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12 records – page 1 of 2.

Advancing knowledge of mid-ply shear walls. Mid-ply shear wall fire resistance testing

https://library.fpinnovations.ca/en/permalink/fpipub8306
Author
Ranger, Lindsay
Dagenais, Christian
Date
March 2021
Material Type
Research report
Field
Sustainable Construction
WALL FIRE RESISTANCE TESTING info@fpinnovations.ca www.fpinnovations.ca Lindsay Ranger, P.Eng
Author
Ranger, Lindsay
Dagenais, Christian
Date
March 2021
Material Type
Research report
Physical Description
41 p.
Sector
Wood Products
Field
Sustainable Construction
Research Area
Building Systems
Subject
Building construction
Design
Fire
Fire protection
Midply
Midply walls
Shear walls
Walls
Series Number
Technical Report TR 2021 No.78
Language
English
Abstract
The objective of this research is to address a knowledge gap related to fire performance of midply shear walls. Testing has already been done to establish the structural performance of these assemblies. To ensure their safe implementation and their broad acceptance, this project will establish fire resistance ratings for midply shear walls. Fire tests will provide information for the development of design considerations for midply shear walls and confirm that they can achieve at least 1-hour fire-resistance ratings that are required for use in mid-rise buildings.
This research will support greater adoption of mid-rise residential and non-residential wood-frame construction and improve competition with similar buildings of noncombustible construction. This work will also support the development of the APA system report for midply walls, which will be a design guideline for using midply walls in North America.
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Characterization of fires in residential buildings

https://library.fpinnovations.ca/en/permalink/fpipub2450
Author
Mehaffey, J.R. (Jim)
Date
March 2007
Edition
39029
Material Type
Research report
Field
Sustainable Construction
Buildings Project Leader: Jim Mehaffey, Building Systems Department, Fire Research Group, Ottawa Laboratory
Author
Mehaffey, J.R. (Jim)
Date
March 2007
Edition
39029
Material Type
Research report
Physical Description
3 p.
Sector
Wood Products
Field
Sustainable Construction
Research Area
Advanced Wood Materials
Subject
Fire
Building construction
Residential construction
Series Number
General Revenue
4918
Location
Québec, Québec
Language
English
Abstract
Fires, Building - Tests
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Fire performance of mass timber

https://library.fpinnovations.ca/en/permalink/fpipub8293
Author
Dagenais, Christian
Ranger, Lindsay
Date
Avril 2021
Material Type
Research report
Field
Sustainable Construction
-55E): Chapter 5 - Fire Safety and Protection. FPInnovations. Dagenais C., Ranger L. & N. Benichou
Author
Dagenais, Christian
Ranger, Lindsay
Date
Avril 2021
Material Type
Research report
Physical Description
6 p.
Sector
Wood Products
Field
Sustainable Construction
Research Area
Advanced Wood Materials
Subject
Fire
Building codes
Models
Performance
Standards
Timber
Language
French
Abstract
La construction massive en bois est relativement nouvelle et sera bientôt intégrée dans le Code national du bâtiment du Canada (CNB). Il s'agit d'une solution à base de bois à prix compétitif qui complète les systèmes existants à ossature en bois et de construction en gros bois d’œuvre et constitue une option appropriée pour certaines applications qui utilisent actuellement du béton, de la maçonnerie ou de l'acier.
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InfoNote2021N19F.pdf

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Fire performance of mass timber

https://library.fpinnovations.ca/en/permalink/fpipub8295
Author
Dagenais, Christian
Ranger, Lindsay
Date
April 2021
Material Type
Research report
Field
Sustainable Construction
INFONOTE April 2021 – no. 19E Not Restricted to members and partners of FPInnovations FIRE
Author
Dagenais, Christian
Ranger, Lindsay
Date
April 2021
Material Type
Research report
Physical Description
5 p.
Sector
Wood Products
Field
Sustainable Construction
Research Area
Advanced Wood Materials
Subject
Construction
Fire
Building codes
Models
Performance
Standards
Timber
Language
English
Abstract
Mass timber construction is a relatively new type of construction soon to be implemented in the National Building Code of Canada (NBCC). It is a cost-competitive wood-based solution that complements existing wood-frame and heavy timber systems and is a suitable candidate for some applications which currently use concrete, masonry and/or steel.
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InfoNote2021N19E.pdf

