Experimental study and analysis of radiation heat fluxes received by a floor beneath an inclined ceiling
(2021) In Fire and Materials 45(2). p.205-214- Abstract
This study experimentally investigates the radiation heat flux distribution received on the floor due to fire plume impinging upon an inclined ceiling, which has not been quantified previously. The radiation heat fluxes were measured on the floor for 160 experimental conditions, involving various fire source heat release rates, source-ceiling heights, angles of ceiling inclination and dimensions (aspect ratios) of the rectangular sources. The main findings include that the declining rate of the radiation heat flux along with distance received by the downstream floor decreases, while that received by the upstream floor increases, with the increasing of ceiling inclination angle. The radiation heat flux received by the floor is higher as... (More)
This study experimentally investigates the radiation heat flux distribution received on the floor due to fire plume impinging upon an inclined ceiling, which has not been quantified previously. The radiation heat fluxes were measured on the floor for 160 experimental conditions, involving various fire source heat release rates, source-ceiling heights, angles of ceiling inclination and dimensions (aspect ratios) of the rectangular sources. The main findings include that the declining rate of the radiation heat flux along with distance received by the downstream floor decreases, while that received by the upstream floor increases, with the increasing of ceiling inclination angle. The radiation heat flux received by the floor is higher as the ceiling inclination angle is smaller for the downstream side, while it is lower as the ceiling inclination angle is smaller for the upstream side. Both of these variations can be explained by change of the flow distribution as well as flame length due to combustion and heat released in the two directions beneath the inclined ceiling. Further, a model with various fire source heat release rates, source-ceiling height, and ceiling inclination angles is proposed, to globally describe the radiation heat flux received by both the upstream and downstream floors.
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- author
- Tang, Fei ; Zhu, Yuantao ; Chen, Lei ; Sun, Xiepeng ; McNamee, Margaret LU ; Van Hees, Patrick LU and Hu, Longhua
- organization
- publishing date
- 2021
- type
- Contribution to journal
- publication status
- published
- subject
- keywords
- floor, heat release rate, inclined ceiling, radiation heat flux, rectangular fire source, source-ceiling height
- in
- Fire and Materials
- volume
- 45
- issue
- 2
- pages
- 205 - 214
- publisher
- John Wiley & Sons Inc.
- external identifiers
-
- scopus:85092742438
- ISSN
- 0308-0501
- DOI
- 10.1002/fam.2925
- language
- English
- LU publication?
- yes
- id
- 2d46a82e-587b-4866-9d21-3cc0af14bd24
- date added to LUP
- 2020-11-12 08:26:58
- date last changed
- 2022-04-26 21:44:03
@article{2d46a82e-587b-4866-9d21-3cc0af14bd24, abstract = {{<p>This study experimentally investigates the radiation heat flux distribution received on the floor due to fire plume impinging upon an inclined ceiling, which has not been quantified previously. The radiation heat fluxes were measured on the floor for 160 experimental conditions, involving various fire source heat release rates, source-ceiling heights, angles of ceiling inclination and dimensions (aspect ratios) of the rectangular sources. The main findings include that the declining rate of the radiation heat flux along with distance received by the downstream floor decreases, while that received by the upstream floor increases, with the increasing of ceiling inclination angle. The radiation heat flux received by the floor is higher as the ceiling inclination angle is smaller for the downstream side, while it is lower as the ceiling inclination angle is smaller for the upstream side. Both of these variations can be explained by change of the flow distribution as well as flame length due to combustion and heat released in the two directions beneath the inclined ceiling. Further, a model with various fire source heat release rates, source-ceiling height, and ceiling inclination angles is proposed, to globally describe the radiation heat flux received by both the upstream and downstream floors.</p>}}, author = {{Tang, Fei and Zhu, Yuantao and Chen, Lei and Sun, Xiepeng and McNamee, Margaret and Van Hees, Patrick and Hu, Longhua}}, issn = {{0308-0501}}, keywords = {{floor; heat release rate; inclined ceiling; radiation heat flux; rectangular fire source; source-ceiling height}}, language = {{eng}}, number = {{2}}, pages = {{205--214}}, publisher = {{John Wiley & Sons Inc.}}, series = {{Fire and Materials}}, title = {{Experimental study and analysis of radiation heat fluxes received by a floor beneath an inclined ceiling}}, url = {{http://dx.doi.org/10.1002/fam.2925}}, doi = {{10.1002/fam.2925}}, volume = {{45}}, year = {{2021}}, }