承担《选矿数学模型》等课程，完成省级、校级教研教改项目4项，指导学生在国家级竞赛获奖5项。已指导毕业硕士生4人。在指导博士生2人，硕士生11人，其中外籍学生1人。

围绕矿物加工数学建模、选矿过程检测与控制、地质冶金学等研究方向开展智能矿物加工研究，开发了多项选矿测试技术和数学模型。

中国能源学会专家委员会委员；
《International Journal of Mining Science & Technology》、《中国有色金属学报（中英文版）》、《金属矿山》等期刊青年编委；
Minerals Engineering、Powder Technology、Applied Surface Science 等国内外10余部学术期刊审稿人；
在多家企业担任碎磨技术顾问。

国家自然科学基金面上项目：金属矿石高压电脉冲破碎预富集过程的在线检测与精准调控机制，2021-2024
国家自然科学基金青年项目：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
福建省自然科学基金面上项目：高压电脉冲作用下矿石颗粒选择性破碎机理研究，2020-2024
福建省自然科学基金青年项目：高压电脉冲破碎预富集低品位铜矿的机理研究，2017-2020
福建省高校杰出青年科研人才培育计划项目：2017-2019
福州大学旗山学者人才基金科研项目：2016-2019
济南重工集团：矿石异质性对球磨机运行效率影响研究，2023
济南重工集团：半自磨机研究的软件与实验测试平台建设，2022
济南重工集团：宜丰国轩锂业有限公司溢流型球磨机选型与流程模拟，2022
金川集团：金川四矿区贫矿半自磨-球磨回路磨机选型与流程模拟，2022
贵州九兴红光矿业公司：西藏某铅锌尾矿选矿探索试验咨询，2021
紫金矿业集团紫金矿冶设计研究院：破碎与磨矿研究领域技术服务，2021-2024
矿冶科技集团：基于宽粒级入料的矿石破碎性质在线快速表征技术研究，2019-2020

[1]    Li, B., Deng, R., Shi, F., He, Z., Ku, J., Zuo, W., Effect of feed quantity on breakage degree of ore particles subjected to high voltage pulses. Minerals Engineering, 2021, 160, 106693. （通讯作者）
[2]    Weiran Zuo; Zeming He; Fe ngnian Shi; Feng Rao; Bao Guo; Rongdong Deng; Effect of spatial arrangement on breakdown characteristics of synthetic particle in high voltage pulse breakage, Minerals Engineering, 2020, 149: 106241.
[3]    Weiran Zuo; Xinfeng Li; Fengnian Shi; Rongdong Deng; Wanzhong Yin; Bao Guo; Jiangang Ku; Effect of high voltage pulse treatment on the surface chemistry and floatability of chalcopyrite and pyrite, Minerals Engineering, 2020, 147: 106170.
[4]    Weiran Zuo; Zeming He; Fengnian Shi; Xinfeng Li; Jiangang Ku; A method to evaluate the overall breakage degree of pre-weakening processing and its applications, Advanced Powder Technology, 2019, 30: 2150-2159.
[5]    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.
[6]    Zuo, W., and Shi, F., 2015. Modelling of high voltage pulse breakage of ore. Minerals Engineering 83: 168-174.
[7]    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.
[8]    Zuo, W., and Shi, F., 2015. A t10-based method for evaluation of ore pre-weakening and energy reduction. Minerals Engineering, 79: 212-219.
[9]    Zuo, W., Shi, F. and Manlapig, E., 2014. Electrical breakdown channel locality in high voltage pulse breakage. Minerals Engineering 69: 196-204.
[10]    Zuo, W., and Shi, F., 2016. Ore impact breakage characterisation using mixed particles in wide size range. Minerals Engineering.
[11]    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.
[12]    Shi, F., Zuo, W., 2014. Coal breakage characterisation – Part 1: Breakage testing with the JKFBC. Fuel 117: 1148-1155.
[13]    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.
[14]    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.
[15]    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.
[16]    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.
[17]    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.
[18]    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.
[19]    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.
[20]    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.
[21]    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.

2021年，杰出青年教师励志奖，福州大学
2019年，厦航奖教金，福州大学
2018年，青年五四奖章，福州大学
2017年，年度技术研究奖章，澳大利亚Coalition for Energy Efficient Comminution
2015年，国家优秀自费留学生奖学金，国家留学基金委
2015年，OZ Minerals Engineering Prize矿冶类毕业生优秀学术成果奖学金，昆士兰大学