The dynamic effect of Micro-MHD convection on bubble grown at a horizontal microelectrode |
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Authors: | Yang Liu Liang-ming Pan Hong-bo Liu |
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Affiliation: | 1. Key Laboratory of Low-grade Energy Utilization Technologies and Systems at Chongqing University, Ministry of Education, Chongqing, 400044, China;2. School of Civil Engineering and Architecture Southwest Petroleum University, Chengdu, 610500, China |
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Abstract: | Relatively low efficiency is the biggest obstacle to the popularization of water electrolysis, which is a particularly feasible way to produce super-pure hydrogen. Imposing a magnetic field can increase the hydrogen production efficiency of water electrolysis. However, the enhancement's detailed mechanism still lacks an insightful understanding of the bubbles' micro vicinity. Our recent work aims to understand why the micro-magnetohydrodynamic (MHD) convection hinders single bubbles' detachment on the microelectrode. A water electrolysis experiment by microelectrode is performed under an electrode-normal magnetic field, and dynamic analysis of the single bubble growing on microelectrodes is performed. The variation of bubble diameter with time in the presence or absence of the magnetic field was measured, and the forces acting on the bubble were quantified. The result shows that the micro-MHD convection, induced by Lorentz force, can give rise to a downward hydrodynamic pressure force that will not appear in large-scale MHD convection. This force can be of the same magnitude as the surface tension, so it dramatically hinders bubbles' detachment. Besides, the Kelvin force provides a new potential way for further improving the efficiency of water electrolysis. |
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Keywords: | Water electrolysis Microelectrode Magnetohydrodynamic convection Force analysis Bubble dynamics |
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