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工程设计学报
Chinese Journal of Engineering Design  2016, Vol. 23 Issue (3): 264-270    DOI: 10.3785/j.issn. 1006-754X.2016.03.011
Modeling, Analysis, Optimization and Decision     
Study on screening efficiency of moist raw coal particles on 3-DOF hybrid vibrating screen
WANG Cheng-jun1,2, ZHANG Tian-yu2, LI Long2, CHEN Jin-yan2, MENG Xiang-rui1
1. Post-doctoral Mobile Station of Mining Engineering, Anhui University of Science and Technology, Huainan 232001, China;
2. School of Mechanical Engineering, Anhui University of Science and Technology, Huainan 232001, China
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Abstract  

To study the variation law of screening efficiency of difficult screened moist raw coal particles on the 3-DOF hybrid vibrating screen with two translational and one rotational degree of freedom which was designed independently to research the influence of various vibration parameters, EDEM software was used to simulate the screening process of particles based on DEM. Dynamic screening efficiency and hindering particles excretion rate were used as evaluation indices in simulation screening effect. Then the optimal excitation mode in each combination with all freedom was obtained as well as the effect of vibration direction on moist raw coal particle motion on screen surface. Orthogonal experiment was used in analyzing the effect of various factors on screening efficiency with dynamic screening efficiency as reference value. It was found that the Influence factors were external moisture, vibrational freedom, frequency and amplitude. The optimal screening scheme was used for the simulation experiment and the results verified that multi-dimensional vibration was beneficial to the screening process of difficult screened particles and could prevent jamming the screen holes.

Key wordsmoist raw coal particle      3-DOF hybrid vibrating screen      vibration mode      screening efficiency      discrete element method (DEM)      orthogonal experiment     
Received: 30 October 2015      Published: 28 June 2016
CLC:  TH123.1  
  TD452  
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WANG Cheng-jun
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CHEN Jin-yan
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Cite this article:

WANG Cheng-jun, ZHANG Tian-yu, LI Long, CHEN Jin-yan, MENG Xiang-rui. Study on screening efficiency of moist raw coal particles on 3-DOF hybrid vibrating screen. Chinese Journal of Engineering Design, 2016, 23(3): 264-270.

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https://www.zjujournals.com/gcsjxb/10.3785/j.issn. 1006-754X.2016.03.011     OR     https://www.zjujournals.com/gcsjxb/Y2016/V23/I3/264


潮湿原煤颗粒在三自由度混联振动筛中筛分效率研究

为研究潮湿难筛分原煤颗粒在两平移一转动三自由度混联振动筛中的筛分效率变化规律,基于三维离散元法,运用EDEM软件模拟潮湿原煤颗粒的筛分过程.自主设计了两平移一转动三自由度混联振动筛,以研究各振动参数对原煤颗粒筛分效率的影响;综合采用动态筛分效率和阻碍粒排出率作为模拟筛分效率的评定指标,得出各自由度振动组合中的最佳激振模式及振动方向对潮湿原煤颗粒在筛面运动的作用;以动态筛分效率为参考值,采用正交实验方法,分析各因素对筛分效率的影响,得出影响因素分别为:外在水分、振动自由度、频率、振幅;用优选的筛分方案进行离散元模拟实验,验证了多维振动有利于潮湿难筛分原煤颗粒的分散、透筛及防堵.


关键词: 潮湿原煤颗粒,  三自由度混联振动筛,  振动模式,  筛分效率,  离散元法,  正交实验 
[1] 赵跃民,刘初生.干法筛分理论及应用[M].北京:科学出版社,1999:72-78. ZHAO Yue-min,LIU Chu-sheng.Theory and application of dry screening [M].Beijing:Science Press,1999:72-78.

[2] 陈惜明,赵跃民,朱红,等.潮湿细粒物料的筛分粘附模型研究[J].中国矿业大学学报,2002,31(5):407-410. CHEN Xi-ming,ZHAO Yue-min,ZHU Hong,et al.Adhesive model of moist fine material[J].Journal of China University of Mining and Technology,2002,31(5):407-410.

[3] 陈惜明,赵跃民,朱红,等.潮湿细粒物料筛分过程中粘附理论的研究[J].江苏煤炭,2003(4):38-40. CHEN Xi-ming, ZHAO Yue-min, ZHU Hong,et al.Study on adhesive mechanism in screening fine moist material[J].Jiangsu Coal,2003(4):38-40.

