HEAT-TRANSFER FROM PULSATING FLOW IN A CHANNEL FILLED WITH POROUS-MEDIA

被引:55
作者
KIM, SY
KANG, BH
HYUN, JM
机构
[1] KOREA ADV INST SCI & TECHNOL,DEPT MECH ENGN,TAEJON 305701,SOUTH KOREA
[2] KOREA ADV INST SCI & TECHNOL,THERMAL FLUIDS ENGN LAB,SEOUL 131,SOUTH KOREA
关键词
D O I
10.1016/0017-9310(94)90304-2
中图分类号
O414.1 [热力学];
学科分类号
摘要
A numerical study is made of heat transfer characteristics from forced pulsating flow in a channel filled with fluid-saturated porous media. The channel walls are assumed to be at uniform temperature. The Brinkman-Forchheimer-extended Darcy model is employed. The time-dependent, two-dimensional governing equations are solved by using finite-volume techniques. Numerical solutions are obtained for quasi-steady periodic states. Flow and temperature fields are examined over ranges of the principal parameters, i.e. the amplitude of flow pulsation A, the pulsation frequency parameter M [=H(omega/2nu)1/2], the Darcy number Da (=K/H-2), the thermal conductivity ratio R(k) (=k(eff)/k), and the heat capacity ratio R(c) {=(rhoC(p))eff/[epsilon(rhoC(p))]}. The impact of pulsation is discernible in the cycle-averaged temperature distribution. In comparison with the case of non-pulsating flow, the presence of flow pulsation brings forth a reduction in heat transfer in the entrance region and an enhancement of heat transfer at moderate downstream regions. Farther downstream, the influence of pulsation is meager. The magnitudes of changes in heat transfer depend upon A, M, Da, R(k), and R(c). The effect of pulsation on heat transfer between the channel wall and the fluid is more pronounced for small M and large A. Explicit influences of Da, R(k), and R(c) on the flow and heat transport characteristics are also scrutinized.
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页码:2025 / 2033
页数:9
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