Designing Fire Wise Communities: Fire Resistive Architectural Methods and Materials
Description
Abstract
Wildfires are rapidly becoming one of the biggest issues that California has to face. Every year, fire season gets longer as lack of rain, high winds and faulty power lines combine in a recipe for disaster. Nearly the entire state, north to south, has been affected by at least one major firestorm since the fall of 2017. They have become the new normal, razing towns in hours and leaving nothing but wreckage in their wake. Because of this growing problem, solutions for fire-proofing existing towns and strategies for rebuilding those affected are more important than ever. Using design as a lens with which to address this problem, this thesis explores materials that have been tested and proven to be more fire-resistant, as well as outlines through case studies how communities and designers can implement these strategies to create safer communities in wildfire-prone areas. The case studies paint a variety of pictures of what fire-resistant architecture and design can be, offering a comprehensive set of guidelines for both community members and designers to move forward with building or rebuilding structures in a wildland urban interface zone. Researching homes built in both California and Australia widens the perspective of how large the problem of wildfire truly is in terms of building destruction. Solutions such as prefab modular home construction are also becoming a popular option as they are fast and inherently more fire-resistant than traditionally rebuilt homes. At the urban and regional level, research has revealed the importance of planning homes and communities in a way which integrates with the natural topography of the site and minimizes surrounding fuel loads. In addition, building materials such as concrete, straw bale and heavy timber are the most fire-resistant, especially when clad with an outer layer of tile, brick or other noncombustible material and with protected vent openings. Interior materials should minimize the usage of wood detailing, unless using certain products that have the appearance of wood but are actually created by non-combustible materials. Homes should have more compartmentalization to slow down a fire from spreading should one occur in the structure. Fire detection/suppression systems should be up to date and using the latest technology.
Wildfires are rapidly becoming one of the biggest issues that California has to face. Every year, fire season gets longer as lack of rain, high winds and faulty power lines combine in a recipe for disaster. Nearly the entire state, north to south, has been affected by at least one major firestorm since the fall of 2017. They have become the new normal, razing towns in hours and leaving nothing but wreckage in their wake. Because of this growing problem, solutions for fire-proofing existing towns and strategies for rebuilding those affected are more important than ever. Using design as a lens with which to address this problem, this thesis explores materials that have been tested and proven to be more fire-resistant, as well as outlines through case studies how communities and designers can implement these strategies to create safer communities in wildfire-prone areas. The case studies paint a variety of pictures of what fire-resistant architecture and design can be, offering a comprehensive set of guidelines for both community members and designers to move forward with building or rebuilding structures in a wildland urban interface zone. Researching homes built in both California and Australia widens the perspective of how large the problem of wildfire truly is in terms of building destruction. Solutions such as prefab modular home construction are also becoming a popular option as they are fast and inherently more fire-resistant than traditionally rebuilt homes. At the urban and regional level, research has revealed the importance of planning homes and communities in a way which integrates with the natural topography of the site and minimizes surrounding fuel loads. In addition, building materials such as concrete, straw bale and heavy timber are the most fire-resistant, especially when clad with an outer layer of tile, brick or other noncombustible material and with protected vent openings. Interior materials should minimize the usage of wood detailing, unless using certain products that have the appearance of wood but are actually created by non-combustible materials. Homes should have more compartmentalization to slow down a fire from spreading should one occur in the structure. Fire detection/suppression systems should be up to date and using the latest technology.
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
2020-05
Agent
- Author (aut): Allen, Kyra Grace
- Thesis director: Vallerand, Olivier
- Committee member: Zingoni, Milagros
- Contributor (ctb): The Design School
- Contributor (ctb): Barrett, The Honors College