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Scaling nonreactive cross flow over a heated plate to simulate forest fires
Nikolay Gustenyov
,
Nelson Akafuah
, Ahmad Salaimeh
, Mark Finney
, Sara McAllister
, Kozo Saito
Mechanical and Aerospace Engineering
Engineering Technology
Institute of Research for Technology Development (IR4TD)
Research output
:
Contribution to journal
›
Article
›
peer-review
19
Scopus citations
Overview
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Earth and Planetary Sciences
Forest Fire
100%
Wind Tunnels
100%
Smoke
100%
Cross Flow
100%
Flow Structure
66%
Time Series
33%
Turbulent Flow
33%
Flow Distribution
33%
Flat Surface
33%
Wind Velocity
33%
Inflow
33%
Scaling Law
33%
Convective Heat Transfer
33%
Heat Flux
33%
Engineering
Wind Tunnels
100%
Smoke
75%
Vortex Flow
75%
Flow Structure
50%
Turbulent Flow
25%
Convective
25%
Scaling Law
25%
Strong Interaction
25%
Flow Visualization
25%
Similarities
25%
Tunnel Fire
25%
Light Sheet
25%
Flow Distribution
25%
Flat Surface
25%
Uniform Heat Flux
25%
Physics
Wind Tunnels
100%
Cross Flow
100%
Turbulent Flow
25%
Flow Distribution
25%
Wind Velocity
25%
Flat Surface
25%
Flow Visualization
25%
Convective Heat Transfer
25%