Engineering
Experiments
100%
Evaluation
100%
Correlation
100%
Facades
100%
Design Engineering
100%
Flame Envelope
50%
Prediction
33%
Accuracy
33%
Buildings
33%
Heat Release Rate
33%
Estimation
33%
Fire Condition
33%
Compartment Fire
33%
Image Processing
16%
Floors
16%
Computational Fluid Dynamics
16%
Models
16%
Sensor Network
16%
Fuel Source
16%
Excess Heat
16%
Heat Flux
16%
Gas Temperature
16%
Flame
16%
Determines
16%
Mass Loss
16%
Surface Temperature
16%
Windows
16%
Significant Risk
16%
Physical Parameter
16%
Broad Range
16%
Scale Model
16%
Load Level
16%
Temperature Heat
16%
Fire Design
16%
Liquid Pool
16%
Hazardous Materials Spills
16%
Geometrical Characteristic
16%
Dynamic Behavior
16%
Digital Camera
16%
Fuel Mass
16%
Keyphrases
Fire Experiment
100%
Fire Engineering Design
100%
Design Correlations
100%
Externally Venting Flames
100%
Façade Fire
100%
Flame Height
33%
Flame Projection
33%
Faade
22%
Heat Release Rate
22%
Under-ventilated Fires
22%
Gas Concentration
11%
Dynamic Behavior
11%
Sensor Networks
11%
Excess Heat
11%
Fuel Sources
11%
Gas Temperature
11%
Heat Flux
11%
Surface Temperature
11%
Mass Loss
11%
CFD Model
11%
Fire Load
11%
Spill
11%
Scale Model
11%
Prediction Accuracy
11%
Fully Developed
11%
Significant Risk Factors
11%
N-hexane
11%
Fire Conditions
11%
Physical Parameters
11%
Fire Spread
11%
Load Level
11%
Fire Risk
11%
Fire Design
11%
Liquid Pool Fire
11%
Fire Compartment
11%
Comparison with Experimental Data
11%
ISO 9705 Room
11%
Geometrical Features
11%
Building Fire
11%
Firing Range
11%
Release Height
11%
Appropriate Criterion
11%
Correlation Prediction
11%
Image Processing Tools
11%
Digital Camera
11%
External Dimension
11%
Camera Imaging
11%
Fuel Mass
11%
Chemical Engineering
Temperature
100%
Heat Flux
100%
Hexane
100%