Language : English
郑霞裕
  • Personal Information

    Distinguished Associate Professor



    Supervisor of Master's Candidates

    Date of Employment:2018-03-05

    School/Department:Minerals Processing and Bioengineering

    Education Level:PhD Graduate

    Business Address:生物楼204

    Sex:Male

    Contact Information:邮箱:19601229xiayu@163.com

    Degree:Doctoral degree

    Status:Employed

    Alma Mater:中南大学

    Discipline:Mining Industrial Engineering

  • Profile

    郑霞裕,男,1989年1月15日生,湖北鄂州人,2017年6月获得中南大学矿物加工工程博士学位,2018年3月至今中南大学资源加工与生物工程学院副教授,硕士研究生导师。

    主要研究方向为复合力场分选理论、设备与工艺、高梯度磁选、工业水处理、资源综合利用、矿物加工过程仿真模拟、浮选理论与工艺等。参与多项国家自然科学基金项目和企业横向项目。2015年、2016年两次获得博士研究生国家奖学金,获评中南大学优秀毕业生和湖南省优秀毕业生。

    主讲本科生课程“物理分选”,主持中南大学研究生教学改革项目一项。在Minerals Engineering, Separation and Purification Technology, Applied Surface Science, Powder Technology, IEEE Transactions on Magnetics等国内外权威期刊上发表40余篇,其中第一作者或通讯作者论文30余篇,同时是Minerals Engineering, Powder Technology, Separation and Purification Technology, Advanced Powder Technology, IEEE Transaction on Magnetics等多个SCI期刊的通讯审稿人。申请国家发明专利20余项(排名前三),已授权10余项,修订《磁选理论》专著一部。主持国家自然科学基金青年基金:基于磁介质设计实现下游捕收强化弱磁性矿物捕集效率及其机理研究(No.51804341);湖南省自然科学青年科学基金:强磁选机中齿板介质椭圆齿设计强化弱磁性矿物捕集的研究(No.2019JJ50833)。


    发表论文:

    [1] Xiayu Zheng*, Zixi Sun, Yuhua Wang*, Dongfang Lu, Zixing Xue, Matching relation between matrix aspect ratio and applied induction for maximum particle capture in longitudinal high gradient magnetic separation, Separation and Purification Technology,241(2020):116687.

    [2] Yuhua Wang, Zixing Xue, Xiayu Zheng*, Dongfang Lu, Zixi Sun, Matching relation between matrix aspect ratio and applied magnetic induction for maximum particle capture in transversal high gradient magnetic separation, Minerals Engineering, 151(2020):106316.

    [3] Zixing Xue, Yuhua Wang, Xiayu Zheng*, Dongfang Lu, Xudong Li, Particle capture of special cross-section matrices in axial high gradient magnetic separation: A 3D simulation, Separation and Purification Technology,237(2020):116375.

    [4] G. Zhu, Y. Zhao, X. Zheng*, Y. Wang, H*. Zheng, D. Lu, Surface features and flotation behaviors of spodumene as influenced by acid and alkali treatments, Applied surface Science,507(2020):145058.

    [5] Zhicheng Hu, Jun Zhang, Jianguo Liu, Yuhe Tang*, Xiayu Zheng*, Model of particle accumulation on matrices in transverse field pulsating high gradient magnetic separator, Minerals Engineering, 146(2020):106105.

    [6] Dongfang Lu, Jianjun Liu, Zhiyong Cheng, Xudong Li, Zixing Xue, Si Li, Xiayu Zheng*, Yuhua Wang*, Development of an open-gradient magnetic separator in the aerodynamic field, Physicochemical Problems of Mineral Processing,56(2020),325-337.

    [7] Lu Dongfang, Chen Lanlan, Ma Yongyi, Zheng Xiayu*, Wang Yuhua*, Effects of ultrasonic pretreatment on the flotation behavior of galena with and without the presence of pyrite, Physicochemical Problems of Mineral Processing,56(2020):611-624.

    [8] Yuhua Wang, Zixing Xue, Xiayu Zheng*, Dongfang Lu, Xudong Li, Haoran Chu, Study on favorable matrix aspect ratio for maximum particle capture in axial high gradient magnetic separation, Minerals Engineering,135(2019):48-54.

