Author:
Publisher: FEMA
ISBN:
Category : School buildings
Languages : en
Pages : 305
Book Description
Primer; to Design Safe School Projects in Case of Terrorist Attacks
Primer to Design Safe School Projects in Case of Terrorist Attacks
Author: Michael Chipley
Publisher:
ISBN: 9780756741440
Category :
Languages : en
Pages : 280
Book Description
Provides guidance to protect students, faculty, staff, & their school buildings form terrorist attacks. It also provides guidance to the building science community of architects & engineers working for local institutions on school projects. This document is intended for use by schools who feel that they are at risk from terrorist attacks. It provides necessary guidance to those who desire to increase the performance of their school & related infrastructure. The use of experts to apply the methodologies contained in this document is encouraged. This primer references several sources for additional information, including publications completed by other government agencies, which should be consulted to obtain additional guidance. Color llus.
Publisher:
ISBN: 9780756741440
Category :
Languages : en
Pages : 280
Book Description
Provides guidance to protect students, faculty, staff, & their school buildings form terrorist attacks. It also provides guidance to the building science community of architects & engineers working for local institutions on school projects. This document is intended for use by schools who feel that they are at risk from terrorist attacks. It provides necessary guidance to those who desire to increase the performance of their school & related infrastructure. The use of experts to apply the methodologies contained in this document is encouraged. This primer references several sources for additional information, including publications completed by other government agencies, which should be consulted to obtain additional guidance. Color llus.
Primer for Design of Commercial Buildings to Mitigate Terrorist Attacks
Author:
Publisher: Federal Emergency Management Agency
ISBN:
Category : Architecture
Languages : en
Pages : 112
Book Description
Manual contains extensive qualitative design guidance for limiting or mitigating the effects of terrorist attacks, focusing primarily on explosions, but also addressing chemical, biological, and radiological attacks.
Publisher: Federal Emergency Management Agency
ISBN:
Category : Architecture
Languages : en
Pages : 112
Book Description
Manual contains extensive qualitative design guidance for limiting or mitigating the effects of terrorist attacks, focusing primarily on explosions, but also addressing chemical, biological, and radiological attacks.
Jihadists and Weapons of Mass Destruction
Author: Gary Ackerman
Publisher: CRC Press
ISBN: 1420069675
Category : Computers
Languages : en
Pages : 526
Book Description
Explores the Nexus Formed When Malevolent Actors Access Malignant MeansWritten for professionals, academics, and policymakers working at the forefront of counterterrorism efforts, Jihadists and Weapons of Mass Destruction is an authoritative and comprehensive work addressing the threat of weapons of mass destruction (WMD) in the hands of jihadists,
Publisher: CRC Press
ISBN: 1420069675
Category : Computers
Languages : en
Pages : 526
Book Description
Explores the Nexus Formed When Malevolent Actors Access Malignant MeansWritten for professionals, academics, and policymakers working at the forefront of counterterrorism efforts, Jihadists and Weapons of Mass Destruction is an authoritative and comprehensive work addressing the threat of weapons of mass destruction (WMD) in the hands of jihadists,
Risk Management Series: Site and Urban Design for Security - Guidance Against Potential Terrorist Attacks
Author: Federal Emergency Agency
Publisher: FEMA
ISBN:
Category :
Languages : en
Pages : 273
Book Description
The Federal Emergency Management Agency (FEMA) has developed this publication, Site and Urban Design for Security: Guidance against Potential Terrorist Attacks, to provide information and design concepts for the protection of buildings and occupants, from site perimeters to the faces of buildings. The intended audience includes the design community of architects, landscape architects, engineers and other consultants working for private institutions, building owners and managers and state and local government officials concerned with site planning and design. Immediately after September 11, 2001, extensive site security measures were put in place, particularly in the two target cities of New York and Washington. However, many of these security measures were applied on an ad hoc basis, with little regard for their impacts on development pat-terns and community character. Property owners, government entities and others erected security barriers to limit street access and installed a wide variety of security devices on sidewalks, buildings, and transportation facilities. The short-term impacts of these measures were certainly justified in the immediate aftermath of the events of September 11, 2001, but traffic patterns, pedestrian mobility, and the vitality of downtown street life were increasingly jeopardized. Hence, while the main objective of this manual is to reduce physical damage to buildings and related infrastructure through site design, the purpose of FEMA 430 is also to ensure that security design provides careful attention to urban design values by maintaining or even enhancing the site amenities and aesthetic quality in urban and semi-urban areas. This publication focuses on site design aimed to protect buildings from attackers using vehicles carrying explosives. These represent the most serious form of attack. Large trucks enable terrorists to