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International Journal of Coal Preparation and Utilization Volume 43, 2023 - Issue 6
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Research Article

Study on the modification of the coarse coal-slime separation process in Lv-jiatuo coal preparation plant

Chi WangSchool of Chemical and Environmental Engineering, China University of Mining and Technology (Beijing), Beijing, ChinaCorrespondence[email protected]
Pages 1016-1032 | Received 13 Apr 2022, Accepted 09 Jun 2022, Published online: 16 Jun 2022

References

  • Barry, B., M. Klima, and F. Cannon. 2015. Effect of hydroacoustic cavitation treatment on the spiral processing of bituminous coal. International Journal of Coal Preparation and Utilization 35 (2):76–87. doi:10.1080/19392699.2014.973107.
  • Cui, G. W., H. J. Liu, Q. K. Guo, G. Y. Song, M. Y. Sun, J. F. Wang, Y. J. Li, and J. Wang. 2012. Three-stage cone water-only cyclone for the separation of coal-slime. China patent ZL 201220202374.8, filed April 28, 2012, and issued December 5, 2012.
  • Cui, G. W., W. W. Xie, Y. Zhang, and M. Y. Sun. 2018. Study on separation performance of tri-cone water medium cyclone based on CFD. International Journal of Coal Preparation and Utilization Early access. doi:10.1080/19392699.2018.1547283.
  • Dong, L. P., M. Q. Fan, and H. L. Yang. 2013. Separation performance of a cyclone column separator with complicated positive and negative cones. International Journal of Mineral Processing 122:43–46. doi:10.1016/j.minpro.2013.04.009.
  • Guo, X. 2012. Discussion and research on coarse slime separation in heavy media coal preparation plant. Coal Technology 31 (8):101–03. in Chinese.
  • Hacifazlioglu, H. 2012a. Application of the modified water-only cyclone for cleaning fine coals in a Turkish washery, and comparison of its performance results with those of spiral and flotation. Fuel Processing Technology 102:11–17. doi:10.1016/j.fuproc.2012.04.011.
  • Hacifazlioglu, H. 2012b. Optimization of some parameters in a modified water-only cyclone for metallurgical coal production from high-ash fine coking coals. International Journal of Coal Preparation and Utilization 32 (6):290–97. doi:10.1080/19392699.2012.717564.
  • Hu, X., R. Ren, and C. Li. 2011. Study of feasibility and technology of recleaning middlings of coking coal. Advanced Materials Research 361-363:301–04. doi:10.4028/scientific.net/AMR.361-363.301.
  • Korte, J. D., and J. Bosnian. 2007. Optimal coal processing route for the 3 × 0.5 mm size fraction? Journal of the Southern African Institute of Mining and Metallurgy 107 (7):411–14.
  • Lian, J., J. Liu, S. Bai, and S. Xu. 2011. Research on application progress of the separation process of coarse coal slime. Sciencepaper Online 6 (3):242–46. in Chinese.
  • Lu, S., X. Lyu, P. Liu, and C. Zhang. 2014. Current situation of application of coarse coal slime recovery and separation process. Coal Preparation Technology 2:83–87. in Chinese. doi:10.16447/j.cnki.cpt.2014.02.022.
  • Ma, G., W. Xia, and G. Xie. 2018. Effect of particle shape on the flotation kinetics of fine coking coal. Journal of Cleaner Production 195:470–75. doi:10.1016/j.jclepro.2018.05.230.
  • Maharana, B. S., and N. Suresh. 2019. Separation characteristics of 100-mm dual-cone water-only cyclone to wash high NGM coal. International Journal of Coal Preparation Utilization 40 (1):1–14. doi:10.1080/19392699.2019.1594794.
  • Majumder, A. K., and J. P. Barnwal. 2011. Processing of coal fines in a water-only cyclone. Fuel 90 (2):834–37. doi:10.1016/j.fuel.2010.10.038.
