Framework for Addressing the National Wildland Urban Interface Fire Problem - Determining Fire and Ember Exposure Zones Using a WUI Hazard Scale
Framework for Addressing the National Wildland Urban Interface Fire Problem - Determining Fire and Ember Exposure Zones Using a WUI Hazard Scale

Author: Alexander Maranghides

Publisher:

Published: 2012

Total Pages: 25

ISBN-13:

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Destruction of homes and businesses from Wildland Urban Interface (WUI) fires has been steadily escalating as have the fire suppression costs associated with them. Since 2000, in the United States, over 3,000 homes per year are lost to WUI fires. This is compared to about 900 homes in the 1990s, and 400 homes in the 1970s. In 2011, in Texas alone, over 2,000 homes were destroyed during WUI fires. The WUI fire problem affects both existing communities and new construction. In the U.S, the problem is most acute in the western and southern states; however, WUI fires have also recently destroyed homes in the Mid-Atlantic States and the Pacific Northwest. One of the fundamental issues driving the destruction of homes at the interface is the very limited coupling between building codes and standards and potential fire and ember exposure. The limited exposure information currently available does not address the full range of realistic WUI exposures and offers little context for the design of ignition resistant landscapes and buildings. While the principles of ignition and fire spread at the WUI have been known, actual exposure quantification has been very limited. The resulting gap between exposure and structure ignition has therefore resulted in a lack of tested and implementable hazard mitigation solutions. As an example, there is currently little quantifiable information that links the ember generation from wildland fuels to building assemblies testing. A WUI fire and ember exposure scale (WUI-scale) needs to be created to help consistently quantify the expected severity of WUI fire events based on measures, or scales, of expected ember and fire exposure. Once established, these technically based ember and fire exposures for the WUI can form the technical foundation for the development of a set of performance based building codes aimed at providing a level of structure ignition protection commensurate with the expected fire and/or ember exposure. The concept is based on quantifying expected fire and ember exposure throughout an existing WUI community. The proposed WUI-scale can be used to explicitly identify WUI areas that have a fire problem, as opposed to areas that meet housing density or wildland vegetation requirements as is frequently done. The scale can therefore be used to provide the boundaries where specific land use and/or building construction regulations would apply. Finally, the exposure scale can be used for both new and existing WUI communities.

NIST Technical Note 1748 Framework for Addressing the NationalWildland Urban Interface Fire Problem ? Determining Fire and Ember Exposure Zones Using a WUI Hazard Scale
NIST Technical Note 1748 Framework for Addressing the NationalWildland Urban Interface Fire Problem ? Determining Fire and Ember Exposure Zones Using a WUI Hazard Scale

Author: U.s. Department of Commerce

Publisher: Createspace Independent Pub

Published: 2014-10-09

Total Pages: 34

ISBN-13: 9781502480873

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Destruction of homes and businesses from Wildland Urban Interface (WUI) fires has been steadily escalating as have the fire suppression costs associated with them. Since 2000, in the United States, over 3,000 homes per year are lost to WUI fires. This is compared to about 900 homes in the 1990s, and 400 homes in the 1970s. In 2011, in Texas alone, over 2,000 homes were destroyed during WUI fires. The WUI fire problem affects both existing communities and new construction. In the U.S, the problem is most acute in the western and southern states; however, WUI fires have also recently destroyed homes in the Mid-Atlantic States and the Pacific Northwest.

Large-Scale and Full-Scale Methods for Examining Wind Effects on Buildings
Large-Scale and Full-Scale Methods for Examining Wind Effects on Buildings

Author: Gregory A. Kopp

Publisher: Frontiers Media SA

Published: 2018-06-12

Total Pages: 143

ISBN-13: 2889455106

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Global economic losses due to severe weather events have grown dramatically over the past two decades. A large proportion of these losses are due to severe wind storms such as tropical cyclones and tornadoes, which can cause destruction to buildings, houses, and other infrastructure over large areas. To address the growing losses, many new large-scale and full-scale laboratories have been developed. These tools are used to examine the issues that could not be solved with the traditional tools of wind engineering including model-scale boundary layer wind tunnels, simplified standardized product tests, and other methods of analysis. This book presents state-of-the-art results from the development of the many novel approaches being used to mitigate natural disasters around the world.

SFPE Handbook of Fire Protection Engineering
SFPE Handbook of Fire Protection Engineering

Author: Morgan J. Hurley

Publisher: Springer

Published: 2015-10-07

Total Pages: 3510

ISBN-13: 1493925652

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Revised and significantly expanded, the fifth edition of this classic work offers both new and substantially updated information. As the definitive reference on fire protection engineering, this book provides thorough treatment of the current best practices in fire protection engineering and performance-based fire safety. Over 130 eminent fire engineers and researchers contributed chapters to the book, representing universities and professional organizations around the world. It remains the indispensible source for reliable coverage of fire safety engineering fundamentals, fire dynamics, hazard calculations, fire risk analysis, modeling and more. With seventeen new chapters and over 1,800 figures, the this new edition contains: Step-by-step equations that explain engineering calculations Comprehensive revision of the coverage of human behavior in fire, including several new chapters on egress system design, occupant evacuation scenarios, combustion toxicity and data for human behavior analysis Revised fundamental chapters for a stronger sense of context Added chapters on fire protection system selection and design, including selection of fire safety systems, system activation and controls and CO2 extinguishing systems Recent advances in fire resistance design Addition of new chapters on industrial fire protection, including vapor clouds, effects of thermal radiation on people, BLEVEs, dust explosions and gas and vapor explosions New chapters on fire load density, curtain walls, wildland fires and vehicle tunnels Essential reference appendices on conversion factors, thermophysical property data, fuel properties and combustion data, configuration factors and piping properties “Three-volume set; not available separately”

