DEM simulations of tote blenders for enhanced axial mixing efficiency 被引量：1

导出

摘要 The mixing performance of a multi-bladed tote blender is investigated using a graphics processing unit-based discrete element method program.The positioning,dimensions,and applicability of the baffles are systematically studied according to the axial mixing efficiency.The results indicate that the novel inclined multi-bladed baffles can break the symmetrical axial granular flow and introduce a more efficient convective flow into the granular mixing in the axial direction of the tote blender.Owing to the joint effects of convective mixing and asymmetrical granular flow,the axial mixing efficiency is increased by a factor of nearly 20.More importantly,the novel baffle placement approach exhibits excellent applicability to different operating conditions,particle shapes,and blender sizes.Additionally,the inclined baffles can prevent the segregation caused by shape discrepancies and improve the mixing homogeneity in the steady state.The novel baffle design is promising for applications in more complex industrial blenders for achieving a high axial mixing efficiency.

作者 Fuhai Yu Zhihao Yao Guojie Chen Yun Zhang Yang Zheng

机构地区 Department of Chemistry and Chemical Engineering College of Chemical Engineering and Safety College of Horticulture and Plant Protection

出处《Particuology》 SCIE EI CAS CSCD 2021年第2期199-208,共10页 颗粒学报（英文版）

基金 This work was supported by the Natural Science Foundation of Jiangsu Province,China(Grant No.BK20190892) the Scientific Research Starting Foundation of Jjining University,Shandong Province,China(Grant No.2019BSZX04) Binzhou University,Shandong Province,China(Grant No.2018Y25].

关键词 Discrete element method(DEM) Tote blender Axial mixing efficiency Inclined baffles Non-spherical particles

分类号 O35 [理学—流体力学]

引文网络
相关文献

参考文献3

1Maoqiang Jiang Yongzhi Zhao Gesi Liu Jinyang Zheng.Enhancing mixing of particles by baffies in a rotating drum mixer[J].Particuology,2011,9(3):270-278. 被引量：28
2Xinxin Ren,Guangzheng Zhou,Ji xu,Lijie Cui,Wei Ge.Numerical analysis of enhanced mixing in a Gallay tote blender[J].Particuology,2016,14(6):95-102. 被引量：4
3Ji Xu,Huabiao Oi,Xiaojian Fang,Liqiang Lu,Wei Ge,Xiaowei Wang,Ming xu,Feiguo Chen,xianfeng He,Jinghai Li.Quasi-real-time simulation of rotating drum using discrete element method with parallel GPU computing[J].Particuology,2011,9(4):446-450. 被引量：23

二级参考文献9

1赵永志,程易.水平滚筒内二元颗粒体系径向分离模式的数值模拟研究[J].物理学报,2008,57(1):322-328. 被引量：37
2Kevin Francis Malone.Determination of contact parameters for discrete element method simulations of granular systems[J].Particuology,2008,6(6):521-528. 被引量：23
3赵永志,江茂强,郑津洋.巴西果效应分离过程的计算颗粒力学模拟研究[J].物理学报,2009,58(3):1812-1818. 被引量：30
4Feiguo Chen Wei Ge Li Guo Xianfeng He Bo Li Jinghai Li Xipeng Li Xiaowei Wang Xiaolong Yuan.Multi-scale HPC system for multi-scale discrete simulation—Development and application of a supercomputer with 1 Petaflops peak performance in single precision[J].Particuology,2009,7(4):332-335. 被引量：19
5Maoqiang Jiang Yongzhi Zhao Gesi Liu Jinyang Zheng.Enhancing mixing of particles by baffies in a rotating drum mixer[J].Particuology,2011,9(3):270-278. 被引量：28
6Ji Xu,Huabiao Oi,Xiaojian Fang,Liqiang Lu,Wei Ge,Xiaowei Wang,Ming xu,Feiguo Chen,xianfeng He,Jinghai Li.Quasi-real-time simulation of rotating drum using discrete element method with parallel GPU computing[J].Particuology,2011,9(4):446-450. 被引量：23
7John Bridgwater.Mixing of powders and granular materials by mechanical means——A perspective[J].Particuology,2012,10(4):397-427. 被引量：13
8Huabiao Qi,Ji Xu,Guangzheng Zhou,Feiguo Chen,Wei Ge,Jinghai Li.Numerical investigation of granular flow similarity in rotating drums[J].Particuology,2015,13(5):119-127. 被引量：4
9姜泽辉,陆坤权,厚美瑛,陈唯,陈相君.振动颗粒混合物中的三明治式分离[J].物理学报,2003,52(9):2244-2248. 被引量：44

