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A single-phase turbulent flow numerical simulation of a cyclonic-static micro bubble flotation column 被引量:7
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作者 Yan Xiaokang Liu Jiongtian +1 位作者 Cao Yijun Wang Lijun 《International Journal of Mining Science and Technology》 2012年第1期95-100,共6页
Improved fluid dynamics can enhance the separation efficiency of flotation methods. A Computational Fluid Dynamics simulation using FLUENT was performed to model the fluid environment of a cyclonic-sta- tic micro bubb... Improved fluid dynamics can enhance the separation efficiency of flotation methods. A Computational Fluid Dynamics simulation using FLUENT was performed to model the fluid environment of a cyclonic-sta- tic micro bubble flotation column. The simulation results visually show the interior flow and illustrate mix- ing of the different flows within the apparatus. An analysis of the distribution in velocity and vorticity was used to analyze the separation mechanism and the synergism of the component parts and to strengthen the design of each unit. The conclusions are that axial back mixing and vortexes still exist in the separation unit even in the presence of packing media. The inverted cone structure near the tangential inlet (cone 1 ) within the cyclonic unit is the main reason for this. The cone 1 structure enhances swirling and focuses energy within the inner area of the cone where there are abundant bubbles. As a result slowly floating minerals are forcibly recovered and railings are effectively separated within this unit. However, cone 1 also reduces the vorticity downstream from it, which reduces the efficiency of railings separation within this part. Therefore, the design of cone 1 should be based on the principles of lessening disturbances to the column unit while strengthening the separation effect of the cyclonic unit. Also, the axial distance between the paired cyclonic structures at the bottom of the column (cone 2) and cone 1 poses tough requirements because of an interaction between separation of the middlings and railings. 展开更多
关键词 Cyclonic-static micro bubble flotationcolumn CFD Flow field Vorticity magnitude Optimization design
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气泡微细化沸腾的沸腾现象与沸腾音特性 被引量:1
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作者 朱光昱 孙立成 唐继国 《核技术》 CAS CSCD 北大核心 2014年第2期17-21,共5页
发生在过渡沸腾区的微细化沸腾(MEB)以其极高的换热能力日益受到学者们的关注。本文通过傅里叶变换得到了MEB沸腾音的幅度谱,结合MEB实验中获得的壁温和相应的视频数据,对幅度谱进行了分析。结果表明:通过幅度谱上的特征,可以判别加热... 发生在过渡沸腾区的微细化沸腾(MEB)以其极高的换热能力日益受到学者们的关注。本文通过傅里叶变换得到了MEB沸腾音的幅度谱,结合MEB实验中获得的壁温和相应的视频数据,对幅度谱进行了分析。结果表明:通过幅度谱上的特征,可以判别加热面上的沸腾模式。在核态沸腾阶段,沸腾现象较微弱,幅度谱波动不明显。在MEB发展阶段,加热面上存在两类沸腾现象,幅度谱以多峰谱为主要特征。当MEB现象显著发生时,幅度谱300–400 Hz范围内会出现一个MEB特征谱峰。该谱峰的形成与气膜生成和破裂周期存在一定关系,过冷度对气膜变化的周期并没有影响。 展开更多
关键词 气泡微细化沸腾(micro—bubble EMISSION BOILING MEB) 傅里叶变换 幅度谱 气膜
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