Developing mass transfer for annular swirling decaying flow induced by means of a tangential inlet

P. Legentilhomme, H. Aouabed, J. Legrand
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引用次数: 23

Abstract

Mass transfer between an electrolyte and the inner core of an annular cell fitted with a tangential inlet is experimentally investigated using an electrochemical method. Attention is focused on the influence of the electrode length and position with respect to the tangential inlet to take into account both the development of the hydrodynamic and concentration boundary layers. According to the value of the ratio of the gap width e, to the inlet diameter Φe, two kinds of swirling motion are studied: pure swirl flow for e = Φe and contraction swirl flow when Φe >e. Depending on the geometric factors and the Reynolds number, enhancement in mass transfer of up to 550% is achieved in comparison with that obtained for fully developed axial flow. Two general correlations of the experimental data, taking into account the aforementioned parameters, are proposed for laminar and turbulent swirling flows.

切向进气道诱导环形旋涡衰减流的发展传质
用电化学方法研究了带切向入口的环形电池内芯与电解液之间的传质问题。考虑到流体动力学和浓度边界层的发展,重点关注电极长度和位置相对于切向入口的影响。根据间隙宽度e与进口直径Φe之比的值,研究了两种旋流运动:e = Φe时的纯旋流和Φe >e时的收缩旋流。根据几何因素和雷诺数的不同,与完全发展的轴向流相比,传质增强可达550%。考虑上述参数,提出了层流和湍流旋流实验数据的两种一般关系式。
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