    [9] Yuhua Wang, Zixing Xue, Xiayu Zheng*, Dongfang Lu, Si Li, Xudong Li, Effect of matrix saturation magnetization on particle capture in high gradient magnetic separation, Minerals Engineering,139(2019):105866.

    [10] Xiayu Zheng, Zixing Xue, Yuhua Wang, Guangli Zhu*, Dongfang Lu, Xudong Li, Modeling of particle capture in high gradient magnetic separation: A review, Powder Technology,352(2019):159-169.

    [11] Xiayu Zheng, Yuhua Wang*, Dongfang Lu*, Xudong Li, Study on the application of elliptic cross-section matrices for axial high gradient magnetic separation :key considerations for optimization, Physicochemical Problems of Mineral Processing,55(2019):655-666.

    [12] Wang Yuhua, Gao Danxiao, Zheng Xiayu*, Lu Dongfang, Li Xudong, Rapid determination of the magnetization state of elliptic cross-section matrices for high gradient magnetic separation, Powder Technology,339(2018):139-148.

    [13] Wang Yuhua, Gao Danxiao, Zheng Xiayu*, Lu Dongfang, Li Xudong, Study on the demarcation of applied magnetic induction for determining magnetization state of matrices in high gradient magnetic separation, Minerals Engineering,127(2018):191-197.

    [14] Zheng Xiayu, Wang Yuhua*, Lu Dongfang, Li Xudong, Theoretical and experimental study on elliptic matrices in the transversal high gradient magnetic separation, Minerals Engineering,111(2017):68-78.

    [15] Zheng Xiayu, Wang Yuhua*, Lu Dongfang*, Li Xudong, Li Si, Chu Haoran, Comparative study on the performance of circular and elliptic cross-section matrices in axial high gradient magnetic separation: Role of the applied magnetic induction, Minerals Engineering,110(2017):12-19.

    [16] Zheng Xiayu, Guo Nana, Cui Rui, Lu Dongfang, Li Xudong, Li Maolin*, Wang Yuhua*, Magnetic field simulation and experimental tests of special cross-sectional shape matrices for high gradient magnetic separation, IEEE Transactions on Magnetics,53(2017):9200110.

    [17] Zheng Xiayu, Wang Yuhua*, Lu Dongfang*, Study on buildup of fine weakly magnetic minerals on matrices in high gradient magnetic separation, Physicochemical Problems of Mineral Processing,53(2017):94-109.

    [18] Zheng Xiayu, Wang Yuhua*, Lu Dongfang, Investigation of the particle capture of elliptic cross-sectional matrices for high gradient magnetic separation, Powder Technology,297(2016):303-310.

    [19] Zheng Xiayu, Wang Yuhua*, Lu Dongfang, Effect of matrix shape on the capture of fine weakly magnetic matrices in high gradient magnetic separation, IEEE Transactions on Magnetics,52(2016):7005111.

    [20] Zheng Xiayu, Wang Yuhua*, Lu Dongfang, Particle capture efficiency of elliptic matrices for high gradient magnetic separation, Separation Science and Technology, 51(2016):2090-2097.

    [21] Zheng Xiayu*, Wang Yuhua, Lu Dongfang, Particle capture of elliptic cross-section matrices for parallel stream high gradient magnetic separation, COMPEL,35(2016):187-199.

    [22] Zheng Xiayu, Wang Yuhua*, Lu Dongfang, A realistic description of influence of the magnetic field strength on high gradient magnetic separation, Minerals Engineering,79(2015):94-101.

    [23] Zheng Xiayu, Wang Yuhua*, Lu Dongfang, Study on capture radius and efficiency of fine weakly magnetic minerals in high gradient magnetic field, Minerals Engineering,74(2015):79-85.

    [24] G. Zhu, Y. Cao, Y. Wang*, X. Wang*, J.D. Miller, D. Lu, X. Zheng, Surface chemistry features of spodumene with isomorphous substitution, Minerals Engineering,146(2020):106139.

    [25] S. Li, Y. Wang*, D. Lu*, X. Zheng, X. Li, Improving separation efficiency of galena flotation using the Aerated Jet Flotation Cell, Physicochemical Problems of Mineral Processing,56(2020):513-527.

