Experimental investigation on the thermal-hydraulic performance of channel with gradient metal foam baffles

IF 1.2 Q3 ENGINEERING, MECHANICAL FME Transactions Pub Date : 2023-01-01 DOI:10.5937/fme2301014f
Karrar Fadhala, Ekhlas M. Fayyadh, Ali S. Mohammed
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Abstract

Metal foam is a novel material recently utilized in baffles as an alternative to solid baffles for reducing flow resistance. However, the metal foam baffles are accompanied by low heat transfer efficiency. To overcome this issue, a new design of copper foam baffles has been suggested in this research, called baffles having a gradient pore density of the copper foam. The pore density either increases or decreases towards the wall. So, the experimental tests were carried out in a square channel and heated uniformly at the bottom wall of the test section. Its walls are mounted copper foam baffles at a fixed porosity of 95%. Baffles were alternately fixed upon the walls' bottom and top in staggered mode. The results were determined for various kinds of copper foam (10 and 20) pores per inch (PPI), and the gradient pore density was either with the order decreasing (DPPI) 10/20 PPI or increasing (IPPI) 20/10 PPI with a window cut ratio of 25% and a constant heat flux of 4.4 kW/m2 . The Reynolds number was changed from 3.8x104 to 5.4x104 . The data for conventional copper solid baffles were used to compare the influence of foam metal type. The obtained results revealed an enhancement in thermohydraulic performance for baffles with a gradient pore density of the order decreasing DPPI (10/20 PPI) higher than all the models of copper foam baffles.
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梯度金属泡沫挡板通道热工性能试验研究
金属泡沫是一种新型材料,最近用于挡板作为固体挡板的替代品,以减少流动阻力。然而,金属泡沫折流板的传热效率较低。为了克服这一问题,本研究提出了一种新的泡沫铜挡板设计,称为泡沫铜梯度孔密度挡板。孔密度沿壁面增大或减小。因此,实验试验在方形通道内进行,并在试验段底壁进行均匀加热。它的墙壁安装了铜泡沫挡板,固定孔隙率为95%。挡板以交错的方式交替地固定在墙壁的底部和顶部。结果表明,在切窗率为25%、热流密度为4.4 kW/m2的条件下,不同类型泡沫铜(10孔/英寸和20孔/英寸)的梯度孔密度依次为递减(DPPI) 10/20 PPI或递增(IPPI) 20/10 PPI。雷诺数由3.8x104变为5.4x104。采用传统铜固体挡板的数据,比较了泡沫金属类型对挡板性能的影响。研究结果表明,孔径密度呈递减顺序的梯度梯度挡板的热水力性能比所有泡沫铜挡板的DPPI (10/20 PPI)都要高。
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来源期刊
FME Transactions
FME Transactions ENGINEERING, MECHANICAL-
CiteScore
3.60
自引率
31.20%
发文量
24
审稿时长
12 weeks
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