Reseparation has an important position in mineral separation, but reseparation cannot effectively recover fine particles, this paper summarizes the development of reseparation recovery technology in recent years, expounds the research status of reseparation at home and abroad in three aspects: equipment, process, theory, etc., summarizes the current new process of reseparation technology, concludes that the new process of composite force field reseparation composed of a variety of force fields is the future development direction of fine grain reselection, and puts forward its own thinking on the way out and development direction of reselection.

Biao Wang, Zhongbin Liu. Current Situation and Prospect of Re-separation and Recovery Technology for Fine-grained Minerals. Academic Journal of Architecture and Geotechnical Engineering (2023) Vol. 5, Issue 1: 50-54. https://doi.org/10.25236/AJAGE.2023.050109.

[1] Cai Zhenbo, Xu Huihua. Research status and prospect of fine mineral beneficiation technology [J]. Modern Mining, 2015, 31(11):74-76+80.

[2] Zeng An, Zhou Yuan, Yu Xinyang, He Guichun. Research status and thinking of gravity beneficiation [J]. China Tungsten Industry, 2015, 30(04):42-47.

[3] Li Wenjie, Liu Zhongbin, Wang Huan. Study on virtualization of enrichment tank of high gravity concentrator [J]. Nonferrous Metals (Mineral Processing Section) 2019(05):95-101.

[4] Xu Qin. Research on modeling and control of sorting process of Knelson concentrator [D].Jiangxi University of Science and Technology, 2016.

[5] Wei Jingtao, Yang Bo. Journal of Kunming University of Science and Technology [J]. 2001(01): 46- 47+63.

[6] Eyüp S, Selçuk K. Separation Development Studies on the Beneficiation of Fine Lignite Coal Tailings by the Knelson Concentrator [J]. Energy & Fuels, 2014, 28(4):4819-4827.

[7] Kelebek S., Demir U., Sahbaz O., et al. The effects of dodecylamine, kerosene and pH on batch flotation of Turkey's Tuncbilek coal [J]. International Journal of Mineral Processing, 2008, 88(3-4): 65-71.

[8] Filiz Oruç, Selçuk Özgen, Eyüp Sabah. An enhanced-gravity method to recover ultra-fine coal from tailings: Falcon concentrator [J]. Fuel, 2010, 89(9).

[9] T. Sykes, T. Mullin. Self-organized patterns in collections of chains. Phys Rev E [J]. 2009, 80: 051301.

[10] Liu Zhigang. Numerical simulation and experimental study on sorting process of centrifugal concentrator [D]. Jiangxi University of Science and Technology,2017.

[11] Yunliang Zhao, Yimin Zhang, Tao Liu, Tiejun Chen, Ying Bian, Shenxu Bao. Pre-concentration of vanadium from stone coal by gravity separation [J]. International Journal of Mineral Processing, 2013, 121.

[12] Xiao Hongli. Parameter matching and experimental study of vertical centrifugal sorting based on CFD-DEM [D].Jiangxi University of Science and Technology, 2018.

[13] Liu Zuoshi, Hu Chuan, Duan Jun. Study on sorting characteristics and application status of Falcon centrifugal concentrator[J].Mining Machinery, 2015, 43(02): 81-86. DOI: 10. 16816/ j. cnki. ksjx. 2015.0 2.022.

[14] Yang Jianwen, Xiao Jun, Chen Daixiong. Experimental study on separation of valuable metals in Nielsen centrifugal heavy sand [J].Nonferrous Metals (Mineral Processing Part), 2018(05):58-63+71.

[15] Wang Yongxian, Zhou Dongqin, Dai Shujuan. Experimental study on recovery of a gold ore of altered rock by Nielsen centrifuge [J].Nonferrous Minerals and Metallurgy, 2018, 34(01):30-32+46.