人物简介
  • 姓        名:马保中
  • 职        务:教授 / 博士生导师 / 冶yl6809永利(中国)股份有限公司副院长
  • 电子邮件: mabaozhong@ustb.edu.cn; bzhma@126.com
  • 办公电话: +86-10-62332271                     传        真: +86-10-62332265

  • 办公地址:冶金生态楼311

  • 本科课程: 冶金单元设计与操作、镍钴冶金、湿法冶金

  • 研究生课程:湿法冶金及其应用

  • 科研方向:复杂多元金属资源材料化冶金、有色冶炼过程产物高效处置、退役电池二次资源清洁回收

  • 个人简介
  • 成就及业绩
  • 教育与工作经历:

    2023.12-今,北京科技大学,冶yl6809永利(中国)股份有限公司,副院长

    2017.07-今,北京科技大学,副教授、教授

    2021.04-2023.10,山东恒邦冶炼股份有限公司,博士后

    2019.08-2020.05,加拿大不列颠哥伦比亚大学(UBC),访问学者

    2008.07-2017.06,北京矿冶研究总院,助理工程师、工程师、高级工程师

    2014.09-2017.05,昆明理工大学,博士

    2005.09-2008.06,中国科学院过程工程研究所,硕士

    2001.09-2005.06,中南大学,本科


    主要学术成就:

    北科领军学者,国家重大人才工程入选者,国家重点研发计划重点专项首席科学家。兼任:国家科技部“循环经济关键技术与装备”重点专项总体专家组专家;中国有色金属学会重有色金属冶金专委会副主任委员,有色冶金资源综合利用专委会、矿冶过程界面化学专委会、矿物功能材料专委会专家委员;《International Journal of Minerals, Metallurgy and Materials》、《中国有色金属学报(中英文版)》、《有色金属工程》等10余期刊编委/青年编委。

    主要从事多元复杂金属资源综合利用、清洁回收及新材料制备的应用基础研究。发明了红土镍矿清洁利用、锑金多金属矿低碳冶金、废旧杂铜高值再生、锂铷铯共伴生矿协同提取、高铝煤矸石/粉煤灰综合处置、工业废酸选择性脱氟氯、退役太阳能电池组分高效回收等多项原创技术。建成年30万吨镁质红土镍矿非熔融态金属化还原镍铁生产线、年180万吨褐铁型红土镍矿硝酸加压浸出生产线、年20万吨废杂铜直接制备高质黄铜合金生产线、万吨级锑金精矿低碳冶炼工程示范,取得显著经济、社会和环境效益。

    先后主持国家重点研发计划重点专项项目/课题,国家自然科学基金重点/面上/青年项目,北京市自然科学基金面上项目等30余项,参与国家/省部/企业科研项目60余项。以第一或通讯作者发表论文170余篇,其中SCI论文140余篇,中科院一区60余篇;获授权专利90余件,其中国际专利4件;出版国家级重点专著1部;研究成果获省部级一等奖5项,二等奖2项,个人荣获首届邱定蕃有色冶金青年科技奖、第五届中国有色金属创新争先计划。指导博/硕士生60余人,毕业30余人,其中10余人获国家奖学金,4人获北京市优秀毕业生。


    代表性专著:

    [1] 王成彦,马保中.《红土镍矿冶炼》,冶金工业出版社,2020.(100.4万字).

    部分代表性论文:

    [1] Zhihe Cao, Baozhong Ma*, Chengyan Wang, Yongqiang Chen. Application and thermodynamic analysis of iron and chromium fractional recovery and phosphoric acid regeneration from iron phosphate pre-solution.  Chemical Engineering Journal , 2024, 500, 156793. (SCI, IF="13.3," 中科院一区).

    [2] Shuyang Shi, Baozhong Ma*, Hui Yang, Yongqiang Chen, Chengyan Wang. Selective separation of Fe and Ga from Al-containing HNO3 leach liquor using cupferron: Efficiency, mechanism, and regeneration.  Chemical Engineering Journal , 2024, 489, 151178. (SCI, IF="13.3," 中科院一区).

    [3] Dezhi Hu, Baozhong Ma*, Yingwei Lv, Qinqing Zhao, Chengyan Wang, Yongqiang Chen. Selective extraction of lithium from montebrasite and clean treatment of tailings.  Journal of Cleaner Production , 2024, 466, 142863. (SCI, IF="9.7," 中科院一区).

    [4] Hui Yang, Baozhong Ma*, Shuyang Shi, Qinqing Zhao, Chengyan Wang, Yongqiang Chen. An efficient approach for preparation of battery-grade Li2CO3 from intermediate product Li2SiO3.  Desalination , 2024, 586, 117813. (SCI, IF="8.3," 中科院一区).

    [5] Jiancheng Yu, Baozhong Ma*, Longfei Shi, Chengyan Wang, Yongqiang Chen. Selective removal of Fe(III) from HNO3 leach liquor of saprolitic laterite ore: Precipitation efficiency, hydrolysis mechanism, and removal strategy.  Separation and Purification Technology , 2024, 344, 127273. (SCI, IF="8.1," 中科院一区).

    [6] Yubo Liu, Baozhong Ma*, Yingwei Lv, Chengyan Wang*, Yongqiang Chen. Thermodynamics analysis and response surface methodology to investigate decomposition behaviors for lepidolite sulfation products in presence of coal.  Science of the Total Environment , 2023, 888, 164089. (SCI, IF="9.8," 中科院一区).

    [7] Longfei Shi, Baozhong Ma*, Zhihe Cao, Chengyan Wang, Xinglong Xiong, Chenqian Chen. Thermodynamic analysis and application for extracting valuable components from iron-phosphorus residue of spent catalysts.  Waste Management , 2023, 170, 144-153. (SCI, IF="8.1," 中科院一区).

    [8] Yingwei Lv, Yubo Liu, Baozhong Ma*, Chengyan Wang, Yongqiang Chen. Preferential extraction of rubidium from high concentration impurity solution by solvent extraction and preparation of high-purity rubidium salts.  Desalination , 2022, 545, 116162. (SCI, IF="11.211," 中科院一区).

    [9] Baozhong Ma*, Xiang Li, Weijiao Yang, Die Hu, Peng Xing, Bao Liu, Chengyan Wang*. Nonmolten state metalized reduction of saprolitic laterite ores: Effective extraction and process optimization of nickel and iron.  Journal of Cleaner Production , 2020, 256, 120415. (SCI, IF="9.297," 中科院一区).

    [10] Baozhong Ma, Xiang Li, Bao Liu, Peng Xing, Wenjuan Zhang, Chengyan Wang*, Yongqiang Chen. Effective separation and recovery of valuable components from CIGS chamber waste via controlled phase transformation and selective leaching.  ACS Sustainable Chem  istry & Engineering , 2020, 8, 3026-3037. (SCI, IF="8.198," 中科院一区).