共引文献48

1陈人哲,顾洪波.纺纱或退绕气圈颈部曲面及其最小半径的近似解[J].中国纺织大学学报,2000,26(2):20-22.
2李少华,朱明亮,张立栋,王擎,刘朝青,于丁一.回转装置内三组元颗粒径向混合评价方法分析[J].化工进展,2013,32(6):1224-1229. 被引量：26
3葛良,桂南,徐文凯,闫洁.波形滚筒内颗粒混合和导热分布形态特性的研究[J].中国科学：技术科学,2014,44(1):62-70. 被引量：8
4张立栋,朱明亮,刘朝青,王擎,李少华,于鑫.颗粒在椭圆形回转干馏炉内运动分析[J].化工机械,2014(1):34-38. 被引量：2
5Fubao Zhou,Shengyong Hu,Yingke Liu,Chun Liu,Tongqiang Xia.CFD-DEM simulation of the pneumatic conveying of fine particles through a horizontal slit[J].Particuology,2014,12(5):196-205. 被引量：10
6周敬之,周知星,冯俊小,李十中.回转筒内秸秆碎料回转周期和料层完全混合时间研究[J].农业机械学报,2015,46(8):178-185. 被引量：4
7张立栋,于丁一,刘朝青,薛琳,郝万军,李少华,王擎.不同离心率下椭圆形滚筒内二组元颗粒混合[J].武汉理工大学学报,2015,37(4):87-93. 被引量：1
8徐骥,卢利强,葛蔚,李静海.基于EMMS范式的离散模拟及其化工应用[J].化工学报,2016,67(1):14-26. 被引量：5
9Zhixing Zhou,Jihong Li,Jingzhi Zhou,Shizhong Li,Junxiao Feng.Enhancing mixing of cohesive particles by baffles in a rotary drum[J].Particuology,2016,14(2):104-110. 被引量：8
10Basel Alchikh-Sulaiman,Meysam Alian,Farhad Ein-Mozaffari,Ali Lohi,Simant R. Upreti.Using the discrete element method to assess the mixing of polydisperse solid particles in a rotary drum[J].Particuology,2016,14(2):133-142. 被引量：9

同被引文献15

1周先齐,徐卫亚,钮新强,崔玉柱.离散单元法研究进展及应用综述[J].岩土力学,2007,28(S1):408-416. 被引量：56
2朱润孺,朱卫兵,邢力超,孙巧群.矩形喷动床混合特性的三维数值研究[J].中国电机工程学报,2010,30(17):12-16. 被引量：8
3Maoqiang Jiang Yongzhi Zhao Gesi Liu Jinyang Zheng.Enhancing mixing of particles by baffies in a rotating drum mixer[J].Particuology,2011,9(3):270-278. 被引量：28
4Ji Xu,Huabiao Oi,Xiaojian Fang,Liqiang Lu,Wei Ge,Xiaowei Wang,Ming xu,Feiguo Chen,xianfeng He,Jinghai Li.Quasi-real-time simulation of rotating drum using discrete element method with parallel GPU computing[J].Particuology,2011,9(4):446-450. 被引量：23
5Christoph Goniva,Christoph Kloss,Niels G. Deen,Johannes A.M.Kuipers,Stefan Pirker.Influence of rolling friction on single spout fluidized bed simulation[J].Particuology,2012,10(5):582-591. 被引量：20
6张俊强,纪律,李斌,陈海生,朱瑞,于文圣.单孔射流流化床内颗粒混合特性的数值模拟[J].化工学报,2017,68(3):879-888. 被引量：7
7张雪宽,徐骥,孙俊杰,张永杰,张正好,葛蔚.竖冷设备中烧结矿石偏析行为的GPU高性能模拟[J].力学学报,2019,51(1):64-73. 被引量：14
8王龙,胡灿,贺小伟,邢剑飞,石露,侯书林.基于离散元法立式饲料搅拌机混合过程的模拟[J].饲料工业,2020,41(3):6-10. 被引量：7
9Xin Jin,Ganga Rohana Chandratilleke,Shuai Wang,Yansong Shen.DEM investigation of mixing indices in a ribbon mixer[J].Particuology,2022,20(1):37-47. 被引量：4
10徐骥,葛蔚,王利民,李静海.多尺度离散模拟在钢铁行业技术研发中的应用[J].过程工程学报,2022,22(10):1308-1316. 被引量：1