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Fire risk assessment : final report

https://library.fpinnovations.ca/en/permalink/fpipub38824
Author
Tammim, A.
Date
March 1996
Material Type
Research report
Field
Sustainable Construction
6û.&&>l.pdf: Project No. 3010K047 Canadian Forest Service No.4 FIRE RISK ASSESSMENT FINAL
Author
Tammim, A.
Date
March 1996
Material Type
Research report
Physical Description
10 p.
Sector
Wood Products
Field
Sustainable Construction
Research Area
Building Systems
Subject
Fire
Series Number
Canadian Forest Service No. 4
3010K047
E-2881
Location
Ottawa, Ontario
Language
English
Abstract
Assessment
Fire Risk
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Hügelkultur as a debris management technique in forest fuel reduction treatments. A comparative productivity evaluation of a fuel reduction treatment incorporating hugels

https://library.fpinnovations.ca/en/permalink/fpipub8471
Author
Hvenegaard, Steven
Date
December 2021
Material Type
Research report
Field
Fibre Supply
this approach. In winter months, when the potential for escaped fire is low, poor atmospheric venting
Author
Hvenegaard, Steven
Date
December 2021
Material Type
Research report
Physical Description
15 p.
Sector
Forest Operations
Field
Fibre Supply
Research Area
Wildfire Operations
Subject
Fire
Forestry
Hugel
Logging
Fuel
Efficiency
British Columbia
Piles
Wood waste
FPI TR
Series Number
Technical Report ; TR 2021 n.100
Language
English
Abstract
Disposal of woody debris and vegetative matter from forest fuel reduction treatments is a challenge and alternatives to conventional methods of pile burning and chipping are being considered. The construction of hugels is proposed as a debris management technique that would configure debris on site in a less flammable state. While flammability of piled debris (hugels) is a key consideration in the viability of this debris disposal method, the cost of the operation must also be considered.
This research design presents the development of test methods and data collection methods that can be applied in evaluating the productivity of a fuel reduction treatment that incorporates construction of hugels as a debris management tool. Comparative productivity trials will evaluate these productivity results in relation to fuel treatments that apply conventional debris disposal methods.
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Hügelkultur as a debris management technique in forest fuel reduction treatments. Decomposition of woody debris in hugels: A literature search

https://library.fpinnovations.ca/en/permalink/fpipub8470
Author
Hvenegaard, Steven
Date
December 2021
Material Type
Research report
Field
Fibre Supply
this approach. In winter months, when the potential for escaped fire is low, poor atmospheric venting
Author
Hvenegaard, Steven
Date
December 2021
Material Type
Research report
Physical Description
23 p.
Sector
Forest Operations
Field
Fibre Supply
Research Area
Wildfire Operations
Subject
Fire
Forestry
Hugel
Wood waste
Piles
Logging
Fuel
Efficiency
British Columbia
FPI TR
Series Number
Technical Report ; TR 2021 n.99
Language
English
Abstract
Disposal of woody debris and vegetative matter from forest fuel reduction treatments is a challenge and alternatives to conventional methods of pile burning and chipping are being considered. The construction of hugels is proposed as a debris management technique that would configure debris on site in a less flammable state. Flammability of piled debris (hugels) and the productivity of hugel construction are key considerations in assessing the viability of this debris disposal method.
Another consideration in assessing hügelkultur as a long-term debris management strategy is the decomposition of hugels and the evolving flammability of hugels. Research literature does not speak directly to the changing flammability of piled debris (and more specifically hugels), but this literature search attempts to locate material relevant to decomposition of woody debris in a hugelkultur environment.
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Hügelkultur as a debris management technique in forest fuel reduction treatments. Developing a research plan to evaluate the flammability of constructed debris piles (hugels)

