人物简介
  • 姓        名:陈永强
  • 职        务:教授/博士生导师
  • 电子邮件: chyq0707@sina.com

办公地点:冶金生态楼513房间

本科生课程:有色金属冶金学、有色冶金设备

研究生课程:矿浆电解

科研方向:

复杂多元有色金属矿产资源综合利用、有色金属二次资源高效分离与利用、矿浆电解技术及工程化、锑铋清洁冶金

  • 个人简介
  • 成就及业绩
  • 教育与工作简历:

    1990-1994,东北大学,本科

    1994-1997,东北大学,硕士

    2001-2009,北京科技大学,博士

    1997-1999,北京矿冶研究总院,助理工程师

    1999-2003,北京矿冶研究总院,工程师

    2003-2009,北京矿冶研究总院,高级工程师

    2009-2015,北京矿冶研究总院,教授级高级工程师

    2015-今,北京科技大学,教授


    主要学术成就:

    长期从事复杂多元有色金属矿产资源/有色金属二次资源高效综合利用和清洁生产的工程化研究,在多元复杂矿湿法与火法冶金的矿相选择性转化与过程强化、短流程冶金、多金属高效分离与提取、过程工程放大与关键装置研发等方面进行过系统的应用基础与工程化研究,先后负责和参与10余项国家级项目课题的研究,负责和作为主要科研骨干参与企业委托科研及设计项目50余项;发表论文50余篇,其中SCI、EI收录30余篇;已获授权发明专利50余项;获国家科技进步奖二等奖1项、部级技术发明奖一等奖1项、部级科技进步奖一等奖6项、部级科技进步奖二等奖1项、部级优秀工程咨询成果奖一等奖4项。


    部分代表性论文:

    [1] Zhao Qinqing, Ma Baozhong*, Lv Yingwei, Hu Dezhi, Chen Yongqiang*, Wang Chengyan. A novel technology for phosphorus recovery from leaching residue of montebrasite by alkaline leaching and crystallization. Journal of Cleaner Production, 2023, 415: 137832, WOS 001030038600001.

    [2] Hu Xiujuan, Ma Baozhong, He Fei, Chen Yongqiang*, Wang Chengyan. Ammonia leaching process for selective extraction of nickel and cobalt from polymetallic mixed hydroxide precipitate. Journal of Environmental Chemical Engineering, 2022, 10(6): 108936, WOS 000964333200006.

    [3] Xie Xinfu, Fan Wenwen, Zhang, Jialiang*, Ma Ruixin, Chen Yongqiang*, Wang Chengyan. Regeneration of graphite anode from spent lithium iron phosphate batteries: Microstructure and morphology evolution at different thermal-repair temperature. Power Technology, 2023, 430: 118998, WOS 001081368800001.

    [4] Shi Shuyang, Ma Baozhong*, Zhao Ding, Li Xiang, Shao Shuang,Wang Chengyan, Chen Yongqiang*. Thermal behavior of Al(NO3)3•9H2O and its application in preparing Al2O3 and regenerating HNO3. Process Safety and Environmental Protection, 2023, 178:728-738. WOS 001071188000001.

    [5] Cao Zhihe, Ma Baozhong*, Wang Chengyan, Shi Bingding, Chen Yongqiang*. Thermodynamic analysis and application for preparing FePO4 from nitric acid pressure leach laterite residue by selective leaching in phosphoric acid and induced precipitation. Hydrometallurgy, 2022, 212: 105896, WOS 001046914300003.

    [6] Zhou Jiashun, Cao Zhihe, Ma Baozhong*, Chen Yongqiang*,Wang Chengyan. Effective separation and recovery of iron and chromium from laterite residue in the presence of calcium chloride. Process Safety and Environmental Protection, 2022, 166: 638-648. WOS 000874999700001.

    [7] Hou Huiyao, Shao Shuang, Ma Baozhong*, Li Xiang, Shi Shuyang, Chen Yongqiang*, Wang Chengyan. Sustainable process for valuable-metal recovery from circulating fluidized bed fly ash through nitric acid pressure leaching. Journal of Cleaner Production, 2022, 360: 132212, WOS 000808296200007.

    [8] Jin Hao, Zhang Jialiang, Wang Duoduo, Jing Qiankun, Chen Yongqiang, Wang Chengyan, Facile and efficient recovery of lithium from spent LiFePO4 batteries via air oxidation-water leaching at room temperature, Green Chemistry, 2022, 24(1): 152-162. WOS 000710576800001.

    [9] Mengen Lei, Baozhong Ma*, Dongya Lv, Chengyan Wang, Edouard Asselin, Yongqiang Chen*. A process for beneficiation of low-grade manganese ore and synchronous preparation of calcium sulfate whiskers during hydrochloric acid regeneration, Hydrometallurgy, 2020, 199: 105533. WOS 000604430300011.

    [10] Shi Shuyang,Ma Baozhong*, Sha Shuang, Chen Yongqiang*, Wang Chengyan. Phase Diagram of the Al(NO3)3-Fe(NO3)3-H2O(-HNO3) System and Its Application in the Separation of Al3+and Fe3+. Journal of Chemical and Engineering Data, 2023, 68: 441-450, WOS 000932502900001.