黄伟

研究助理教授

E-mail: huangw8@sustech.edu.cn

研究方向

1.  铜金矿、锂矿、可溶盐矿物、以及煤炭的高效分选技术；预富集技术

2.  建筑废弃物资源化

教育经历

2014-10至2019-03，昆士兰大学，矿物加工工程，博士，导师：施逢年（Frank Shi）

2012-09至2014-09，中国矿业大学，矿物加工工程，硕士，导师：赵跃民

2008-09至2012-06，武汉工程大学，矿物加工工程，学士，导师：何东升

工作经历

项目经验

1. 横向课题，OR2201009，平煤神马中煤资源高效综合利用研究，2022.03 - 2022.09，300万元，在研，主持。

2. 横向课题，K2142Z228，“微矿分离技术工业应用开发”项目，2021.12 - 2024.12，360万元，在研，子课题负责人。

3. 广东省区域联合基金-青年基金项目，2021A1515110015，高压电选择性破碎在废弃混凝土回收的应用基础研究，2021.10 - 2024.10，10万元，在研，主持。

4. 横向课题，批准号无，high voltage pulse collaborative research funding，2018.1 - 2023.12，120万澳元，在研，参与

5. 横向课题，批准号无，high voltage pulse pre-concentration and pre-weakening characterization of Newcrest's Namosi ore，2018.1 - 2018.12，20万澳元，已结题，参与

6. 横向课题，批准号无，high voltage pulse ore characterisation test of Newcrest Telfer ore，2017.1 - 2018.1，10万澳元，已结题，参与

荣誉及获奖

1. 昆士兰大学优秀博士论文（Oz Mineral Price，https://smi.uq.edu.au/article/2020/04/oz-minerals-prize-awarded-jkmrc-alumnus），2020年4月。

2. 澳大利亚全球精英计划（Global Talent Independent Program，GTI），2020年8月。

代表性论文和专利

1. Huang W, Chen Y^*. The application of high voltage pulses in the mineral processing industry - A review. Powder Technology 2021;393:116-30.

2. Huang W, Nguyen AV^*. Specific ion effects in NaCl-KCl flotation with carboxylates. IMPC 2016-28th International Mineral Processing Congress. 2016. Canadian Institute of Mining, Metallurgy and Petroleum; 2016.

3. Huang W, Ren F, Shi F^*, Steel K. X-ray CT observations of selective damage of mineralised synthetic particles by high voltage pulses. Minerals Engineering 2019;143:106007.

4. Huang W, Shi F^*. Improving high voltage pulse selective breakage for ore pre-concentration using a multiple-particle treatment method. Minerals Engineering 2018;128:195-201.

5. Huang W, Shi F^*. Selective breakage of mineralised synthetic particles by high voltage pulses. Part 1: Metalliferous grain-induced breakage in a two-particle paired system. Minerals Engineering 2019;134:261-8.

6. Huang W, Shi F^*. Selective weakening of mineralised synthetic particles by high voltage pulses. Minerals Engineering 2020;146:106110.

7. Huang W, Shi F^*. Selective breakage of mineralised synthetic particles by high voltage pulses. Part 2: Interactions between mineralised particles in a multiple-particle system. Minerals Engineering 2020;146:106149.

8. Huang W, Shi F^*, Antonio C, Runge K. Influence of grade heterogeneity and gangue mineralogy on the efficacy of high voltage pulse enabled ore pre-concentration. Minerals Engineering 2020;159:106654.

9. Huang W, Shi F^*, Antonio C, Runge K, Seaman D. High voltage pulse pre-concentration study using a low-grade copper-gold ore. Mill Operator Conference, Brisbane, Australia. 2018.

10. Huang W, Shi F^*, Jokovic V. A method to determine the minimum quantity of ore sample required for laboratory scale study of ore pre-concentration by high voltage pulses. Minerals Engineering 2018;127:247-55.

11. Huo X, Zuo W, Shi F, Huang W^*. Coal middling retreatment using high voltage pulse technique. Part 1: Experimental findings. Fuel 2022;314:123066.

12. Yang S, Bao S, Liu C, Yuan D*, Huang W^*. An analytical model of the growth of invisible bubbles on solid surfaces in a supersaturated solution. Chemical Engineering Science 2020;215:114968.

13. Chen Y, Zhou B, Zhang X, Yang S, Huang W*. Understanding the role of kerosene on the coal particle and bubble attachment process. Fuel 2022;307:121915.

14. Fu W, Chen H, Yang S, Huang W, Huang Z. Poly(diallyldimethylammonium-MoS4) based amorphous molybdenum sulphide composite for selectively mercury uptake from wastewater across a large pH region. Chemosphere 2019;232:9-17.