稀土电解槽阳极缺陷间距对气泡运动影响的数值模拟研究
Numerical simulation on the effect of anode defect spacing on bubble movement in rare earth electrolytic cell
李友森 1赵增武 2白庆伟 2武文斐1
作者信息
- 1. 内蒙古科技大学能源与环境学院,内蒙古包头 014010
- 2. 内蒙古科技大学材料科学与工程学院,内蒙古包头 014010
- 折叠
摘要
为研究电解阳极表面缺陷对气泡生长的影响,以竖插阳极为研究对象、建立阳极表面电场-气泡生长运动耦合模型,建立VOF模型和Species Transport模型,实现气液之间的传质,分析了电解质主流速度为 0.125 m/s时阳极缺陷间距对气泡生长的影响.研究表明:当阳极缺陷间距为0.2 mm时,气泡脱离时间为0.42267 s,脱离直径为0.967 mm;阳极缺陷间距为0.5 mm时,气泡脱离时间为0.39682 s,脱离直径为 0.939 mm;当阳极缺陷间距为1mm时,气泡脱离时间为0.13706 s,脱离直径为0.428 mm.缺陷间距为0.2 mm和0.5 mm时,气泡之间易发生聚并;缺陷间距为1mm时,气泡之间不易发生聚并,单个气泡易发生脱离,同时气泡脱离会带动相邻气泡的脱离,使得相邻气泡的脱离时间和脱离直径缩小.研究成果对电极的处理以及电解槽的设计优化具有一定指导意义.
Abstract
To study the influence of the electrolytic anode surface defects on bubble growth,a coupling model of anode surface electric field and bubble growth motion was established with vertical anode as the research object,and then the VOF model and Species Trans-port model were established to realize the mass transfer between gas and liquid.Thus,the effect of anode defect spacing on bubble growth was analyzed at a electrolyte mainstream velocity of 0.125 m/s.The results show that when the spacing of anode defects is 0.2 mm,the bubble detachment time is 0.42267 s and the detachment diameter is 0.967 mm;when the spacing between anode de-fects is 0.5 mm,the bubble disconnection time is 0.39682 s,the disconnection diameter being 0.939 mm;when the defect spacing of positive anode is 1 mm,the bubble detachment time is 0.13706 s,the detachment diameter being 0.428 mm;when the spacing be-tween defects is 0.2 mm and 0.5 mm,the bubbles are prone to coalescence;and when the defect spacing is 1 mm,coalescence be-tween bubbles is not easy to occur,and a single bubble is easy to disunite.Meanwhile,the disconnection of bubbles will drive the dis-connection of adjacent bubbles,making the disconnection time and disconnection diameter of adjacent bubbles shrink.The research re-sults have certain guiding significance for the treatment of electrode and the design and optimization of the electrolytic cell.
关键词
气泡运动/缺陷间距/气液两相流/数值模拟Key words
bubble movement/defect spacing/gas-liquid two-phase flow/numerical simulation引用本文复制引用
基金项目
国家重点研发计划项目(2020YFC1909102)
2022年度自治区直属高校基本科研业务费项目()
出版年
2024
NETL
NSTL
万方数据