A CFD STUDY OF GAS-SOLID FLOW IN CYCLONES WITH A TANGENTIAL SINGLE INLET AND A DIRECT ASYMMETRICAL SPIRAL INLET

机译：切向单入口和不对称螺旋入口的旋流器内气固两相流的CFD研究

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This work presents a computational fluid dynamics (CFD) calculation of gas-solid flow in cyclones with a conventional tangential single inlet (CTSI) and a direct symmetrical spiral inlet (DSSI) which was developed by Zhao et al [1]. The Reynolds stress model (RSM) has been employed to predict the gas flow field and particle paths are calculated with the stochastic Lagrangian model. The calculated grade collection efficiency and pressure drop have reasonable agreement with the experimental data. All results indicate that the DSSI has effect on significantly increasing collection efficiency with insignificantly increasing pressure drop. Compared with the CTSI cyclone, the DSSI cyclone has higher collection efficiency due to larger tangential velocity distribution, less short re-circuiting flow and shorter distance for particles to move to the wall. But the larger tangential velocity distribution lead to a little higher pressure drop of the cyclone with DSSI.

机译：这项工作提出了由传统的切向单入口（CTSI）和直接对称螺旋入口（DSSI）开发的旋风分离器中气固流的计算流体动力学（CFD）计算[1]。使用雷诺应力模型（RSM）来预测气体流场，并使用随机拉格朗日模型来计算颗粒路径。计算得出的品位收集效率和压降与实验数据具有合理的一致性。所有结果表明，DSSI显着提高了收集效率，而压降却没有明显增加。与CTSI旋风分离器相比，DSSI旋风分离器具有更高的切向速度分布，更大的切向速度分布，更少的短循环流量以及更短的颗粒移动到壁面的距离。但是，较大的切向速度分布会导致使用DSSI的旋风分离器的压降略高。

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《ASME international design engineering technical conferences;DETC2009;Computers and information in engineering conference;CIE2009》|2010年|P.311-315|共5页
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Bin Xiong; R. S. Amano; Xiaofeng Lu; Yingfeng Ji;
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中图分类柔性制造系统及柔性制造单元;
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a,b ,B ,D: dimensions of cyclone (mm)D_e,h,H,S; C_D: drag coefficient; d: particle diameter (m); F_D: momentum transport coefficient (t~(-1)); S: acceleration due to gravity (m/s~2);

机译：a，b，B，D：旋风分离器的尺寸（mm）D_e，h，H，S; C_D：阻力系数; d：粒径（m）; F_D：动量传递系数（t〜（-1））; S：重力加速度（m / s〜2）;

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A CFD STUDY OF GAS-SOLID FLOW IN CYCLONES WITH A TANGENTIAL SINGLE INLET AND A DIRECT ASYMMETRICAL SPIRAL INLET

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