https://library.fpinnovations.ca/en/permalink/fpipub8469
Author
Hvenegaard, Steven
Bennett, Andrew
Date
December 2021
Material Type
Research report
Field
Fibre Supply
........................................ 6 5.2.2.1 Ease of fire spread from encroaching surface fire to hugels
Author
Hvenegaard, Steven
Bennett, Andrew
Date
December 2021
Material Type
Research report
Physical Description
27 p.
Sector
Forest Operations
Field
Fibre Supply
Research Area
Wildfire Operations
Subject
Fire
Forestry
Logging
Fuel
Piles
Hugel
Productivity
Wood waste
Efficiency
British Columbia
FPI TR
Series Number
Technical Report ; TR 2021 n.98
Language
English
Abstract
Disposal of woody debris and vegetative matter from forest fuel reduction treatments is a challenge and alternatives to conventional methods of pile burning and chipping are being considered. The construction of hugels is proposed as a debris management technique that would configure debris on site in a less flammable state. This research design presents considerations for development of an experimental burn site, test methods, and data collection methods that can be applied in evaluating and comparing the flammability of hugels constructed with different fuel components and construction methods.
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Performance au feu du bois massif

https://library.fpinnovations.ca/en/permalink/fpipub8294
Author
Dagenais, Christian
Ranger, Lindsay
Date
Avril 2021
Material Type
Research report
Field
Sustainable Construction
-55E): Chapter 5 - Fire Safety and Protection. FPInnovations. Dagenais C., Ranger L. & N. Benichou
Author
Dagenais, Christian
Ranger, Lindsay
Date
Avril 2021
Material Type
Research report
Physical Description
6 p.
Sector
Wood Products
Field
Sustainable Construction
Research Area
Advanced Wood Materials
Subject
Construction
Fire
Building codes
Models
Performance
Standards
Timber
Language
French
Abstract
La construction massive en bois est relativement nouvelle et sera bientôt intégrée dans le Code national du bâtiment du Canada (CNB). Il s'agit d'une solution à base de bois à prix compétitif qui complète les systèmes existants à ossature en bois et de construction en gros bois d’œuvre et constitue une option appropriée pour certaines applications qui utilisent actuellement du béton, de la maçonnerie ou de l'acier.
Documents

InfoNote2021N19F.pdf

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Seasonal flammability of forest fules. Implementing modified oxygen consumption calorimetry to estimate the flammability of black spruce and tamarck

https://library.fpinnovations.ca/en/permalink/fpipub8007
Author
Refai, Razim
Paskaluk, Stephen
Hsieh, Rex
Date
March 2021
Material Type
Research report
Field
Fibre Supply
michael.benson@fpinnovations.ca REVIEWERS Daniel Thompson Forest Fire Research Scientist Natural
Author
Refai, Razim
Paskaluk, Stephen
Hsieh, Rex
Contributor
Alberta Agriculture and Forestry (AAF)
Date
March 2021
Material Type
Research report
Physical Description
38 p.
Sector
Forest Operations
Field
Fibre Supply
Research Area
Wildfire Operations
Subject
Fire
Black spruce
Forest fires
Fuels
Tamarack
Oxygen
FPI TR
Wildfires
Series Number
Technical Report ; TR 2021 n.14
Language
English
Abstract
Modified oxygen consumption calorimetry was used to track the seasonal flammability of black spruce and tamarack. Age class related samples were collected for both species from May to September at research site in central Alberta. These samples were assessed for their differential heat release using test equipment at the Protective Clothing and Equipment Research Facility (PCERF) at the University of Alberta. The test method was able to successfully quantify the differences in seasonal flammability between black spruce and tamarack. Data showed the age-related flammability differences were less pronounced, with the exception of new growth samples early in the season.
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12 records – page 1 of 2.