3-D Simulations of Indoor Airflow and Temperature Field with a Radiative and Convective Heater - Groupe de Recherche en Sciences Pour l'Ingénieur - EA 4694
Article Dans Une Revue Journal of Applied Fluid Mechanics Année : 2016

3-D Simulations of Indoor Airflow and Temperature Field with a Radiative and Convective Heater

Résumé

Thermal comfort in buildings is an important property for the quality of indoor environments, but also for the quantity of energy to be supplied by heating equipment. It is therefore important to understand and control the heat exchanges that come into play in the electric heaters. The electric heaters transfer their energy to the environment by convection and radiation. This paper presents a 3D numerical study of turbulent and steady airflow, in a living space (width 3.4m, 4.5m length and 2.6m height). The influence of the electric heater position in the room will be reviewed to improve the thermal comfort and energy performance of the system. Transport equations of mass, momentum and energy are solved numerically using the finite volume method. Also, the radiative heat exchanges between surfaces are considered.
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hal-03354509 , version 1 (21-09-2024)

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Cédric Hemmer, Felix Convert, Catalin Popa, Guillaume Polidori. 3-D Simulations of Indoor Airflow and Temperature Field with a Radiative and Convective Heater. Journal of Applied Fluid Mechanics, 2016, 9 (SI2), ⟨10.36884/jafm.9.SI2.25788⟩. ⟨hal-03354509⟩
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