carry very large amounts of explosives that are capable of causing casualties and destruction over a range of many hundreds of yards. Perimeter barriers and protective design within the site can greatly reduce the possibility of vehicle penetration. Introduction of smaller explosive devices, carried in suitcases or backpacks, must be prevented by pedestrian screening methods. Site design for security, however, may impact the function and amenity of the site, and barrier and access control design may impact the quality of the public space within the adjacent neighborhood and community. The designer's role is to ensure that public amenity and the aesthetics of the site surroundings are kept in balance with security needs. This publication contains a number of examples in which the security/ amenity balance has been maintained through careful design and collaboration between designers and security experts. Much security design work since September 11, 2001, has been applied to federal and state projects, and these provide many of the design examples shown. At present, federal government projects are subject to mandatory security guidelines that do not apply to private sector projects, but these guidelines provide a valuable information resource in the absence of comparable guidelines or regulations applying to private development. Operations and management issues and the detailed design of access control, intrusion alarm systems, electronic perimeter protection, and physical security devices, such as locking devices, are the province of the security consultant and are not covered here, except as they may impact the conceptual design of the site. Limited information only is provided on some aspects of chemical, biological and radiological (CBR) attacks that are significant for site designers; extensive discussion of approaches to these threats can be found in FEMA 426.
Publisher: FEMA
ISBN:
Category :
Languages : en
Pages : 273
Book Description
The Federal Emergency Management Agency (FEMA) has developed this publication, Site and Urban Design for Security: Guidance against Potential Terrorist Attacks, to provide information and design concepts for the protection of buildings and occupants, from site perimeters to the faces of buildings. The intended audience includes the design community of architects, landscape architects, engineers and other consultants working for private institutions, building owners and managers and state and local government officials concerned with site planning and design. Immediately after September 11, 2001, extensive site security measures were put in place, particularly in the two target cities of New York and Washington. However, many of these security measures were applied on an ad hoc basis, with little regard for their impacts on development pat-terns and community character. Property owners, government entities and others erected security barriers to limit street access and installed a wide variety of security devices on sidewalks, buildings, and transportation facilities. The short-term impacts of these measures were certainly justified in the immediate aftermath of the events of September 11, 2001, but traffic patterns, pedestrian mobility, and the vitality of downtown street life were increasingly jeopardized. Hence, while the main objective of this manual is to reduce physical damage to buildings and related infrastructure through site design, the purpose of FEMA 430 is also to ensure that security design provides careful attention to urban design values by maintaining or even enhancing the site amenities and aesthetic quality in urban and semi-urban areas. This publication focuses on site design aimed to protect buildings from attackers using vehicles carrying explosives. These represent the most serious form of attack. Large trucks enable terrorists to carry very large amounts of explosives that are capable of causing casualties and destruction over a range of many hundreds of yards. Perimeter barriers and protective design within the site can greatly reduce the possibility of vehicle penetration. Introduction of smaller explosive devices, carried in suitcases or backpacks, must be prevented by pedestrian screening methods. Site design for security, however, may impact the function and amenity of the site, and barrier and access control design may impact the quality of the public space within the adjacent neighborhood and community. The designer's role is to ensure that public amenity and the aesthetics of the site surroundings are kept in balance with security needs. This publication contains a number of examples in which the security/ amenity balance has been maintained through careful design and collaboration between designers and security experts. Much security design work since September 11, 2001, has been applied to federal and state projects, and these provide many of the design examples shown. At present, federal government projects are subject to mandatory security guidelines that do not apply to private sector projects, but these guidelines provide a valuable information resource in the absence of comparable guidelines or regulations applying to private development. Operations and management issues and the detailed design of access control, intrusion alarm systems, electronic perimeter protection, and physical security devices, such as locking devices, are the province of the security consultant and are not covered here, except as they may impact the conceptual design of the site. Limited information only is provided on some aspects of chemical, biological and radiological (CBR) attacks that are significant for site designers; extensive discussion of approaches to these threats can be found in FEMA 426.
