Numerical Investigation of Laminar Convective Heat Transfer in Parallel Channel with One Moving Boundary
Zhang Dongsheng,Wang Qiuwang,Tao Wenquan
(School of Energy and Power Engineering,Xi'an Jiaotong University,Xi'an 710049,China)

Abstract: A method is presented in detail that can be used to solve the fluid flow and heat transfer in parallel channel with one moving boundary. The primitive variables formulation was adopted and a nonstaggered body-fitted grid system was used with Cartesian velocity components used as the primary unkowns in the momentum equations. The well-known SIMPLE algorithm is employed to handle the velocity-pressure coupling. The results show that the moving boudª²nary has great effects on the wall convective heat transfer. Both the moving period and amplitude affect the heat tranfer rate of the side walls to some extent. However, in a given time period, the moving amplitude greatly affects the heat transfer amount while the Strouhal number only has a little influence on it. It is also found that the heat fluxes of the two walls increase because of the behavier of the moving boundary.
Keywords: moving boundary;moving amplitude;moving period;numerical simulation