多孔介质传热模型在多孔壁湍流中的适用性OA北大核心CSTPCD
Heat transfer models for porous media in porous-walled turbulent flows
为了考查不同的多孔介质传热模型在不同工况下的适用性,对带有高孔隙率多孔介质壁面槽道湍流及其传热进行了直接数值模拟研究.在多孔介质层外流体区域,通过有限差分方法求解不可压缩Navier-Stokes方程和温度对流扩散方程;在多孔介质层内,使用修正的Darcy-Brinkman-Forchheimer模型描述高孔隙率多孔介质阻力,以及分别采用局部热平衡(local thermal equilibrium,LTE)模型、局部非热平衡(local thermal non-equilibrium,LTNE)模型、理想金属(ideal metal foams,IMF)模型计算温度分布.通过对所得热场的统计特性的分析比较,探究了不同Biot数下水和空气两类流体介质的多孔介质传热模型的有效性.研究表明:LTE模型不足以准确预测金属泡沫多孔介质内传热问题,其等效导热系数因仅考虑孔隙率因素而低估了多孔介质层的传热能力;IMF模型在小比热容流体介质的算例中表现良好,可以代替LTNE描述多孔介质层内的传热,而在大比热容流体介质的算例中表现不佳,需要考虑比热容以及流固两相间的传热能力对预估的固体相温度分布进行修正.
In order to evaluate the validity of different heat transfer models in porous media under different conditions,this paper uses direct numerical simulation to investigate turbulent flow and heat transfer in channels with high porosity porous media layer.The incompressible Navier-Stokes equations and the temperature convection-diffusion equation are solved by the finite difference method in the fluid region out of the porous layer.The modified Darcy-Brinkman-Forchheimer model is used to describe the resistance of porous media with high porosity in the porous media layer.The local thermal equilibrium(LTE)model,the local thermal non-equilibrium(LTNE)model,and the ideal metal foams(IMF)model are used to calculate the temperature distribution in the porous media layer,respectively.We explore the effectiveness of heat transfer models for porous media under different Biot numbers and two types of fluid media,i.e.,water or air,by analyzing and comparing the statistical characteristics of the obtained thermal fields.The results show that the LTE model cannot accurately predict the heat transfer problem in the porous media of metal foam,and its equivalent thermal conductivity underestimates the heat transfer capacity of the porous media layer because only the porosity is considered.The IMF model performs well in the case of a fluid medium with small heat capacity and can replace LTNE to describe the heat transfer in porous media.In contrast,it does not perform well in the case of a fluid medium with a large specific heat capacity;it is necessary to consider the heat capacity and the heat transfer ability between the two phases to modify the estimated solid phase temperature distribution.
赵泽灏;张金龙;董宇红
上海大学力学与工程科学学院,上海市应用数学和力学研究所,上海 200072||上海市能源工程力学重点实验室,上海飞行器力学与控制研究院,上海 200072
力学
传热多孔介质壁面槽道湍流直接数值模拟局部热平衡模型
heat transferporous mediaturbulent channeldirect numerical simulationlocal thermal equilibrium model
《空气动力学学报》 2024 (001)
45-54 / 10
国家自然科学基金(12172207,92052201)
评论