更新日期:2025.2.24

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姓名: |
毛玉强 |
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职称职务: |
讲师,硕士生导师 |
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学位: |
工学博士 |
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电话: |
18183895075 |
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电子邮箱: |
cumtmyq@163.com |
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研究方向: |
浮选理论与工艺、矿产资源综合利用、矿物表界面润湿理论 |
个人概况: |
毛玉强,工学博士,昆明理工大学特聘教授/讲师、硕士生导师,2021至2022年在加拿大阿尔伯塔大学曾宏波院士团队,进行联合培养,2023年博士毕业于中国矿业大学矿物加工工程专业,同年入选昆明理工大学高层次引进人才(四层次、特聘教授)。主持国家自然科学基金、云南省“兴滇英才支持计划”青年人才项目、云南省科技厅“双一流”创建联合专项重点项目和云南省基础研究计划面上项目等省部级以上项目5项。发表学术论文20余篇,第一或通讯作者SCI论文21篇,第一作者中文EI论文2篇,以第一发明人授权发明专利1项。担任中国再生资源产业技术创新战略联盟青年专家,担任《Green and Smart Mining Engineering》、《有色设备》和《金属世界》等期刊青年编委;担任《Minerals Engineering》、《Fuel》和《Journal of Cleaner Production》等国际知名期刊审稿人。
2012.09-2016.06 河南理工大学矿物加工工程本科,获学士学位,获免试研究生资格
2016.09-2023.06 中国矿业大学矿物加工工程博士研究生,获工学博士学位(硕博连读)
2021.07-2022.12 加拿大阿尔伯塔大学化学工程,国家公派联合培养博士研究生
2023.08-至今 昆明理工大学矿物加工工程,讲师
[1] 国家自然科学基金青年项目,2025.01-2028.12,30万,主持,在研
[2] 云南省科技厅双一流创建联合专项重点项目,2024.12-2027.11,100万,主持,在研
[3] 云南省基础研究计划面上项目,2025.06-2028.05,10万,主持,在研
[4] 云南省“兴滇英才支持计划”青年人才项目,2025.01-2029.12,主持,在研
[5] 教育部重点实验室开放基金,2024.01-2025.12,3万,主持,在研
[6] 云南省科技厅双一流创建联合专项重点项目,2023.12-2026.11,100万,参与,在研,
[7] 2019年中国矿业大学博士创新专项基金,2019.04-2020.04,4万,主持,结题
[8] 2020年江苏省研究生科研与实践创新计划项目,2020.04-2021.04,4万,主持,结题
[9] 2021年江苏省研究生科研与实践创新计划项目,2021.04-2022.04,4万,主持,结题
[10] 国家自然科学基金联合基金项目,2021.01-2023.12,58万,参与,结题
[1] Xingcai Yu, Han Wang, Liang Wang, et al. Enhance recovery mechanism of difficult to enrich copper oxide component in copper smelting slag: Sulfidization-xanthate flotation [J]. Chemical Engineering Journal 2024,502. (通讯作者)
[2] Yuqiang Mao, Peilun Shen, Liuyang Dong, et al. Role of oil droplet size on dynamic pore wetting of active carbon and particle-bubble interaction: New inspiration for enhancing the porous mineral floatability [J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects 2024,698.
[3] Xingcai Yu, Zhengdao Yin, Yu Chen, et al. Experimental and DFT study of modified malachite with 2,5-dimercapto-1,3,4-thiadiazole and its response to sulfidization-xanthate behavior [J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects 2024,693. (通讯作者)
[4] Yuqiang Mao*, Wencheng Xia*, Yaoli Peng, et al. Dynamic pore wetting and its effects on porous particle flotation: A review. International Journal of Mining Science and Technology, 2022, 32(6): 1365-1378.
[5] Yuqiang Mao, Wencheng Xia*, Yaoli Peng, et al. Ultrasonic-assisted flotation of fine coal: A review. Fuel Processing Technology, 2019, 195: 1-19.
