Numerical Simulation and Experimental Research of Thermal Environment in An Air Conditioning Office

Numerical Simulation and Experimental Research of Thermal Environment in An Air Conditioning Office

Air flow organization and thermal comfort of an air conditioning office were numerically simulated with k-epsiv turbulence model. The finite volume method and SIMPLE arithmetic were adopted to disperse and solve the differential equation. Distribution law of mean age of air, temperature nephogram, v...

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Hauptverfasser: Guanzhong Peng, Xiaoping Miao, Xibin Ma, Wenjie Liu
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Air conditioning
Arithmetic
Computational fluid dynamics
Design optimization
Differential equations
Finite volume methods
Numerical simulation
Temperature distribution
Testing
Velocity measurement
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Beschreibung
Zusammenfassung:Air flow organization and thermal comfort of an air conditioning office were numerically simulated with k-epsiv turbulence model. The finite volume method and SIMPLE arithmetic were adopted to disperse and solve the differential equation. Distribution law of mean age of air, temperature nephogram, velocity nephogram, PMV nephogram and PPD nephogram was studied in this paper. Simulation results indicated that indoor thermal environment was health, comfortable and energy saving etc. Air temperature and speed in office zone were measured by multifunction admeasuring apparatus of TEST0445 type. The agreement between the measured data and the simulated results is quite well. In the design stage of air conditioning, CFD technology provides theoretical basis and scientific guidance for predicting indoor air flow organization, thermal comfort and optimizing design scheme of air conditioning.
ISSN:2151-7614
2151-7622
DOI:10.1109/ICBBE.2009.5163129