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Numerical studies on sprinkler-hot layer interaction
Wan Ki Chow
, Y. L. Cheung
The Hong Kong Polytechnic University
Research output
:
Journal article publication
›
Journal article
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Academic research
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peer-review
2
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Keyphrases
Sprinkler
100%
Water Spray
100%
Interlayer Interaction
100%
Gas Phase
66%
Water Droplet
66%
Liquid Phase
66%
Gasses
66%
Fire-induced
33%
Empirical Formula
33%
Nozzle
33%
Field Modeling
33%
Smoke Concentration
33%
Modeling Techniques
33%
Empirical Expression
33%
Source Term
33%
Conservation Equations
33%
Equations of Motion
33%
Heat Transfer
33%
Temperature Concentration
33%
Cell-based
33%
Macroscopic Parameters
33%
Buoyancy Ratio
33%
Particle-Source-In-Cell
33%
Initial Velocity
33%
Water Pressure
33%
Concentration Field
33%
Mean Droplet Diameter
33%
Interaction Effect
33%
Convective Heat Transfer Coefficient
33%
PISO Algorithm
33%
Water Flow Rate
33%
Cooling Drag
33%
Non-evaporating
33%
Initial Radius
33%
Engineering
Numerical Study
100%
Layer Interaction
100%
Spray Water
100%
Gas-Phase
66%
Predicted Result
66%
Liquid Phase
66%
Experimental Result
33%
Source Term
33%
Droplet Size
33%
Equations for Mass
33%
Concentration Field
33%
Interaction Effect
33%
Convective Heat Transfer Coefficient
33%
Flowrates
33%
Cooling Drag
33%
Smoke
33%
Conservation Equation
33%
Initial Velocity
33%