[6] Yuqiang Mao, Xiangning Bu*, Yaoli Peng, et al. Effects of simultaneous ultrasonic treatment on the separation selectivity and flotation kinetics of high-ash lignite. Fuel, 2019, 259: 1-10.
[7] Yuqiang Mao, Wencheng Xia*, Yaoli Peng, et al. Wetting of coal pores characterized by LF-NMR and its relationship to flotation recovery. Fuel, 2020, 272: 1-7.
[8] Yuqiang Mao, Yuran Chen*, Xiangning Bu, et al. Effects of 20 kHz ultrasound on coal flotation: The roles of cavitation and acoustic radiation force. Fuel, 2019, 256: 1-7.
[9] Yuqiang Mao, Qiang Li, Wencheng Xia*, et al. Pore wetting regulation of porous active carbon by sodium oleate and its influence on particles-bubble attachment: A guidance for improving porous mineral floatability. Powder Technology, 2020, 375: 445-452.
[10] Yuqiang Mao, Wencheng Xia*, Guangyuan Xie, et al. Effects of pre-wetting time on surface topography and floatability of lignite particles. Powder technology, 2020, 359: 1-7.
[11] Wencheng Xia*, Yuqiang Mao*, Guangyuan Xie, Yaoli Peng. Role of sodium oleate in the in-situ pore wetting of porous active carbon by 1H LF-NMR: Implications for porous mineral flotation. Powder Technology, 2021, 392:116-122.
[12] Yuqiang Mao, Wencheng Xia*, Yaoli Peng, et al. Relationship model between pore wetting and floatability of active carbon: Potential guidance on porous mineral flotation. Minerals Engineering, 2020, 157: 1-8.
[13] Yuqiang Mao, Wencheng Xia*, Guangyuan Xie, et al. Rapid detection of the total moisture content of coal fine by low-field nuclear magnetic resonance. Measurement, 2020, 155: 1-6.
[14] Yuqiang Mao, Yuting Chen, Wencheng Xia*, et al. Understanding the dynamic pore wetting by 1H LF-NMR characterization. Part 1: Effect of dynamic viscosity of liquid. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2021, 613: 1-11.
[15] Yuqiang Mao, Wencheng Xia*,, Guangyuan Xie, et al. Understanding the dynamic pore wetting by 1H LF NMR characterization. Part 2: Effect of liquid surface tension. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2021, 618: 1-9.
[16] Yaoli Peng, Yuqiang Mao, Wencheng Xia*, et al. Ultrasonic flotation cleaning of high-ash lignite and its mechanism. Fuel, 2018, 220: 558-566.
[17] 毛玉强, 夏文成, 卜祥宁, 等. 超声波强化褐煤浮选及其作用机制探讨. 煤炭学报, 2017, 42(11): 3006-1013.
[18] 毛玉强, 夏文成*, 彭耀丽, 等. 孔隙润湿度影响褐煤可浮性的机制. 煤炭学报, 2020, 45(S1): 451-457.
[1] 一种基于低场核磁共振快速测量矿粒表面润湿性的方法, 发明专利, 2025100795420, 2025年
[2] 一种基于低场核磁共振快速检测煤炭全水分的方法, 发明专利, ZL201911372102.5, 2020年
[3] 脱泥型液固流化床粗煤泥分选溢流精煤分级装置. 实用新型专利, ZL 201710024070.4, 2023年
[4] 一种空化预处理与载体浮选相结合的微细矿物分选方法, 发明专利, ZL201911226134.4, 2020年
[1] 云南省“兴滇英才支持计划”青年人才,云南省人力资源和社会保障厅,2024;
[1] 博士研究生国家奖学金,中华人民共和国教育部,2019、2020、2021年
[2] 江苏省“三好学生”,江苏省教育厅,2021年
[3] 中国矿业大学优秀创新博士奖学金,中国矿业大学,2020年
[4] 中国矿业大学优秀学生,中国矿业大学,2019、2020、2021年