DEM simulation of influence of parameters on energy and degree of mixing 被引量：4

DEM simulation of influence of parameters on energy and degree of mixing

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摘要 Powder mixing is being modeled using a simulation based on Newtonian mechanics. Variables under consideration include particle friction and the amplitude, frequency, and direction of shaking. Trajectories for each particle were recorded, and a mixing degree was calculated for each simulation, for which the average energy transferred into the powder system was recorded and compared to the resulting mixing degree. Mixing of particles originally located near the bottom was studied separately, as was the mixing of particles near the surface. This study shows that choosing the proper mixing parameters not only enhances the final result of mixing, but also yields good results with less strain on the material mixed and on the mixing device. Powder mixing is being modeled using a simulation based on Newtonian mechanics. Variables under consideration include particle friction and the amplitude, frequency, and direction of shaking. Trajectories for each particle were recorded, and a mixing degree was calculated for each simulation, for which the average energy transferred into the powder system was recorded and compared to the resulting mixing degree. Mixing of particles originally located near the bottom was studied separately, as was the mixing of particles near the surface. This study shows that choosing the proper mixing parameters not only enhances the final result of mixing, but also yields good results with less strain on the material mixed and on the mixing device.

作者 Simo Siiri Jouko Yliruusi

机构地区 Division of Pharmaceutical Technology

出处《Particuology》 SCIE EI CAS CSCD 2011年第4期406-413,共8页 颗粒学报（英文版）

关键词 Simulation Mixing Mixing degree Energy Simulation Mixing Mixing degree Energy

分类号 TQ027.1 [化学工程]

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参考文献2

1Paul W. Cleary,Matthew D. Sinnott.Assessing mixing characteristics of particle-mixing and granulation devices[J].Particuology,2008,6(6):419-444. 被引量：13
2Paul W. Cleary.DEM prediction of industrial and geophysical particle flows[J].Particuology,2010,8(2):106-118. 被引量：36

二级参考文献48

1Williams, J. R., & Pentland, A. (1992). Super-quadrics and modal dynamics for discrete elements in interactive design. International Journal of Computer-Aided Engineering--Engineering Computations, 9, 115-127.
2Barker, G. C. (1994). Computer simulations of granular materials. In A. Mehta (Ed.), Granular matter: An interdisciplinary approach (pp. 35-83). NY: Springer-Verlag.
3Campbell, C. S. (1990). Rapid granular flows. Annual Review of Fluid Mechanics, 22. 57-90.
4Campbell, C. S., Cleary, P. W., & Hopkins, M. (1995). Large scale landslide simulations: Global deformation, velocities and basal friction.Journal of Geophysical Research, 100, 8267-8283.
5Cleary, P. W. (1998a). Discrete element modelling of industrial granular flow applications. TASK Quarterly: Scientific Bulletin, 2, 385-416.
6Cleary, P. W. (1998b). Predicting charge motion, power draw, segregation, wear and particle breakage in ball mills using discrete element methods. Minerals Engineering, 11, 1061-1080.
7Cleary, P. W. (1998c). The filling of dragline buckets. Mathematical Engineering in Industry, 7, 1-24.
8Cleary, P. W. (2000). DEM simulation of industrial particle flows: Case studies of dragline excavators, mixing in tumblers and centrifugal mills. Powder Technology, 109, 83-104.
9Cleary P. W. (2001a). Charge behaviour and power consumption in ball mills: Sensitivity to mill operating conditions, liner geometry and charge composition. International Journal of Minerals Processing, 63, 79-114.
10Cleary, P. W. (2001b). Recent advances in DEM modelling of tumbling mills. Minerals Engneering, 14, 1295-1319.

共引文献46

1Liu Chusheng,Wang Hong,Zhao Yuemin,Zhao Lala,Dong Hailin.DEM simulation of particle flow on a single deck banana screen[J].International Journal of Mining Science and Technology,2013,23(2):277-281. 被引量：13
2殷亮,蒋军成.A类颗粒流化床特性的DEM-CFD模拟[J].化学反应工程与工艺,2010,26(5):411-417. 被引量：1
3张立栋,朱明亮,李少华,邓杰文,马金博,王丽伟,王擎.回转干馏炉内二组元颗粒混合机理及混合度分析[J].化工进展,2011,30(11):2382-2387. 被引量：12
4宋伟刚,王天夫.散状物料转载系统设计DEM仿真方法的研究[J].工程设计学报,2011,18(6):428-436. 被引量：57
5Zhao Lala,Zhao Yuemin,Liu Chusheng,Li Jun,Dong Hailin.Simulation of the screening process on a circularly vibrating screen using 3D-DEM[J].Mining Science and Technology,2011,21(5):677-680. 被引量：14
6杜欣,曾亚武,高睿,颜敬,曹源.用离散元方法研究颗粒外形对摩擦机理的影响[J].西南交通大学学报,2012,47(2):252-257. 被引量：11
7李艳洁,刘翼晨,林剑辉,徐泳.圆锥指数仪贯入沙土过程的三维离散元法模拟[J].农业机械学报,2012,43(7):63-68. 被引量：11
8程晟.离散元法在机械工程应用中的现状分析[J].机械工程师,2013(12):116-118. 被引量：6
9Parisa Tahvildarian,Farhad Ein-Mozaffari,Simant R.Upreti.Circulation intensity and axial dispersion of non-cohesive solid particles in a V-blender via DEM simulation[J].Particuology,2013,11(6):619-626. 被引量：4
10季顺迎,赵金凤,狄少丞,孙珊珊.面向环境力学的离散元分析软件研发和工程应用[J].计算机辅助工程,2014,23(1):69-75. 被引量：6