A Framework for Measuring the Impact of Wildland-urban Interface Fires on a Regional Economy
A Framework for Measuring the Impact of Wildland-urban Interface Fires on a Regional Economy

Author:

Publisher:

Published: 2019

Total Pages: 0

ISBN-13:

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This report develops an approach to evaluate the direct and indirect impacts from wildland-urban interface (WUI) fires that result in the loss of functionality of the built environment, for a regional economy. While direct losses from WUI fires are largely observable, needed is a mechanism to evaluate how these losses indirectly affect other sectors of the economy. The approach is designed to quantify the total impacts (both direct and indirect) from WUI fire due to a loss of functionality of assets (e.g., structures) directly impacted in a regional economy, and provides a mechanism to systematically quantify the interplay between direct and indirect economic impacts. The use of a computable general equilibrium (CGE) model allows for simulation of various possible economic shocks resulting from the temporary or permanent loss of the built environment. It also allows for behavioral changes of the local population due to fire risk. The output from such an approach will facilitate a better understanding of the potential vulnerabilities within a community. For example, the approach will identify thresholds of functionality that if exceeded would result in catastrophic loss. In addition, simulation of risk mitigation scenarios (allowing for a resilience in functionality) could be used to determine optimal intervention strategies. Combined with intervention cost data, cost-effective risk mitigation strategies can be identified.

Standard Fire Behavior Fuel Models
Standard Fire Behavior Fuel Models

Author: Joe H. Scott

Publisher:

Published: 2005

Total Pages: 84

ISBN-13:

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This report describes a new set of standard fire behavior fuel models for use with Rothermels surface fire spread model and the relationship of the new set to the original set of 13 fire behavior fuel models. To assist with transition to using the new fuel models, a fuel model selection guide, fuel model crosswalk, and set of fuel model photos are provided.

A Framework for Measuring the Impact of Wildland-urban Interface Fires on a Regional Economy
A Framework for Measuring the Impact of Wildland-urban Interface Fires on a Regional Economy

Author: David T. Butry

Publisher:

Published: 2019

Total Pages: 28

ISBN-13:

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This report develops an approach to evaluate the direct and indirect impacts from wildland-urban interface (WUI) fires that result in the loss of functionality of the built environment, for a regional economy. While direct losses from WUI fires are largely observable, needed is a mechanism to evaluate how these indirectly affect other sectors of the economy. The approach is designed to quantify the total impacts (both direct and indirect) from WUI fire due to a loss of functionality of assets (e.g., structures) directly impacted in a regional economy, and provides a mechanism to systematically quantify the interplay between direct and indirect economic impacts. The use of a computable general equilibrium (CGE) model allows for simulation of various possible economic shocks resulting from the temporary or permanent loss of the built environment. It also allows for behavioral changes of the local population due to fire risk (e.g., changes in preferences). The output from such an approach will facilitate a better understanding of the potential vulnerabilities within a community. For example, the approach will identify thresholds of functionality that if exceeded would result in catastrophic loss. In addition, simulation of risk mitigation scenarios (allowing for a resilience in functionality) could be used to determine optimal intervention strategies. Combined with intervention cost data and cost-effective risk mitigation strategies could be identified.

Mathematical Modeling of Wildland-Urban Interface Fires
Mathematical Modeling of Wildland-Urban Interface Fires

Author: U.s. Department of Commerce

Publisher: CreateSpace

Published: 2014-01-31

Total Pages: 44

ISBN-13: 9781495323386

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Over the past few years, Wildland-Urban Interface (WUI) fires have become of much greater concern. The WUI includes people and property, and, therefore, the costs of damage in the built environment, especially when measured in terms of injury to people, death and property damage, are far higher than in wildland settings, National Interagency Fire Center (2006). The WUI has been found to be large and growing rapidly in the United States as population expands and housing development in wildland areas continues. People are building more houses in a wildland setting every year, Environmental Literacy Council (2007). For example, data from year 2000 show that about 36 % or 42 million homes in the U.S. are in the WUI and the numbers are growing rapidly, Radeloff et al (2005) and Gustafson et al (2005). Also, as the average temperature, both within the United States and globally, has increased, earlier snowmelts have taken place, extending the number of weeks every year that forests are exposed to high temperatures and dangerously dry conditions, Andrews et al. (2007). Increasingly hot and dry conditions in the United States have led, in turn, to more acres of wildland fuel consumed by wildfire with greater threat to the WUI, Andrews et al (2007), National Interagency Fire Center (2006).

Community Risk Reduction in the Wildland Urban Interface
Community Risk Reduction in the Wildland Urban Interface

Author: Richard W. Davis

Publisher:

Published: 2011

Total Pages: 37

ISBN-13:

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As Americans migrated from congested cities and into more rural areas of the nation, they were confronted with the problem of wildfires in the urban interface areas. The problem was the Loveland Fire Rescue Department did not adequately identify the community risk reduction factors that may have reduced wildland urban interface (WUI) fires in the past 24 months. The purpose of this research was to identify those factors.

An Impact Analysis for the National Guide for Wildland-Urban Interface Fires
An Impact Analysis for the National Guide for Wildland-Urban Interface Fires

Author: Keith A. Porter

Publisher:

Published: 2021

Total Pages: 137

ISBN-13: 9781927929346

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Following the Guide’s recommendations creates costs and benefits for building owners, home buyers, tenants, residents, local government, and others. This report, sponsored by NRC, provides comprehensive information concerning the Guide’s costs and benefits for new buildings, existing buildings, and communities in WUI fire hazard areas across the country.