Numerical simulation on mixing dynamics of flexible filamentous particles in the transverse section of a rotary drum 被引量：4

Numerical simulation on mixing dynamics of flexible filamentous particles in the transverse section of a rotary drum

导出

摘要 Flexible filamentous particles are a special kind of particles and play a significant role in many industrial processes. The mixing dynamics of flexible filamentous particles in the transverse section of a rotary drum were analyzed numerically in two dimensions. First, a chain model of slender bodies was introduced for particle dynamic studies, and each individual particle as well as each segment of the particle was tracked during the process. Then, the bulk movement of particles in the transverse section of a rotary drum was explored numerically and mixing dynamics of the particles were further investigated with visual representation. To quantify the quality of mixing, the mixing rates were investigated to determine the mixing extent of particles in the rotary drum. Furthermore, the effects of rotational velocity, flight height and filling degree on mixing dynamics were examined in detail. Moreover, the numerical results were compared with experimental data, and reasonable agreements were obtained, The numerical analyses provide valuable insights into the mixing dynamics of flexible filamentous particles. Flexible filamentous particles are a special kind of particles and play a significant role in many industrial processes. The mixing dynamics of flexible filamentous particles in the transverse section of a rotary drum were analyzed numerically in two dimensions. First, a chain model of slender bodies was introduced for particle dynamic studies, and each individual particle as well as each segment of the particle was tracked during the process. Then, the bulk movement of particles in the transverse section of a rotary drum was explored numerically and mixing dynamics of the particles were further investigated with visual representation. To quantify the quality of mixing, the mixing rates were investigated to determine the mixing extent of particles in the rotary drum. Furthermore, the effects of rotational velocity, flight height and filling degree on mixing dynamics were examined in detail. Moreover, the numerical results were compared with experimental data, and reasonable agreements were obtained, The numerical analyses provide valuable insights into the mixing dynamics of flexible filamentous particles.

作者 Fan Genga Yingchao Wang Yimin Li Longji Yuan Xinyong Wang Min Liu Zhulin Yuan

机构地区 School of Electric Power Engineering School of Mechanics & Civil Engineering College of Energy Sources & Environment Engineering

出处《Particuology》 SCIE EI CAS CSCD 2013年第5期594-600,共7页 颗粒学报（英文版）

基金 supports from the Fundamental Research Funds for the Central Universities(No.2010QNA12) China Postdoctoral Science Foundation funded project(No.2012M511334) Talent Development Foundation of China University of Mining and Technology SAIL Plan of China University of Mining and Technologyare sincerely acknowledged

关键词 Rotary drumMixing dynamicsFlexible filamentous particlesChain modelSimulation Rotary drumMixing dynamicsFlexible filamentous particlesChain modelSimulation

分类号 TB122 [理学—工程力学]

引文网络
相关文献

参考文献20

1Bertrand, F, Leclaire, L, A, & Levecque, G. (2005). DEM-based models for the mixing of granular materials. Chemical Engineering Science, 60, 2517-2531.
2Geng, F, Li, Y, M, Wang, X. Y, Yuan, Z. L, Yan, Y. M, & Luo, D. S. (2011 ). Simulation of dynamic processes on flexible filamentous particles in the transverse section of a rotary dryer and its comparison with ideo-imaging experiments. Powder Technology, 207, 175-182.
3Geng, F, Yuan, Z. L, Yan, Y. M, Luo, D. S, Wang, H. S, Li, B, et al. (2009). Numeri- cal simulation on mixing kinetics of slender particles in a rotary dryer. Powder Technology, 193, 50-58.
4Jeon, Y. P, & Cox, C. L. (2009). Simulation of multifilament semicrystalline polymer fiber melt-spinning.Journal of Engineered Fibers and Fabrics, 4, 34-43.
5Kwapinska, M, Saage, G, & Tsotsas, E. (2006). Mixing of particles in the rotary drum: A comparison of discrete element simulations with experimental results and penetration models for thermal processes. Powder Technology, 161, 69-78.
6Lisboa, M. H, Vitorino, D. S, Delaiba, W. B, Finzer,J. R, D, & Barrozo, M. A. S. (2007). A study of particle motion in rotary dryer. Brazilian Journal of Chemical Engineering, 24, 365-374.
7Liu, X. Y, Specht, E, & Mellmann, J. (2005a). Experimental study of the lower and upper angles of repose of granular materials in rotating drums. Powder Technol- ogy, 154, 125-131.
8Liu, X. Y, Specht, E, & Mellmann, J. (2005b). Slumping-rolling transition of granular solids in rotarv dins. Chemica Engineer/ng Science, 60, 3629-3636.
9McCarthy, J. J, Khakhar, D. V, & Ottino, J. M. (2000). Computational studies of gran- ular mixing. Powder Technology, 109, 72-82.
10Pan, J. P, Wang, T.J, Yao, J.J, &Jin, Y. (2006). Granule transport and mean residence time in horizontal drum with inclined flights. Powder Technology, 162, 50-58.

