issues, based on recent studies and international guidelines. Firstly, critical issues for Building Heritage fire safety are widely discussed, by including the modelling of human factor and man-environment-fire interference in these architectural spaces. A significant part of the book includes a discussion on emergency modeling and simulation. A source code for representing the fire evacuation process (including man-evacuation facilities interactions) is offered to the reader. Methods for effectiveness assessment of risk-reducing solutions are provided and tested in a case-study. Being a structured approach to occupants-related problems during a fire in heritage buildings, it offers an innovative methodology and practical examples that researchers and designers can use as a guide when proposing and testing solutions. Evaluation indexes for effectiveness assessment (also useful for future guidelines or handbooks) are included. Readers are encouraged to understand these indexes within the proposed approach, so as to extend their applications and possibilities of how to introduce human behaviors-based solutions in other fields. Lastly, attention is focused on the proposal and evaluation of low-impact and not-invasive strategies, such as ones based on wayfinding elements. From this point of view, the pros and cons of wayfinding systems are discussed: these are important today, especially for fire-safety designers, because of the ongoing innovations in this field.