Skip to main navigation
Skip to search
Skip to main content
PolyU Scholars Hub Home
Help & FAQ
Link opens in a new tab
Search content at PolyU Scholars Hub
Home
Researchers
Units
Research output
Prizes
Activities
Press/Media
Student theses
Study of water droplet behavior in hot air layer in fire extinguishment
Y. F. Li
, Wan Ki Chow
The Hong Kong Polytechnic University
Research output
:
Journal article publication
›
Journal article
›
Academic research
›
peer-review
23
Link opens in a new tab
Citations (Scopus)
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Study of water droplet behavior in hot air layer in fire extinguishment'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
HOX Transcript Antisense RNA (HOTAIR)
100%
Fire Extinguishing
100%
In Fire
100%
Water Droplet
100%
Air Layer
100%
Droplet Motion
100%
Water Spray
80%
Water Vapor
40%
Fire Suppression
40%
Smoke Layer
40%
Cooling Effect
40%
Air Reservoir
40%
Airflow
20%
Air Temperature
20%
Water Mist System
20%
Total Temperature
20%
Vaporization
20%
Gas Phase
20%
Lagrangian Approach
20%
Ordinary Differential Equations
20%
Thermal Conductivity
20%
Heat Transfer
20%
Mathematical Model
20%
Cooling Air
20%
Energy Conservation Equation
20%
Air Entrainment
20%
Limited Experimental Data
20%
Mass Conservation Equation
20%
Water Evaporation
20%
Mass Fraction
20%
Temperature Water
20%
Gas Cooling
20%
Small Droplets
20%
Momentum Conservation Equation
20%
Droplet Phase
20%
Dynamic Viscosity
20%
Air Droplets
20%
Single Droplet
20%
Thermal Dynamics
20%
Spray Cone
20%
Specific Heat Capacity
20%
One-third Rule
20%
Runge-Kutta Algorithm
20%
Initial Radius
20%
Modelling Fires
20%
Engineering
Spray Water
100%
Air Layer
100%
Cooling Effect
50%
Fire Suppression
50%
Smoke
50%
Gas-Phase
25%
Vaporization
25%
Predicted Result
25%
Air Entrainment
25%
Cooling Air
25%
Mass Conservation
25%
Mass Fraction
25%
Momentum Conservation
25%
Droplet Phase
25%
Lagrangian Approach
25%
Specific Heat Capacity
25%
Gas Cooling
25%
Thermal Conductivity
25%
Conservation Equation
25%
Dynamic Viscosity
25%
Mathematical Model
25%
Air Flow
25%