Private Security
Author: Charles P. Nemeth
Publisher: CRC Press
ISBN: 1000711943
Category : Social Science
Languages : en
Pages : 959
Book Description
Private Security: An Introduction to Principles and Practice, Second Edition explains foundational security principles—defining terms and outlining the increasing scope of security in daily life—while reflecting current practices of private security as an industry and profession. The book looks at the development and history of the industry, outlines fundamental security principles, and the growing dynamic and overlap that exists between the private sector security and public safety and law enforcement—especially since the events of 9/11. Chapters focus on current practice, reflecting the technology-driven, fast-paced, global security environment. Such topics covered include security law and legal issues, risk management, physical security, human resources and personnel considerations, investigations, institutional and industry-specific security, crisis and emergency planning, computer, and information security. A running theme of this edition is highlighting—where appropriate—how security awareness, features, and applications have permeated all aspects of our modern lives. Key Features: Provides current best practices detailing the skills that professionals, in the diverse and expanding range of career options, need to succeed in the field Outlines the unique role of private sector security companies as compared to federal and state law enforcement responsibilities Includes key terms, learning objectives, end of chapter questions, Web exercises, and numerous references—throughout the book—to enhance student learning Critical infrastructure protection and terrorism concepts, increasingly of interest and relevant to the private sector, are referenced throughout the book. Threat assessment and information sharing partnerships between private security entities public sector authorities—at the state and federal levels—are highlighted. Private Security, Second Edition takes a fresh, practical approach to the private security industry’s role and impact in a dynamic, ever-changing threat landscape.
Publisher: CRC Press
ISBN: 1000711943
Category : Social Science
Languages : en
Pages : 959
Book Description
Private Security: An Introduction to Principles and Practice, Second Edition explains foundational security principles—defining terms and outlining the increasing scope of security in daily life—while reflecting current practices of private security as an industry and profession. The book looks at the development and history of the industry, outlines fundamental security principles, and the growing dynamic and overlap that exists between the private sector security and public safety and law enforcement—especially since the events of 9/11. Chapters focus on current practice, reflecting the technology-driven, fast-paced, global security environment. Such topics covered include security law and legal issues, risk management, physical security, human resources and personnel considerations, investigations, institutional and industry-specific security, crisis and emergency planning, computer, and information security. A running theme of this edition is highlighting—where appropriate—how security awareness, features, and applications have permeated all aspects of our modern lives. Key Features: Provides current best practices detailing the skills that professionals, in the diverse and expanding range of career options, need to succeed in the field Outlines the unique role of private sector security companies as compared to federal and state law enforcement responsibilities Includes key terms, learning objectives, end of chapter questions, Web exercises, and numerous references—throughout the book—to enhance student learning Critical infrastructure protection and terrorism concepts, increasingly of interest and relevant to the private sector, are referenced throughout the book. Threat assessment and information sharing partnerships between private security entities public sector authorities—at the state and federal levels—are highlighted. Private Security, Second Edition takes a fresh, practical approach to the private security industry’s role and impact in a dynamic, ever-changing threat landscape.
Risk Management Series: Safe Rooms and Shelters - Protecting People Agains Terrorist Attacks
Author: Federal Emergency Agency
Publisher: FEMA
ISBN:
Category : Social Science
Languages : en
Pages : 264
Book Description
This manual is intended to provide guidance for engineers, architects, building officials, and property owners to design shelters and safe rooms in buildings. It presents information about the design and construction of shelters in the work place, home, or community building that will provide protection in response to manmade hazards. The information contained herein will assist in the planning and design of shelters that may be constructed outside or within dwellings or public buildings. These safe rooms will protect occupants from a variety of hazards, including debris impact, accidental or intentional explosive detonation, and the accidental or intentional release of a toxic substance into the air. Safe rooms may also be designed to protect individuals from assaults and attempted kidnapping, which requires design features to resist forced entry and ballistic impact. This covers a range of protective options, from low-cost expedient protection (what is commonly referred to as sheltering-in-place) to safe rooms ventilated and pressurized with air purified by ultra-high-efficiency filters. These safe rooms protect against toxic gases, vapors, and aerosols. The contents of this manual supplement the information provided in FEMA 361, Design and Construction Guidance for Community Shelters and FEMA 320, Taking Shelter From the Storm: Building a Safe Room Inside Your House. In conjunction with FEMA 361 and FEMA 320, this publication can be used for the protection of shelters against natural disasters. This guidance focuses on safe rooms as standby systems, ones that do not provide protection on a continuous basis. To employ a standby system requires warning based on knowledge that a hazardous condition exists or is imminent. Protection