    [26] Y. Wang*, N. Sun, H. Chu, X. Zheng, D. Lu, H. Zheng, Surface dissolution behavior and its influences on the flotation separation of spodumene from silicates, Separation Science and Technology, DOI: 10.1080/01496395.2020.1768120.

    [27] G. Zhu, Y. Wang*, X. Wang*, J.D. Miller, D. Lu, X. Zheng, Y. Zhao, H. Zheng, Effects of grinding environment and lattice impurities on spodumene flotation, Transactions of Nonferrous Metals Society of China,29(2019):1527-1537.

    [28] S. Li, D. Lu*, X. Chen, X. Zheng, X. Li, H. Chu, Y. Wang*, Industrial application of a modified pilot-scale Jameson cell for the flotation of spodumene ore in high altitude area, Powder Technology,320(2017):358-361.

    [29] Y. Wang, D. Lu, L. Wang, X. Zheng, Flotation separation of limonite from quartz with sodium oleate: effects of limonite dissolution and addition of sodium hexametaphosphate, Mineral Processing and Extractive Metallurgy, https://doi.org/10.1080/25726641.2018.1531591.

    申请专利

    (1) 郑霞裕, 王毓华, 薛子兴, 卢东方, 孙自玺. 一种高梯度磁选实验装置,CN201910983373.8.

    (2) 郑霞裕, 王毓华, 薛子兴, 卢东方, 孙自玺. 组合式立环悬浮扰动高梯度磁选机及利用其选矿的方法,CN201910985792.5.

    (3) 郑霞裕, 王毓华, 卢东方. 下游捕收式磁介质、磁介质堆、间歇式磁选设备、立环高梯度磁选机和磁选矿方法, CN201811310905.3.

    (4) 郑霞裕, 王毓华, 卢东方. 组合式磁介质、磁介质堆、间歇式磁选设备和立环高梯度磁选机, CN201811310818.8.

    (5) 郑霞裕, 王毓华, 卢东方. 一种单面齿板介质、双面齿板介质、齿板介质盒及平环强磁选机, CN201811310898.7.

    (6) 郑霞裕, 王毓华, 卢东方. 用于弱磁性矿物精选的磁力水力旋流器、磁重联合分选系统及磁重联合分选的方法, CN201811315659.0.

    (7) 郑霞裕, 王毓华, 卢东方, 薛子兴. 磁重联合分选工艺, CN201811389480.X.

    (8) 郑霞裕, 王毓华, 卢东方, 薛子兴. 一种磁重联合分选工艺, CN201811389497.5.

    (9) 王毓华,郑霞裕, 卢东方, 薛子兴, 李旭东, 刘剑军. 一种磁分选机, CN201910672788.3.

    (10) 王毓华,郑霞裕, 卢东方, 李旭东, 薛子兴, 刘剑军. 一种紊流平板式磁选机, CN201910673577.1.

    (11) 卢东方, 王毓华, 郑霞裕, 刘振强, 褚浩然. 一种用于宽粒级预选、反浮选的重浮分选装置, CN201911052546.0.

    (12) 王毓华, 卢东方, 郑霞裕, 姚兰星, 赵悦豪, 郑海涛, 褚浩然. 一种用于高砷含碳黄铁矿型金矿浮选的组合浮选剂及其应用, CN201810289110.2.

    (13) 王毓华, 卢东方, 郑霞裕, 罗柳, 高丹校. 锂辉石矿浮选捕收剂及其制备方法和锂辉石矿浮选方法, CN201910654106.6.

    (14) 王毓华, 卢东方, 郑霞裕, 李思, 李旭东, 薛子兴. 一种浮选柱装置, CN201910672789.8.

    (15) 卢东方, 王毓华, 郑霞裕, 胡岳华, 姜涛. 用于磁选机的聚磁介质、聚磁介质盒、聚磁介质柱及其应用, CN201510076770.9.

    (16) 卢东方, 王毓华, 胡岳华, 郑霞裕. 风力带式磁选机, CN201610303067.1.

    (17) 卢东方, 王毓华, 胡岳华, 马永义,李旭东, 郑霞裕. 一种分选装置, CN201721177655.1.


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    [1]  2018.3- Now
    中南大学 | 资源加工与生物工程学院 | 特聘副教授
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