同被引文献58

1Darong Tang,JunzhangWu,Jinsong Zeng,Wenhua Gao,Liang Du.Research on cigarette during smoking based on reverse engineering and numerical simulation[J].Chinese Journal of Chemical Engineering,2019,27(10):2359-2375. 被引量：2
2唐向阳,张勇,陈猛,关宏.烟草异物剔除系统中高速皮带机风压系统的流场有限元分析[J].机械科学与技术,2003,22(S2):43-46. 被引量：2
3LIU Dong,GUO YinCheng,LIN WenYi.Simulations of mixing processes after coalescence of binary momentum-less droplets[J].Science China(Technological Sciences),2013,56(7):1607-1617. 被引量：1
4李善莲,王宏生,袁行思.烟草干燥研究进展[J].烟草科技,2004,37(9):6-9. 被引量：11
5黄志刚,李栋,朱慧,朱清萍.颗粒物料传质过程的数值仿真与实验研究[J].机械设计与制造,2005(1):33-35. 被引量：2
6管锋,周传喜,陈君若,刘亦坚.高温管式膨胀系统的结构优化与模拟[J].烟草科技,2006,39(1):25-29. 被引量：5
7黄志刚,朱慧,李栋,朱清萍.颗粒物料传热传质过程的数值仿真与实验研究[J].计算机仿真,2006,23(9):330-332. 被引量：7
8周晖,杨湘杰,邹炜,许林.卷烟厂气力输送的有限元分析[J].机床与液压,2007,35(1):217-220. 被引量：8
9黄志刚,朱慧,朱清萍,王晶.转筒内物料滞留时间的研究[J].包装工程,2007,28(1):106-107. 被引量：4
10邓国栋,王宏生,李斌,师建全.滚筒烘丝机中烟丝运动的模拟与试验[J].烟草科技,2007,40(9):13-17. 被引量：17

引证文献4

1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
2张鑫,袁竹林.滚筒干燥器内丝状物料的传热传质特性研究[J].干燥技术与设备,2014,12(3):15-23. 被引量：3
3姜胜强,叶一璇,阳恩勇,刘思思,刘金刚,谭援强.回转筒内沙石物料混合均匀性的数值模拟[J].计算力学学报,2019,36(5):603-609. 被引量：3
4李博宇,范兴,乔俊峰,王永,农永红,资文华.数值模拟在烟草领域中的应用与展望[J].烟草科技,2022,55(4):89-100. 被引量：7

二级引证文献20

1张紫薇,葛良,桂南,李振林,杨阳.转速对三维滚筒内颗粒混合特性的影响[J].中国科学院大学学报（中英文）,2017,34(2):218-225. 被引量：4
2张天琦,张翠翠,葛仕福,余辉,杨叙军.垂直旋转圆盘内蒸汽与物料间的传热性能[J].过程工程学报,2017,17(2):243-247.
3孟凡净,刘焜,吴华伟.颗粒流润滑剪切膨胀的力学机制研究[J].工程力学,2018,35(8):236-244. 被引量：5
4张立栋,刘若云,王擎,李少华,秦宏.不同偏心距滚筒中大颗粒的平均速度脉动特性[J].中国有色金属学报,2018,28(10):2164-2171.
5孟凡净,刘焜.压力载荷对颗粒润滑界面动力学特性的影响[J].机械科学与技术,2019,38(3):379-385. 被引量：3
6张喆,刘义伦,赵先琼,肖友刚,雷先明.滚筒导热系数对外热式回转窑内物料传热的影响[J].中国有色金属学报,2019,29(12):2802-2808. 被引量：1
7卢晏波,焦鑫,张磊.红外成像在危废焚烧二燃室故障和干化机故障分析中的应用[J].山西化工,2020,40(2):103-104.
8杨彬,黄亚宇.基于Fluent的滚筒烘丝机烘丝过程研究[J].农业装备与车辆工程,2021,59(2):87-89. 被引量：1
9赖镜安,王佳,何庆中,赵苾通,李科宏,何涛.基于传热分析的六棱柱滚筒冷渣机结构优化[J].现代制造工程,2022(3):62-69.
10赵东昇,邱家用,居殿春,孙健,余水,齐渊洪.回转窑多粒径颗粒流动与偏析的DEM模拟与实验研究[J].计算力学学报,2022,39(4):471-478. 被引量：1

1王刚,王树立,何刚.样条船舶稳性横截面曲线计算程序中所采用的计算方法[J].武汉造船,1992(1):18-24.
2DD（X）国家队试验雷达横切面[J].高科技纤维与应用,2006,31(1):52-52.
3王锦程,万曼影,赵新颖.CAN总线在船舶电站测控中的应用[J].船舶,2004,15(5):27-30. 被引量：1
4王锦程,万曼影,赵新颖.CAN总线在船舶电站测控中的应用[J].造船技术,2005,33(2):25-27. 被引量：3
5陈兆爽.玲珑车队新面孔[J].汽车观察,2010(11):21-21.
6车模卖场[J].汽车杂志,2010(6):314-314.
7苗条而轻快的运动车[J].科技新时代,2001(5):12-12.
8Duff A.Abrams,沈玉露,徐永模.混凝土拌合物的配合比设计[J].混凝土世界,2009(9):38-41. 被引量：8
9曾科.公路填石路基施工技术的应用[J].低碳世界,2015,0(21):226-227.
10郭腾峰,王蒙,林宣财.互通式立交动态可视化设计研究[J].公路,1999,44(9):48-52. 被引量：2

Particuology

2013年第5期

浏览历史

内容加载中请稍等...

Numerical simulation on mixing dynamics of flexible filamentous particles in the transverse section of a rotary drum 被引量：4

参考文献20

同被引文献58

引证文献4

二级引证文献20

相关作者

相关机构

相关主题

浏览历史