同被引文献29

1欧阳鸿武,何世文,廖奇音,韦嘉.圆筒型混合器中颗粒混合运动的研究[J].粉末冶金材料科学与工程,2003,8(4):278-284. 被引量：8
2欧阳鸿武,廖奇音,何世文,韦嘉.二组元粉体的混合实验研究[J].粉末冶金材料科学与工程,2004,9(1):15-20. 被引量：2
3ZHAO, Lala, LIU, Chusheng, YAN, Junxia.A virtual experiment showing single particle motion on a linearly vibrating screen-deck[J].Mining Science and Technology,2010,20(2):276-280. 被引量：11
4张立栋,朱明亮,王恭,邓杰文,李少华,张轩,王擎.油页岩在回转干馏炉内混合度与停留时间综合分析[J].中国电机工程学报,2011,31(S1):187-192. 被引量：3
5傅巍,蔡九菊,董辉,王爱华,刘汉桥,王连勇,田红.颗粒流数值模拟的现状[J].材料与冶金学报,2004,3(3):172-175. 被引量：19
6姜泽辉,刘新影,彭雅晶,李建伟.竖直振动颗粒床中的倍周期运动[J].物理学报,2005,54(12):5692-5698. 被引量：16
7JIAO Hong-guang,ZHAO Yue-min,WANG Quan-qiang.Numerical Study of Collision and Penetration Behavior Between Particles and Screen Plate[J].Journal of China University of Mining and Technology,2006,16(2):137-140. 被引量：5
8李水清,姚强,陈冰,张宣,Ding Y.D..回转筒颗粒表面流的分子动力学模拟和连续理论[J].科学通报,2006,51(19):2319-2326. 被引量：4
9LI ShuiQing,YAO Qiang,CHEN Bing,ZHANG Xuan,DING Y L.Molecular dynamics simulation and continuum modelling of granular surface flow in rotating drums[J].Chinese Science Bulletin,2007,52(5):692-700. 被引量：3
10焦红光,赵跃民.用颗粒离散元法模拟筛分过程[J].中国矿业大学学报,2007,36(2):232-236. 被引量：51

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2Jianzhang Xiao,Xin Tong.Characteristics and efficiency of a new vibrating screen with a swing trace[J].Particuology,2013,11(5):601-606. 被引量：16
3张立栋,刘朝青,于丁一,李少华,王擎.低转速回转滚筒内三组元颗粒混合机理[J].粉末冶金材料科学与工程,2014,19(6):867-873. 被引量：1
4牛浩,于雯婧,王震涛,唐玉荣,张宏,张永成,方玉婷,刘扬.U型混合机内填充率对颗粒径向混合影响研究[J].饲料研究,2019,42(8):83-87.

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2顾成祥,熊晓燕,林仕芳,朱尊保.结构参数对单轴振动筛振动特性的影响[J].机械设计与制造,2014(11):119-122. 被引量：3
3宋宝成,刘初升,彭利平,李珺.Dynamic analysis of new type elastic screen surface with multi degree of freedom and experimental validation[J].Journal of Central South University,2015,22(4):1334-1341. 被引量：6
4张忠良,刘永启,郑斌,刘瑞祥,高海波.兰炭余热回收型螺旋输送机内颗粒流动特性研究[J].煤矿机械,2016,37(1):63-66.
5张立栋,韦庆文,秦宏,王擎.柱状生物质颗粒与钢球颗粒在滚筒中的混合特性[J].化工进展,2016,35(10):3057-3064. 被引量：8
6兰海鹏,刘扬,贾富国,唐玉荣,沈柳杨,栗文.双轴桨叶式混合机内椭球颗粒混合特性模拟[J].农机化研究,2017,39(6):74-78. 被引量：6
7Lijun Wang,Zhenjun Ding,Shuang Meng,Huijun Zhao,Huiqiang Song.Kinematics and dynamics of a particle on a non-simple harmonic vibrating screen[J].Particuology,2017,15(3):167-177. 被引量：17
8刘扬,胡芸莎,郑文轩,兰海鹏,贾富国,唐玉荣.糙米加湿均匀程度的评价方法分析[J].塔里木大学学报,2017,29(2):107-111. 被引量：1
9刘扬,曹昕昕,兰海鹏,唐玉荣,沈柳杨,栗文.搅拌工艺参数对糙米混合特性影响的数值模拟[J].江苏农业科学,2017,45(15):214-217. 被引量：2
10郭飞宏,王泽宇,仲兆平.柱形生物质和石英砂传热实验与模拟研究[J].农业机械学报,2017,48(10):272-279. 被引量：1

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2仇文革,杨明举.深圳地铁重叠隧道邻桩施工力学模拟[J].工程力学,2000,3(A03):624-628. 被引量：2
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4李贡辉.基于模糊综合评价方法的崩塌落石影响参数关系探讨[J].中国水运（下半月）,2008,8(8):167-168. 被引量：4
5白继东.粒料基层沥青路面结构力学响应研究[J].中外公路,2013,33(4):106-108. 被引量：3
6卜明慧.隧道围岩变形影响因素分析[J].交通建设与管理,2014(12X):201-203. 被引量：1
7黄亚楠,肖越,王言英.集装箱船球首型线几何要素优化探讨[J].船舶,2004,15(5):4-7. 被引量：1
8马建海,谢丽.高分辨率阵列感应测井质量控制方法[J].青海石油,2005,23(1):1-5. 被引量：1
9许艳.储集层中的构造裂缝及其研究方法[J].石油知识,2003(2):12-12. 被引量：2
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