左蔚然

信息来源: 暂无 发布日期: 2016-07-06 浏览次数:

 

 

姓名:左蔚然                 性别:男

职称:教授                     学历:博士研究生

专业:矿物加工工程

电话:13489988094      电子邮件:zuoweiran@163.com

研究方向:矿石高压电脉冲破碎机理及其在浮选、浸出、磨矿中的应用

工作经历:

2017.07-至今                    福州大学                                                       教授、硕士生导师、旗山学者

2016.04-2016.06              福州大学                                                        旗山学者

教育经历:

2011.10-2015.12     澳大利亚昆士兰大学JK矿物研究中心     博士研究生        矿业工程

2009.09-2013.07     中国矿业大学化工学院                                   博士研究生 矿物加工工程

2005.09-2008.07     中国矿业大学化工学院                                   硕士研究生 矿物加工工程

2001.09-2005.07     中国矿业大学化工学院                                   本科                  矿物加工工程

2007.05-2008.03&

2010.07-2011.03     澳大利亚昆士兰大学JK矿物研究中心      访问学者

科研简介:

目前主持国家自然科学基金青年项目1项(高压电脉冲破碎技术预处理堆浸原矿的应用基础研究,2017-2020,批准号51604084),福建省自然科学基金青年项目1项(高压电脉冲破碎预富集低品位铜矿的机理研究,2017-2020,批准号2017J05081),福州大学旗山学者人才基金科研项目1项(矿石高压电脉冲破碎的应用基础研究,2016-2019,批准号XRC-1642),福州大学贵重仪器设备开放测试基金1项(高压电脉冲破碎对斑岩铜矿矿石性质和分离特性的影响研究,2017,批准号2017T040)。

作为主要参加人参与亚太洁净发展和气候伙伴中澳合作项目、国家自然科学基金面上项目、澳大利亚煤炭协会项目、Newcrest Mining公司和DMS Powders公司企业研发项目等。

获奖情况:

2017年入选为福建省高校杰出青年科研人才培育计划

2017年被Coalition for Energy Efficient Comminution授予年度技术研究奖章

2017年指导学生获得第二届全国高等学校矿物加工工程工程专业学生实践作品大赛三等奖

2016年指导学生获得第一届全国高等学校矿物加工工程工程专业学生实践作品大赛三等奖

2016年09月被福州大学紫金矿业学院评为“优秀大学生导师”

2015年获国家留学基金委优秀自费留学生奖学金

2015年获昆士兰大学OZ Minerals Engineering Prize奖学金

近五年发表的学术论文:

过去五年在Minerals Engineering、Fuel、Powder Technology等行业顶级期刊上发表SCI论文12篇,EI论文1篇,国际会议论文4篇。

[1]Zuo, W., Shi, F., van der Wielen, K. and Weh, A., 2015. Ore particle breakage behaviour in a pilot scale high voltage pulse machine. Minerals Engineering 84: 64-73.

[2]Zuo, W., and Shi, F., 2015. Modelling of high voltage pulse breakage of ore. Minerals Engineering 83: 168-174.

[3]Zuo, W., Shi, F. and Manlapig, E., 2015. Pre-concentration of copper ores by high voltage pulses. Part 1: Principle and major findings. Minerals Engineering 79: 306-314.

[4]Zuo, W., and Shi, F., 2015. A t10-based method for evaluation of ore pre-weakening and energy reduction. Minerals Engineering, 79: 212-219.

[5]Zuo, W., Shi, F. and Manlapig, E., 2014. Electrical breakdown channel locality in high voltage pulse breakage. Minerals Engineering 69: 196-204.

[6]Zuo, W., and Shi, F., 2016. Ore impact breakage characterisation using mixed particles in wide size range. Minerals Engineering.

[7]Shi, F., Zuo, W. and Manlapig, E., 2015. Pre-concentration of copper ores by high voltage pulses. Part 2: Opportunities and challenges. Minerals Engineering 79: 212-219.

[8]Shi, F., Zuo, W., 2014. Coal breakage characterisation – Part 1: Breakage testing with the JKFBC. Fuel 117: 1148-1155.

[9]Shi, F., Zuo, W. and Manlapig, E., 2013. Characterisation of pre-weakening effect on ores by high voltage electrical pulses based on single-particle tests. Minerals Engineering 50-51: 69-76.

[10]Shi, F., Manlapig, E. and Zuo, W., 2014. Progress and challenges in electrical comminution by high voltage pulses. Chemical Engineering & Technology 37(5): 765-769.

[11]Li, H., He, Y., Shi, F., Zuo, W., Zhou, N., Wei, H., Wang S. and Xie, W. 2016. Performance of the static air classifier in a Vertical Spindle Mill. Fuel, 177: 8-14.

[12]Wei, H., He, Y., Wang, S., Xie, W., Zuo, W., Shi, F., 2014. Effects of circulating load and grinding feed on the grinding kinetics of cement clinker in an industrial CKP mill. Powder Technology 253, 193-197.

[13]Zuo, W., Zhao, Y., He, Y., Shi, F., Duan, C., 2012. Relationship between coal size reduction and energy input in Hardgrove mill. International Journal of Mining Science and Technology 22, 121-124.

[14]Zuo, W., Shi, F. and Manlapig, E., 2014. The effect of metalliferous grains on electrical comminution of ore. 27th International Mineral Processing Congress, Santiago, Chile, Chapter 14, pp. 106-115.

[15]Shi, F., Zuo, W. and Manlapig, E., 2015. Potential applications of ore pre-concentration using high vltage pulses for AG/SAG milling. SAG International Conference 2015, Vancouver.

[16]Shi, F., Manlapig, E. and Zuo, W., 2013. Research on electrical comminution by high voltage pulses undertaken at the JKMRC. 13th European Symposium on Comminution and Classification, Braunschweig, Germany, pp. 255-258.

[17]Shi, F., Krishnan, N., Weid, F., Wielen, K.P., Zuo, W. and Manlapig, E., 2014. A potential application of high voltage pulse technology in a gold-copper ore grinding circuit. 27th International Mineral Processing Congress, Santiago, Chile, Chapter 14, pp. 106-115.