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A zero-equation turbulence model for indoor airflow simulation
Qingyan Chen
, Weiran Xu
Department of Building Environment and Energy Engineering
Research output
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Journal article publication
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Journal article
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Academic research
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peer-review
354
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Keyphrases
Equation Model
100%
Indoor Airflow
100%
Computing Time
100%
Air Flow Simulation
100%
Zero Equation
100%
Zero-equation Turbulence Model
100%
Computational Fluid Dynamics
50%
Air Temperature
50%
Numerical Simulation
50%
Mixed Convection
50%
Grid Size
50%
Forced Convection
50%
Mean Velocity
50%
Model Use
50%
Natural Convection
50%
Temperature Concentration
50%
Three-dimensional Case
50%
Computer Memory
50%
Displacement Ventilation
50%
Local Mean
50%
Air Velocity
50%
Three-dimensional Distribution
50%
Air Contaminants
50%
Room Airflow
50%
Computing Speed
50%
Contaminant Concentration
50%
Turbulent Viscosity
50%
Popular
50%
Engineering
Equation Model
100%
Computing Time
100%
Equation Turbulence Model
100%
Air Flow
100%
Computational Fluid Dynamics
50%
Length Scale
50%
Air Velocity
50%
Mixed Convection
50%
Computer Memory
50%
Displacement Ventilation
50%
Local Mean
50%
Air Contaminant
50%
Dimensional Case
50%
Room Airflow
50%
Contaminant Concentration
50%
Forced Convection
50%
Natural Convection
50%
Dimensional Distribution
50%
Fluid Viscosity
50%