tailieunhanh - The effect of boundary conditions on the efficiency of heat or contaminant removal from a ventilated room
This paper presents numerical simulations of the convection and diffusion of heat or a contaminant released from a source in a ventilated two-dimensional room with one inlet and one or two outlets. Besides the influential factors on the air flow characteristic such as the Reynolds number (Re) and Grashof number (Gr) as well as the geometrical arrangement of the inlet. | Vietnam Journal of Mechanics, VAST, Vol. 37, No. 2 (2015), pp. 133 – 144 DOI: THE EFFECT OF BOUNDARY CONDITIONS ON THE EFFICIENCY OF HEAT OR CONTAMINANT REMOVAL FROM A VENTILATED ROOM T. V. Tran∗ , N. T. Thuy VNU University of Science, Hanoi, Vietnam ∗ E-mail: trantv@ Received November 26, 2014 Abstract. This paper presents numerical simulations of the convection and diffusion of heat or a contaminant released from a source in a ventilated two-dimensional room with one inlet and one or two outlets. Besides the influential factors on the air flow characteristic such as the Reynolds number (Re) and Grashof number (Gr) as well as the geometrical arrangement of the inlet and outlets, the effect of imposing boundary conditions particularly the condition at the outlet upon the air flow is studied numerically in this paper. By imposing an adequate condition for heat/contaminant on the outlet, the steady and near steady solutions of the problem are firstly computed. These solutions allow to evaluate the removal efficiency as well as show the different influence of the zero-value condition from that of the zero-flux one on the air flow characteristic. As shown in this paper, these two boundary conditions have quite different effects on the heat/mass transfer capability of the air flow. Keywords: Boundary condition, removal efficiency, steady, nearsteady solution, flux in, flux out. 1. INTRODUCTION Study of the air flow caused by natural convection or ventilation or both at the same time in enclosed spaces has theoretical interest and practical applications. From theoretical aspect it is interesting to predict what kind of the air motion in the room will be occurred and how much heat or contaminant is removed from the enclosed space depending on the ventilation rate, the intensity and the location of heat or contaminant sources within the enclosure as well as the location of inlets and outlets on the walls. Good knowledge of such .
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