Numerical Simulation on Refrigerant Flow Maldistribution in 6-pass 40-tube Microchannel Condenser
The header and the multiple microchannel tubes connected to the header compose a complicated fluid network with several circuits, and the refrigerant flow into the header and is distributed to the microchannels in parallel by the refrigerant pressure driving in the inlet.So all changed details of geometry, operating conditions and thermophysical properties of the fluids lead to uniform refrigerant flow distribution in the microchannels.In the present work, one 6-pass 40-tube microchannel condenser as the research objective was equipped in a window type air conditioner prototype with the cooling capacity 5200W for Middle East T3 climate.A mathematical model based on fluid network theory was developed to predict flow distribution and phase separation in 9 flat tubes and their connecting headers on the second pass of the microchannel condenser.In the assumption of homogeneous flow, the mesh current analysis was employed to solve the mass flow of the loopi+1 by that of the loopi upon two phase pressure drop.The simulated mass flow rate distribution in 9 tubes is parabolic and approaches to even distribution when inlet quality comes to the median 0.45 from both directions.
phase separation flow maldistribution two-phase flow microchannel condenser
Hongliang Lu Xiaolong Xue Xiaoying Tang Jianxun Ding Xuefeng Geng Xiaomin Liu
Shanghai Institute of Special Equipment Inspection and Technical Research,Shanghai,200333
国际会议
2014 International Symposium on Structural Integrity,ISSI2014(2014国际结构完整性学术会议)
兰州
英文
281-286
2014-08-20(万方平台首次上网日期,不代表论文的发表时间)