1 |
ZHAO Bingtao,WANG Dongshen,SU Yaxin,et al.Gas-particle cyclonic separation dynamics: modeling and characterization[J].Separation & Purification Reviews,2018,120:1-11.
|
2 |
刘洪斌,张进,肖慧娜,等.固相颗粒在旋流场形成过程中的运动分析[J].化工进展,2019,38(3):1236-1243.
|
|
LIU Hongbin,ZHANG Jin,XIAO Huina,et al.Movement analysis of solid particles during the formation of swirl field[J].Chemical Industry and Engineering Progress,2019,38(3):1236-1243.
|
3 |
张梓均,赵兵涛,王大淇,等.微型多进口旋流器内气流形态的数值模拟[J].化学工程,2018,46(8):65-69.
|
|
ZHANG Zijun,ZHAO Bingtao,WANG Daqi,et al.Numerical simulation of the gas phase flow in the small-scale cyclonic reactor with multi-inlet[J].Chemical Engineering,2018,46(8):65-69.
|
4 |
孙国刚,时铭显.提高旋风分离器捕集细粉效率的技术研究进展[J].现代化工,2008,28(7):64-69.
|
|
SUN Guogang,SHI Mingxian.Progress in improving removal efficiency of gas cyclones for fine particles[J].Modern Chemical Industry,2008,28(7):64-69.
|
5 |
袁惠新,方勇,付双成,等.旋流器的微米级颗粒分级性能分析[J].化工进展,2017,36(12):4371-4377.
|
|
YUAN Huixin,FANG Yong,FU Shuangcheng,et al.Analysis of the classification performance of micron particles with hydrocyclones[J].Chemical Industry and Engineering Progress,2017,36(12):4371-4377.
|
6 |
ENDRES E,DUECK J,NEESSE T.Hydrocyclone classification of particles in the micron range[J].Minerals Engineering,2012,31:42-45.
|
7 |
阮兵,李兴华,谢岩,等.PM2.5旋风切割器的性能测试与模拟[J].环境科学学报,2018,38(7):2811-2817.
|
|
RUAN Bing,LI Xinghua,XIE Yan,et al.Performance testing and modeling of PM2.5 cyclones[J].Acta Scientiae Circumstantiae,2018,38(7):2811-2817.
|
8 |
狄文静,张增福,马艺闻,等.PM2.5细颗粒物分离技术的数值模拟和性能改进[J].纳米技术与精密工程,2014,12(4):263-268.
|
|
DI Wenjing,ZHANG Zengfu,MA Yiwen,et al.Numerical modeling and performance improvement for PM2.5 separating technology[J].Nanotechnology and Precision Engineering,2014,12(4):263-268.
|
9 |
陈强,刘佳,邓元臣,等.高岭土使用直径10mm水力旋流器超细分级的研究[J].非金属矿,2011,6(24):29-31.
|
|
CHEN Qiang,LIU Jia,DENG Yuanchen,et al.Research on kaolin ultrafne classifcation byΦ10mm hydrocyclone[J].Non-Metallic Mines,2011,6(24):29-31.
|
10 |
ZHU Guofeng,LIOW J,ANDREW N.Computational study of the flow characteristics and separation efficiency in a mini-hydrocyclone[J].Chemical Engineering Research and Design,2012,90(12):2135-2147.
|
11 |
李丹,马贵阳,杜明俊,等.基于离散相模型的旋风分离器内部流场数值研究[J].流体机械,2011,39(9):21-25.
|
|
LI Dan,MA Guiyang,DU Mingjun,et al.Numerical study for flow field in a cyclone separator based on the discrete phase model[J].Fluid Mechinery,2011,39(9):21-25.
|
12 |
高助威,王娟,王江云,等.基于DPM模型的旋风分离器内颗粒浓度场模拟分析[J].石油学报(石油加工),2018,34(3):81-88.
|
|
GAO Zhuwei,WANG Juan,WANG Jiangyun,et al.Simulation analysis of particle concentration of cyclone separator using the DPM model[J].Acta Petrolei Sinica(Petoleum Processing Section),2018,34(3):81-88.
|
13 |
CHU K,WANG B,XU D,et al.CFD-DEM simulation of the gas-solid flow in a cyclone separator[J].Chemical Engineering Science,2011,66(5):834-847.
|
14 |
KHAROUA N,KHEZZAR L,NEMOUCHI Z.Study of the pressure drop and flow field in standard gas cyclone models using the granular model[J].International Journal of Chemical Engineering,2011,2011:791218.