  • Meng, F., X. Tong, and S. Zhang. 2018. State-of-the-art of the application of coarse slime separation equipment in China. Coal Preparation Technology 04:1–5. in Chinese. doi:10.16447/j.cnki.cpt.2018.04.001.
  • Napier-Munn, T. J. 2018. The dense medium cyclone – Past, present and future. Minerals Engineering 116:107–13. doi:10.1016/j.mineng.2017.10.002.
  • Napier-Munn, T. J., G. Gibson, and B. Bessen. 2009. Advances in dense medium cyclone plant design. Proc. 10th Mill Operators’ Conference, Adelaide, Oct. AusIMM.
  • Ramudzwagi, M., N. Tshiongo-Makgwe, and W. Nheta. 2020. Recent developments in beneficiation of fine and ultra-fine coal. Journal of Cleaner Production 276:122693. doi:10.1016/j.jclepro.2020.122693.
  • Shi, Y., X. Song, G. Li, R. Li, Y. Zhang, G. Wang, R. Zheng, and Z. Lyu. 2018. Numerical investigation on heat extraction performance of a downhole heat exchanger geothermal system. Applied Thermal Engineering 134:513–26. doi:10.1016/j.applthermaleng.2018.02.002.
  • Sun, M. Y., L. B. Wei, and G. W. Cui. 2017. Studies of a water-only cyclone with a three-stage cone for fine coal beneficiation. International Journal of Coal Preparation and Utilization 37 (2):75–86. doi:10.1080/19392699.2016.1138943.
  • Tripathy, A., S. Bagchi, S. Biswal, and B. Meikap. 2017. Study of particle hydrodynamics and misplacement in liquid-solid fluidized bed separator. Chemical Engineering Research and Design 117:520–32. doi:10.1016/j.cherd.2016.11.009.
  • Vega, D., P. R. Brito-Parada, and J. J. Cilliers. 2018. Optimising small hydrocyclone design using 3D printing and CFD simulations. Chemical Engineering Journal 350:653–59. doi:10.1016/j.cej.2018.06.016.
  • Wang, B., K. Chu, A. Yu, and A. Vince. 2014. Computational investigation of the mechanisms of the “breakaway” effect in a dense medium cyclone. Minerals Engineering 62:111–19. doi:10.1016/j.mineng.2013.12.017.
  • Wang, C., and G. Cui. 2020. Study on the flow field and improved separation performance of a three-stage cone water-only cyclone. Minerals Engineering 159:106637. doi:10.1016/j.mineng.2020.106637.
  • Wang, C., L. Wei, and G. Cui. 2020. Effects of the operating parameters on the separation results of a three-stage cone water-only cyclone. International Journal of Coal Preparation Utilization Early Access. doi:10.1080/19392699.2020.1837787.
  • Wang, C., L. Wei, G. Cui, and J. Gao. 2020. Particles motion simulation and application exploration of three-stage cone water-only cyclone. International Journal of Coal Preparation Early Access. doi:10.1080/19392699.2018.1547283.
  • Wang, G., X. Bai, C. Wu, L. Weng, K. Liu, and A. Kiani. 2018. Recent advances in the beneficiation of ultrafine coal particles structure modifications. Fuel Processing Technology 178:104–25. doi:10.1016/j.fuproc.2018.04.035.
  • Wei, L., and M. Sun. 2016. Numerical studies of the influence of particles’ size distribution characteristics on the gravity separation performance of liquid-solid fluidized bed separator. International Journal of Mineral Processing 157:111–19. doi:10.1016/j.minpro.2016.10.004.
  • Xie, G. 2001. Mineral processing. Xuzhou (in Chinese): China University of Mining and Technology Press.
  • Yang, Z., Y. Xia, C. Wei, Y. Cao, W. Sun, P. Liu, H. Cheng, Y. Xing, and X. Gui. 2019. New flotation flowsheet for recovering combustible matter from fine waste coking coal. Journal of Cleaner Production 225:209–19. doi:10.1016/j.jclepro.2019.03.324.
  • Zhu, X., J. Liu, C. Cao, Y. Dong, and T. Wei. 2020. Numerical studies on teeter bed separator for particle separation. Energies 13 (8):2025. doi:10.3390/en13082025.

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