引证文献1

1徐嘉宇,陈飞国,徐骥,葛蔚.颗粒体系的多尺度混合指数[J].化工学报,2024,75(6):2214-2221. 被引量：1

二级引证文献1

1王青芬,孙伟成,沈政昌,陈强,张明,段莉莉.搅拌理论技术在选矿领域的应用及发展[J].有色金属（冶炼部分）,2024(11):76-104. 被引量：1

1Ruturaj Deshpande,Sergiy Antonyuk,Oleg Iliev.DEM-CFD study of the filter cake formation process due to non-spherical particles[J].Particuology,2020,18(6):48-57. 被引量：1
2Aydin SHISHEGARAN,Mohammad SHOKROLLAHI,Ali MIRNOROLLAHI,Arshia SHISHEGARAN,Mohammadreza MOHAMMAD KHANI.A novel ensemble model for predicting the performance of a novel vertical slot fishway[J].Frontiers of Structural and Civil Engineering,2020,14(6):1418-1444.
3Qiang Chengwen,Li Long,Wang Fei,Zhang Xueying.Construction of a Performance Testing Platform for Granular Flow Heat Exchanger[J].IMP & HIRFL Annual Report,2019(1):222-222.
4Zhihong Nie,Shunkai Liu,Wei Hu,Jian Gong.Effect of local non-convexity on the critical shear strength of granular materials determined via the discrete element method[J].Particuology,2020,18(5):105-112. 被引量：1
5T.HAYAT,F.HAIDER,A.ALSAEDI.Darcy-Forchheimer flow with nonlinear mixed convection[J].Applied Mathematics and Mechanics(English Edition),2020,41(11):1685-1696.
6梁盛华,齐轶鹏,刘雁翔,孙晓刚.基于3D打印技术的急性A型主动脉夹层根部模型重建[J].中华胸心血管外科杂志,2020,36(12):738-742. 被引量：2
7Behzad Pouladi,Mohammad Sharifi,Mohammad Reza Akbari,S.M.Hosseini-Nasab.A new numerical well testing approach: Application to characterization of complex fault structures[J].Petroleum,2019,5(3):295-302. 被引量：2
8Amir Menbari,Kamyar Hashemnia.Studying the particle size ratio effect on granular mixing in a vertically vibrated bed of two particle types[J].Particuology,2020,18(6):100-111. 被引量：2
9Kelei Cao,Yaling Hu,Zhihua Gao.Brain Macrophages:Close or Distant Relatives?[J].Neuroscience Bulletin,2021,37(2):278-280.
10LI Shi-min,CUI Pu,ZHANG Shuai,LIU Wen-tao,PENG Yu-xiang.Experimental and Numerical Study on the Bubble Dynamics near Two-Connected Walls with An Obtuse Angle[J].China Ocean Engineering,2020,34(6):828-839. 被引量：3

Particuology

2021年第2期

浏览历史

内容加载中请稍等...