is initiated as a result of warnings from civil authorities about a release of hazardous materials, visible or audible indications of a release (e.g., explosion or fire), the odor of a chemical agent, or observed symptoms of exposure in people. Although there are automatic detectors for chemical agents, such detectors are expensive and limited in the number of agents that can be reliably detected. Furthermore, at this point in time, these detectors take too long to identify the agent to be useful in making decisions in response to an attack. Similarly, an explosive vehicle or suicide bomber attack rarely provides advance warning; therefore, the shelter is most likely to be used after the fact to protect occupants until it is safe to evacuate the building. Two different types of shelters may be considered for emergency use, standalone shelters and internal shelters. A standalone shelter is a separate building (i.e., not within or attached to any other building) that is designed and constructed to withstand the range of natural and manmade hazards. An internal shelter is a specially designed and constructed room or area within or attached to a larger building that is structurally independent of the larger building and is able to withstand the range of natural and manmade hazards. Both standalone and internal shelters are intended to provide emergency refuge for occupants of commercial office buildings, school buildings, hospitals, apartment buildings, and private homes from the hazards resulting from a wide variety of extreme events. The shelters may be used during natural disasters following the warning that an explosive device may be activated, the discovery of an explosive device, or until safe evacuation is established following the detonation of an explosive device or the release of a toxic substance via an intentional aerosol attack or an industrial accident. Standalone community shelters may be constructed in neighborhoods where existing homes lack shelters. Community shelters may be intended for use by the occupants of buildings they are constructed within or near, or they may be intended for use by the residents of surrounding or nearby neighborhoods or designated areas.
Publisher: FEMA
ISBN:
Category : Social Science
Languages : en
Pages : 264
Book Description
This manual is intended to provide guidance for engineers, architects, building officials, and property owners to design shelters and safe rooms in buildings. It presents information about the design and construction of shelters in the work place, home, or community building that will provide protection in response to manmade hazards. The information contained herein will assist in the planning and design of shelters that may be constructed outside or within dwellings or public buildings. These safe rooms will protect occupants from a variety of hazards, including debris impact, accidental or intentional explosive detonation, and the accidental or intentional release of a toxic substance into the air. Safe rooms may also be designed to protect individuals from assaults and attempted kidnapping, which requires design features to resist forced entry and ballistic impact. This covers a range of protective options, from low-cost expedient protection (what is commonly referred to as sheltering-in-place) to safe rooms ventilated and pressurized with air purified by ultra-high-efficiency filters. These safe rooms protect against toxic gases, vapors, and aerosols. The contents of this manual supplement the information provided in FEMA 361, Design and Construction Guidance for Community Shelters and FEMA 320, Taking Shelter From the Storm: Building a Safe Room Inside Your House. In conjunction with FEMA 361 and FEMA 320, this publication can be used for the protection of shelters against natural disasters. This guidance focuses on safe rooms as standby systems, ones that do not provide protection on a continuous basis. To employ a standby system requires warning based on knowledge that a hazardous condition exists or is imminent. Protection is initiated as a result of warnings from civil authorities about a release of hazardous materials, visible or audible indications of a release (e.g., explosion or fire), the odor of a chemical agent, or observed symptoms of exposure in people. Although there are automatic detectors for chemical agents, such detectors are expensive and limited in the number of agents that can be reliably detected. Furthermore, at this point in time, these detectors take too long to identify the agent to be useful in making decisions in response to an attack. Similarly, an explosive vehicle or suicide bomber attack rarely provides advance warning; therefore, the shelter is most likely to be used after the fact to protect occupants until it is safe to evacuate the building. Two different types of shelters may be considered for emergency use, standalone shelters and internal shelters. A standalone shelter is a separate building (i.e., not within or attached to any other building) that is designed and constructed to withstand the range of natural and manmade hazards. An internal shelter is a specially designed and constructed room or area within or attached to a larger building that is structurally independent of the larger building and is able to withstand the range of natural and manmade hazards. Both standalone and internal shelters are intended to provide emergency refuge for occupants of commercial office buildings, school buildings, hospitals, apartment buildings, and private homes from the hazards resulting from a wide variety of extreme events. The shelters may be used during natural disasters following the warning that an explosive device may be activated, the discovery of an explosive device, or until safe evacuation is established following the detonation of an explosive device or the release of a toxic substance via an intentional aerosol attack or an industrial accident. Standalone community shelters may be constructed in neighborhoods where existing homes lack shelters. Community shelters may be intended for use by the occupants of buildings they are constructed within or near, or they may be intended for use by the residents of surrounding or nearby neighborhoods or designated areas.
