Publication | Closed Access
Large Eddy Simulation of Natural and Mixed Convection Airflow Indoors with Two Simple Filtered Dynamic Subgrid Scale Models
47
Citations
7
References
2000
Year
AeroacousticsEngineeringFluid MechanicsTurbulenceAir TemperatureMixed ConvectionNumerical SimulationHomogeneous DirectionModeling And SimulationNatural ConvectionLarge Eddy SimulationIndoor AirflowMultiphase FlowIndoor ClimateAerospace EngineeringTurbulent Flow Heat TransferSubgrid ModelsTurbulence ModelingAerodynamicsIndoor Air QualityMultiscale Modeling
Abstract Large eddy simulation (LES) with a dynamic subgrid-scale model (DSM) is a powerful tool to predict indoor airflow. Some DSM models need to average the model coefficient over a homogeneous direction or need to use an additional parameter. The others are too complicated. This study proposes a simple filtered dynamic subgrid-scale model (FDSM) for indoor flow without a homogeneous direction. The predicted air velocity, air temperature, and turbulence distributions agree reasonably well with the experimental data. The results show that the FDSM can be used to simulate indoor airflow.
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