|
15 |
刘霞,杨先海,李倩.基于Fluent废塑料薄膜旋风分离过程的研究[J].工业安全与环保,2016,42(1):38-41.
|
|
LIU Xia,YANG Xianhai,LI Qian.Research on waste plastic membrane separation in the cyclone based on Fluent[J].Industrial Safe and Evironmenta Protection,2016,42(1):38-41.
|
16 |
QIAN F,HUANG Z,CHEN G,et al.Numerical study of the separation characteristics in a cyclone of different inlet particle concentrations[J].Computers & Chemical Engineering,2007,31(9):1111-1122.
|
17 |
SOMMERFELD M,HO C.Numerical calculation of particle transport in turbulent wall bounded flows[J].Powder Technology,2003,131(1):1-6.
|
18 |
武生智,任春勇.基于欧拉双流体模型的风沙运动模拟[J].兰州大学学报(自然科学版),2012,48(1):104-107.
|
|
WU Shengzhi,REN Chunyong.Numerical simulation of wind blown sand based on the Eulerian model[J].Journal of Lanzhou University (Natural Sciences),2012,48(1):104-107.
|
19 |
YOUNG G,WAKLEY W,TAGGART D,et al.Oil-water separation using hydrocyclones: an experimental search for optimum dimensions[J].Journal of Petroleum Science & Engineering,1994,11(1):37-50.
|
20 |
YUU S,JOTAKI T,TOMITA Y,et al.The reduction of pressure drop due to dust loading in a conventional cyclone[J].Chemical Engineering Science,1978,33(12):1573-1580.
|
21 |
张晓华.颗粒物性参数对旋风分离器性能影响的试验研究[J].流体机械,2009,37(12):1-4.
|
|
ZHANG Xiaohua.Experimental research of cyclone separator performance influence of properties of granule matter[J].Fluid Machinery,2009,37(12):1-4.
|
22 |
金向红,金有海,王建军,等.气液旋流器的分离性能[J].中国石油大学学报(自然科学版),2009,33(5):124-129.
|
|
JIN Xianghong,JIN Youhai,WANG Jianjun,et al.Separation performance of gas-liquid cyclone separator[J].Journal of China University of Petroleum,2009,33(5):124-129.
|
23 |
罗晓兰,陈建义,金有海,等.入口含尘浓度对PV型旋风分离器分离效率的影响及其计算方法[J].石油大学学报(自然科学版),1998,22(3):63-66.
|
|
LUO Xiaolan,CHEN Jianyi,JIN Youhai,et al.Effect of the inlet solid loading on separation efficiency of PV type cyclone separators and it’s calculation method[J].Journal of the University of Petroleum,1998,22(3):63 -66.
|
24 |
李晓曼,宋健斐,孙国刚,等.入口含尘浓度变化对不同排气管结构PV型旋风分离器分离效率的影响[J].石油炼制与化工,2015,46(10):28-33.
|
|
LI Xiaoman,SONG Jianpei,SUN Guogang,et al.Study of effect of feed dust concentration on separation efficiency of PV type cyclone with different exit tubes[J].Petroleum Processing and Petrochemicals,2015,46(10):28-33.
|
25 |
陈建义,罗晓兰,时铭显.含尘条件下PV型旋风分离器压降的计算[J].石油化工设备技术,1997(4):1-3.
|
|
CHEN Jianyi,LUO Xiaolan,SHI Mingxian.Presure drop calculation of PV type cyclone under dust-bearing condition[J].Petro-Chemical Equipment Technology,1997(4):1-3.
|
26 |
FASSANI F,GOLDSTEIN L.A study of the effect of high inlet solids loading on a cyclone separator pressure drop and collection efficiency[J].Powder Technology,2000,107(1):60-65.
|
27 |
WU Xuezhi,LIU Jie,XU Xiang,et al.Modeling and experimental validation on pressure drop in a reverse-flow cyclone separator at high inlet solid loading[J].Journal of Thermal Science,2011,20(4):343-348.
|
28 |
GIL A,ROMEO L M,CORTÉS C.Effect of the solid loading on a PFBC cyclone with pneumatic extraction of solids[J].Chemical Engineering & Technology,2015,25(4):407-415.
|
29 |
TREFZ M,MUSCHELKNAUTZ E.Extended cyclone theory for gas flows with high solids concentration[J].Chemical Engineering & Technology,1993,16(3):153-160.
|
30 |
ZHU Y F,LEE K W.Experimental study on small cyclones operating at high flowrates[J].Journal of Aerosol Science,1999,30(10):1303-1315.
|