Risk Management Series: Primer for Design of Commercial Buildings to Mitigate Terrorist Attacks
Author: Federal Emergency Agency
Publisher: FEMA
ISBN:
Category :
Languages : en
Pages : 108
Book Description
The purpose of this primer is to introduce concepts that can help building designers, owners, and state and local governments mitigate the threat of hazards resulting from terrorist attacks on new buildings. This primer specifically addresses four high-population, private-sector building types: commercial office, retail, multi-family residential, and light industrial. However, many of the concepts presented here are applicable to other building types and/or existing buildings. The focus is on explosive attack, but the text also addresses design strategies to mitigate the effects of chemical, biological, and radiological attacks. Designing security into a building requires a complex series of tradeoffs. Security concerns need to be balanced with many other design constraints such as accessibility, initial and life-cycle costs, natural hazard mitigation, fire protection, energy efficiency, and aesthetics. Because the probability of attack is very small, security measures should not interfere with daily operations of the building. On the other hand, because the effects of attack can be catastrophic, it is prudent to incorporate measures that may save lives and minimize business interruption in the unlikely event of an attack. The measures should be as unobtrusive as possible to provide an inviting, efficient environment that does not attract undue attention of potential attackers. Security design needs to be part of an overall multi-hazard approach to ensure that it does not worsen the behavior of the building in the event of a fire, earthquake, or hurricane, which are far more prevalent hazards than are terrorist attacks. Because of the severity of the types of hazards discussed, the goals of security-oriented design are by necessity modest. With regard to explosive attacks, the focus is on a damage-limiting or damage-mitigating approach rather than a blast-resistant approach. The goal is to incorporate some reasonable measures that will enhance the life safety of the persons within the building and facilitate rescue efforts in the unlikely event of attack. It is clear that owners are becoming interested in considering manmade hazards for a variety of reasons including the desire to: attract more tenants or a particular type of tenant, lower insurance premiums or obtain high-risk insurance, reduce life-cycle costs for operational security measures, and limit losses and business interruption. Protection against terrorist attack is not an all-or-nothing proposition. Incremental measures taken early in design may be more fully developed at a later date. With a little forethought regarding, for instance, the space requirements needed to accommodate additional measures, the protection level can be enhanced as the need arises or the budget permits after construction is complete. This primer strives to provide a holistic multi-disciplinary approach to security design by considering the various building systems including site, architecture, structure, mechanical and electrical systems and providing general recommendations for the design professional with little or no background in this area. This is one of a series of five FEMA primers that address security issues in high-population, private-sector buildings. It is the intent of FEMA that these reports will assist designers, owners, and local/state government officials in gaining a solid understanding of man-made hazards. These reports will also discuss current state-of-the-art methods to enhance protection of the building by incorporating low-cost measures into new buildings at the earliest stages of site selection and design.
Publisher: FEMA
ISBN:
Category :
Languages : en
Pages : 108
Book Description
The purpose of this primer is to introduce concepts that can help building designers, owners, and state and local governments mitigate the threat of hazards resulting from terrorist attacks on new buildings. This primer specifically addresses four high-population, private-sector building types: commercial office, retail, multi-family residential, and light industrial. However, many of the concepts presented here are applicable to other building types and/or existing buildings. The focus is on explosive attack, but the text also addresses design strategies to mitigate the effects of chemical, biological, and radiological attacks. Designing security into a building requires a complex series of tradeoffs. Security concerns need to be balanced with many other design constraints such as accessibility, initial and life-cycle costs, natural hazard mitigation, fire protection, energy efficiency, and aesthetics. Because the probability of attack is very small, security measures should not interfere with daily operations of the building. On the other hand, because the effects of attack can be catastrophic, it is prudent to incorporate measures that may save lives and minimize business interruption in the unlikely event of an attack. The measures should be as unobtrusive as possible to provide an inviting, efficient environment that does not attract undue attention of potential attackers. Security design needs to be part of an overall multi-hazard approach to ensure that it does not worsen the behavior of the building in the event of a fire, earthquake, or hurricane, which are far more prevalent hazards than are terrorist attacks. Because of the severity of the types of hazards discussed, the goals of security-oriented design are by necessity modest. With regard to explosive attacks, the focus is on a damage-limiting or damage-mitigating approach rather than a blast-resistant approach. The goal is to incorporate some reasonable measures that will enhance the life safety of the persons within the building and facilitate rescue efforts in the unlikely event of attack. It is clear that owners are becoming interested in considering manmade hazards for a variety of reasons including the desire to: attract more tenants or a particular type of tenant, lower insurance premiums or obtain high-risk insurance, reduce life-cycle costs for operational security measures, and limit losses and business interruption. Protection against terrorist attack is not an all-or-nothing proposition. Incremental measures taken early in design may be more fully developed at a later date. With a little forethought regarding, for instance, the space requirements needed to accommodate additional measures, the protection level can be enhanced as the need arises or the budget permits after construction is complete. This primer strives to provide a holistic multi-disciplinary approach to security design by considering the various building systems including site, architecture, structure, mechanical and electrical systems and providing general recommendations for the design professional with little or no background in this area. This is one of a series of five FEMA primers that address security issues in high-population, private-sector buildings. It is the intent of FEMA that these reports will assist designers, owners, and local/state government officials in gaining a solid understanding of man-made hazards. These reports will also discuss current state-of-the-art methods to enhance protection of the building by incorporating low-cost measures into new buildings at the earliest stages of site selection and design.
