Simulation of zero axial velocity surface distribution in cylindrical cyclone separator

doi:10.3969/j.issn.0438-1157.2013.09.023

Abstract

Abstract: Reynolds stress model was used to simulate zero axial velocity surface of gas phase flow field in cylindrical cyclone separator.The effects of rotational flow instability,inlet velocity and structural parameters such as inlet area and vortex finder diameter on the distribution of zero axial velocity surfaces were studied.The results show that zero axial velocity boundaries exhibit contorted state in the whole separated space due to the inherent existence of rotational flow instability.In the velocity range studied,the flow field is in mould area and the separator is in kinematic similarity,so the inlet velocity has little effect on zero axial velocity boundaries.Vortex finder diameter and inlet area have significant effects on zero axial velocity boundary around the vortex finder entrance.With the decrease of vortex finder diameter and increase of inlet area,zero axial velocity boundary shrinks gradually.Far away from the vortex finder entrance,the effect of vortex finder diameter and inlet area abates and the width of zero axial velocity boundary increases gradually and trends are similar.The separator with specific vortex finder diameter and inlet area that make the flow field stable can make zero axial velocity boundary of cross section keep preferable circular degree.Simulation results can provide reference on separation mechanism research and structure optimization of separator.

Key words: cyclone separator, axial velocity, zero axial velocity surface, numerical simulation

摘要： 采用雷诺应力模型对柱状旋流分离器气相流场中的零轴速包络面分布进行了数值模拟分析,考察了旋流不稳定性、流速以及结构参数变化对其分布的影响。指出由于分离器旋转流动不稳定性的固有存在,零轴速边界在整个分离空间会呈非轴对称的扭曲状态;在研究速度范围内,流场处于自模化区,分离器运动相似,入口速度变化对零轴速边界的分布影响不大;升气管直径与入口面积对升气管入口区域的零轴速边界分布影响较大,随升气管直径的减小和入口面积的增大,零轴速边界逐渐收缩。远离升气管入口区域,升气管直径与入口面积的影响减弱,零轴速边界宽度逐渐增大,并趋于一致;使流场趋于稳定的升气管直径与入口面积,截面零轴速边界会保持较好的圆度。

关键词: 旋流分离器, 轴向速度, 零轴速包络面, 数值模拟

CLC Number:

TQ051.8

CHEN Jianlei, HE Limin, LUO Xiaoming, WANG Xin, WANG Liman, YANG Donghai. Simulation of zero axial velocity surface distribution in cylindrical cyclone separator[J]. CIESC Journal, 2013, 64(9): 3241-3249.

陈建磊, 何利民, 罗小明, 王鑫, 王立满, 杨东海. 柱状旋流分离器零轴速面分布特性模拟分析[J]. 化工学报, 2013, 64(9): 3241-3249.