[4] 陈惜明,朱红,赵跃民,等.潮湿细粒煤用筛分机械的现状及发展[J].煤炭加工与综合利用,2000(3):6-9. CHEN Xi-ming,ZHU Hong,ZHAO Yue-min,et al.Present status & progress of screening machines for wetted coal fines[J].Coal Processing & Comprehensive Utilization,2000(3):6-9.

[5] 沈惠平,张会芳,何宝祥,等.一种新型并联运动振动筛及其运动学研究与研制[J].机械设计,2007,24(6):34-36. SHEN Hui-ping,ZHANG Hui-fang,HE Bao-xiang,et al.A kind of novel parallel movement vibration sieve and its kinematic research and development[J].Journal of Machine Design,2007,24(6):34-36.

[6] 何宝祥,沈惠平,薛国新,等.并联运动振动筛的筛分特性研究[J].工程设计学报,2011,18(5):365-368. HE Bao-xiang,SHEN Hui-ping,XUE Guo-xin,et al.Research on the screening characteristics of parallel vibration sieves[J].Chinese Journal of Engineering Design,2011,18(5):365-368.

[7] 赵啦啦,刘初升,闫俊霞,等.颗粒分层过程三维离散元法模拟研究[J].物理学报,2013,59(3):1870-1875. ZHAO La-la,LIU Chu-sheng,YAN Jun-xia,et al.Numerical simulation on segregation process of particles using 3D discrete element method[J].Acta Physica Sinica,2013,59(3):1870-1875.

[8] 赵啦啦,刘初升,闫俊霞,等.不同振动模式下颗粒分离行为的数值模拟[J].物理学报,2010,59(4):2582-2587. ZHAO La-la,LIU Chu-sheng,YAN Jun-xia,et al.Numerical simulation of particle segregation behavior in different vibration modes[J].Acta Physica Sinica,2010,59(4):2582-2587.

[9] 赵啦啦,刘初升,闫俊霞,等.颗粒筛分过程的三维离散元法模拟[J].煤炭学报,2010,35(2):307-311. ZHAO La-la,LIU Chu-sheng,YAN Jun-xia,et al.Numerical simulation of particle screening process based on 3D discrete element method[J].Journal of China Coal Society,2010,35(2):307-311.

[10] CLEARY P W,SINNOTT M D,MORRISON R D.Separation performance of double deck banana screens:part 1:flow and separation for different accelerations[J].Minerals Engineering,2009,22(14):1218-1229.

[11] KRUGGEL-EMDEN H,ELSKAMP F.Modeling of screening processes with the discrete element method involving non-spherical particles[J].Chemical Engineering & Technology,2014,37(5):847-856.

[12] ELSKAMP F,KRUGGEL-EMDEN H,HENNIG M,et al.Benchmarking of process models for continuous screening based on discrete element simulations[J].Minerals Engineering,2015,83(3):78-96.

[13] ODA M,IWASHITA K,KAKIUCHI T.Importance of particle rotation in the mechanics of granular materials[M].Florida:CRC Press,1997:207-214.

[14] 赵啦啦,刘初升,闫俊霞,等.振动筛面颗粒流三维离散元法模拟[J].中国矿业大学学报,2010,39(3):414-419. ZHAO La-la,LIU Chu-sheng,YAN Jun-xia,et al.Numerical simulation of particles flow on the vibrating screen plate using a 3D discrete element method[J].Journal of China University of Mining & Technology,2010,39(3):414-419.

[15] 高红利,陈友川,赵永志,等.薄滚筒内二元湿颗粒体系混合行为的离散单元模拟研究[J].物理学报,2011,60(12):124501. GAO Hong-li,CHEN You-chuan,ZHAO Yong-zhi,et al.Simulation of mixing process for size-type binary wet particulate systems in a rotating horizontal drum by discrete element method[J].Acta Physica Sinica,2011,60(12):124501.

[16] 赵永志,程易.水平滚筒内的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. ZHAO Yong-zhi,CHENG Yi.Numerical simulation of radial segregation patterns of binary granular systems in a rotating horizontal drum[J].Acta Physica Sinica,2008,57(1):322-328.

[17] 赵啦啦,赵跃民,刘初升,等.湿颗粒堆力学特性的离散元法模拟研究[J].物理学报,2014,63(3):034501. ZHAO La-la,ZHAO Yue-min,LIU Chu-sheng,et al.Discrete element simulation of mechanical properties of wet granular pile[J].Acta Physica Sinica,2014,63(3):034501.

[18] MITARAI N,NORI F.Wet granular materials[J].Advances in Physics,2006,55(1/2):1-45.
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