Handbook of Loss Prevention and Crime Prevention
Author: Lawrence J. Fennelly
Publisher: Elsevier
ISBN: 0123852463
Category : Architecture
Languages : en
Pages : 626
Book Description
This volume brings together the expertise of more than 40 security and crime prevention experts. It provides comprehensive coverage of the latest information on every topic from community-oriented policing to physical security, workplace violence, CCTV and information security.
Publisher: Elsevier
ISBN: 0123852463
Category : Architecture
Languages : en
Pages : 626
Book Description
This volume brings together the expertise of more than 40 security and crime prevention experts. It provides comprehensive coverage of the latest information on every topic from community-oriented policing to physical security, workplace violence, CCTV and information security.
Design Guide for Improving School Safety in Earthquakes, Floods, and High Winds
Author:
Publisher:
ISBN:
Category : Earthquake resistant design
Languages : en
Pages : 366
Book Description
This manual is intended to provide guidance for the protection of school buildings and their occupants from natural disasters, and the economic losses and social disruption caused by building damage and destruction. This volume concentrates on grade schools, K-12. This publication covers earthquakes, floods, and high winds. Its intended audience is design professionals and school officials involved in the technical and financial decisions of school construction, repair, and renovations. This publication stresses that identification of hazards and their frequency and careful consideration of design against hazards must be integrated with all other design issues, and be present from the inception of the site selection and building design process. Chapters 1-3 present issues and background information that are common to all hazards. Chapters 4-6 cover the development of specific risk management measures for each of the three main natural hazards. Chapter 1 opens with a brief outline of the past, present, and future of school design. Chapter 2 introduces the concepts of performance-based design in order to obtain required performance from a new or retrofitted facility. Chapter 3 introduces the concept of multihazard design and presents a general description and comparison of the hazards, including charts that show where design against each hazard interacts with design for other hazards. Chapters 4, 5, and 6 outline the steps necessary in the creation of design to address risk management concerns for protection against earthquakes, floods, and high winds, respectively. A guide to the determination of acceptable risk and realistic performance objectives is followed by a discussion to establish the effectiveness of current codes to achieve acceptable performance. A list of acronyms used in the manual are appended. (Contains 13 tables and 124 figures.).
Publisher:
ISBN:
Category : Earthquake resistant design
Languages : en
Pages : 366
Book Description
This manual is intended to provide guidance for the protection of school buildings and their occupants from natural disasters, and the economic losses and social disruption caused by building damage and destruction. This volume concentrates on grade schools, K-12. This publication covers earthquakes, floods, and high winds. Its intended audience is design professionals and school officials involved in the technical and financial decisions of school construction, repair, and renovations. This publication stresses that identification of hazards and their frequency and careful consideration of design against hazards must be integrated with all other design issues, and be present from the inception of the site selection and building design process. Chapters 1-3 present issues and background information that are common to all hazards. Chapters 4-6 cover the development of specific risk management measures for each of the three main natural hazards. Chapter 1 opens with a brief outline of the past, present, and future of school design. Chapter 2 introduces the concepts of performance-based design in order to obtain required performance from a new or retrofitted facility. Chapter 3 introduces the concept of multihazard design and presents a general description and comparison of the hazards, including charts that show where design against each hazard interacts with design for other hazards. Chapters 4, 5, and 6 outline the steps necessary in the creation of design to address risk management concerns for protection against earthquakes, floods, and high winds, respectively. A guide to the determination of acceptable risk and realistic performance objectives is followed by a discussion to establish the effectiveness of current codes to achieve acceptable performance. A list of acronyms used in the manual are appended. (Contains 13 tables and 124 figures.).