References 19

[1]	Wu Xiaolin(吴小林),Xiong Zhiyi(熊至宜),Ji Zhongli(姬忠礼).Gas-liquid separation performance of cyclone separator for purification of natural gas[J].CIESC Journal(化工学报),2010,61(9):2430-2436
[2]	Wang Zhenbo(王振波),Ma Yi(马艺),Jin Youhai(金有海).Droplet coalescence and breakup and its influence factors in vane-guided hydrocyclone[J].CIESC Journal(化工学报),2011,62(2):399-406
[3]	Jin Xianghong(金向红),Jin Youhai(金有海),Wang Jianjun(王建军).Numerical simulation on breakup and collision of droplet in gas-liquid cyclone separator[J].Journal of China University of Petroleum(中国石油大学学报:自然科学版),2010,34(5):114-120
[4]	Wang Zunce(王尊策),Cui Hang(崔航),Li Sen(李森),Xu Yan(徐艳),Zhang Jinglong(张井龙).Numerical study of down-hole spiral gas liquid separators[J].Science Technology and Engineering(科学技术与工程),2010,10(6):1358-1371
[5]	Zhou Guoyan(周帼彦),Ling Xiang(凌祥),Tu Shandong(涂善东).Numerical simulation and experimental study on separating performance in spiral separator[J].Journal of Chemical Industry and Engineering(China)(化工学报),2004, 55(11):1821-1826
[6]	Xu Weiwei(许伟伟),Ma Yanjie(马艳杰),Wang Jianjun(王建军),Jin Youhai(金有海).The optimization of slotted vortex finder in PSC cyclone tube based on flow field control[J].Journal of Chemical Engineering of Chinese Universities(高校化学工程学报),2010,24(3):523-527
[7]	Jin Youhai(金有海),Ma Yanjie(马艳杰),Xu Weiwei(许伟伟),Wang Jianjun(王建军).Numerical simulation of effects of vortex finder on gas phase flow in cyclone with guide finder flow in cyclone with guide finder[J].Journal of China University of Petroleum(中国石油大学学报:自然科学版),2009,33(6):87-90
[8]	Wu Xiaolin(吴小林),Wang Hongju(王红菊),Yan Chaoyu(严超宇),Shi Mingxian(时铭显).Effect of installation of sticks for stabilizing vortex on restraining PVC in a cyclone separator[J].Journal of the University of Petroleum China(石油大学学报:自然科学版),2001,25(3):68-71
[9]	Zhao B,Su Y,Zhang J.Simulation of gas flow pattern and separation efficiency in cyclone with conventional single and spiral double inlet configuration[J].Chemical Engineering Research and Design,2006,84(12):1158-1165
[10]	Yoshida H,Yoshikawa S,Fukui K,Yamamoto T.Effect of multi-inlet flow on particle classification performance of hydro-cyclones[J].Powder Technology,2008,184(3):352-360
[11]	Gao Cuizhi(高翠芝),Sun Guogang(孙国刚),Dong Ruiqian(董瑞倩).Effect of vortex finder on axial velocity distribution patterns in cyclones[J].CIESC Journal(化工学报),2010,61(9):2409-2416
[12]	Peng W,Hoffmann A C,Boot P J A J,Udding A,Dries H W A,Ekker A,Kater J.Flow pattern in reverse-flow centrifugal separators[J].Powder Technology,2002,127(3):212-222
[13]	Wang Haigang(王海刚),Liu Shi(刘石).Application and comparison of different turbulence models in the three-dimensional numerical simulation of cyclone separators[J].Journal of Engineering Thermal Energy and Power(热能动力工程),2003,18(4):337-342
[14]	Wang B,Chu K W,Yu A B.Numerical study of particle fluid flow in a hydrocyclone[J].Ind. Eng. Chem. Res.,2007,46:4695-4705
[15]	Jin Xianghong(金向红),Jin Youhai(金有海),Wang Jianjun(王建军),Wang Zhenbo(王振波).Numerical simulation of gas-phase flow field in an axial flow type gas-liquid cyclone separator[J].Journal of Chemical Engineering of Chinese Universities(高校化学工程学报),2009,23(5):748-755
[16]	Slack M D,Prasad R O,Bakker A,Boysan F.Advances in cyclone modelling using unstructured grids[J].Chemical Engineering Research and Design,2000,78(8):1098-1104
[17]	Song Jianfei(宋健斐),Wei Yaodong(魏耀东),Shi Mingxian(时铭显).Analysis of asymmetry of gas-phase flow field in volute cyclone[J].Journal of Chemical Industry and Engineering(China)(化工学报),2007,58(5):1091-1096
[18]	Song Jianfei(宋健斐),Wei Yaodong(魏耀东),Shi Mingxian(时铭显).Asymmetry of gas-phase flow field in cyclone separator[J].Journal of Chemical Industry and Engineering(China)(化工学报),2005,56(8):1397-1402
[19]	Song Jianfei(宋健斐),Yang Guangfu(杨光福),Chen Jianyi(陈建义),Wei Yaodong(魏耀东).Similarity analysis of modeling of gas phase flow field in cyclone separator(Ⅱ):Size parameters[J].CIESC Journal(化工学报),2010,61(9):2274-2279