姓名:祖运
职称:副教授
联系方式:zuyun1990@126.com
主讲课程:本科生:《化工工艺学》(云南省第三批一流课程)
研究生:《高等反应工程》
个人简介:工学博士,硕士生导师,安徽安庆人。2020年入选云南省“兴滇英才支持计划”青年人才专项。主持国家级、省部级和企业委托研发计划等科研项目10项。作为主要完成人,荣获辽宁省自然科学二等奖(2021)、中国石油天然气集团科学技术奖基础研究一等奖(2023)、中国石油和化学工业联合会科技进步一等奖(2024)和三等奖(2025)、中国化工学会基础研究二等奖(2024)、中国稀土学会科技进步二等奖(2025)。以第一/通讯作者在Appl. Catal. B: Environ.、Chem. Eng. J.、J. Energy Chem.、J. Colloid Interf. Sci.、Sep. Purif. Technol.、Fuel、Microporous Mesoporous Mater.等国际著名期刊发表论文50余篇,ESI高被引2篇,申请(授权)发明专利10余件,参编学术专著1部,担任《Nanomaterials》期刊客座编辑。指导多名研究生获云南省优秀硕士学位论文。
主要研究方向:
[1]磷系分子筛智能设计与合成
[2]低碳烃高值化利用
[3]CO2捕集与转化一体化
[4]废塑料升级回收再造技术开发
工作和教育经历:
2022.11-至今昆明理工大学,化学工程学院,副教授
2020.03-2022.11昆明理工大学,化学工程学院,讲师
2016.09-2019.12中国石油大学(华东),化学工程与技术,工学博士
2013.09-2016.07辽宁石油化工大学,分析化学,理学硕士
2009.09-2013.07安庆师范学院,化学工程与工艺,本科
主要研究项目(主持):
[1]2024.01-2027.12:国家自然科学基金地区项目,32万,在研,主持
[2]2025.11-2026.12:企业委托计划项目,75万,在研,主持
[3]2025.05-2027.05:国家磷资源技术开发利用工程中心开放课题,15万,在研,主持
[4]2023.01-2027.12:云南省“兴滇英才支持计划”青年人才专项项目,75万,在研,主持
[5]2023.06-2026.05:云南省基础研究计划面上项目,10万,在研,主持
[6]2022.07-2023.06:企业委托计划项目,32.6万,结题,主持
[7]2022.01-2023.12:国家磷资源技术开发利用工程中心开放课题,10万,结题,主持
[8]2021.12-2024.11:云南省基础研究计划“双一流”面上项目,20万,结题,主持
[9]2021.07-2024.06:云南省基础研究计划青年基金项目,5万,结题,主持
[10]2020.03-2028.03:昆明理工大学高层次人才引进经费,80万,在研,主持
科研奖励情况:
[1]祖运(3/5),清洁燃料选择性吸附超深度脱硫吸附剂开发与应用基础,辽宁省人民政府,自然科学二等奖,2021。
[2]祖运(5/9),稀土分子筛催化材料构效关系研究及其结构设计,中国化工学会,基础研究二等奖,2024。
[3]祖运(5/10),高性能稀土/过渡金属基分子筛材料的创制与应用基础,中国稀土学会,科技进步二等奖,2025。
[4]祖运(5/10),分子筛稀土催化材料先进构效辨析方法建立与结构设计技术,中国石油天然气集团有限公司,基础研究一等奖,2023。
[5]祖运(9/15),磷资源湿法加工过程中伴生氟的高效回收关键技术与应用,中国石油和化学工业联合会,科技进步一等奖,2024。
[6]祖运(5/5),基于稀土离子精准调控的高性能分子筛催化材料创新与应用,中国石油和化学工业联合会,科技进步三等奖,2025。
部分代表性论文(一作/通讯):
[1]X. Xu, J. Zheng, J. Ji, Z. Liu, Y. Yang*, K. He, X. Yi,Y. Zu*, Precise framework Al siting and phosphorus coordination in nanosheet P-ZSM-5 zeolite for enhancing methanol-to-olefins performance,Chemical Engineering Journal,2025, 526, 171248. (1区Top期刊,IF=13.4)
[2]Z. Jiang, Q. Zhang, Y. Yang, B. Yang, Y. Qin, B. He,Y. Zu*, Confining symbiotic NiCo alloys and NiCoOx(OH)yspecies in MFI zeolite drives dynamic carbon balance for methane dry reforming reaction,Chemical Engineering Journal,2025, 526, 170858. (1区Top期刊,IF=13.4)
[3]Z. Jiang, W. Jiang, B. Yang, F. Wang, Z. Tu, B. He*,Y. Zu*, An eco-friendly strategy to upcycle fluorinated silica slag into high-value ZSM-5 zeolite and CaF2for efficient fluorine and silicon recovery,Chemical Engineering Journal,2025, 521, 167252. (1区Top期刊,IF=13.4)
[4]K. Yan, Y. Zhang*, X. Xu, Y. Qin, Y. Mei,Y. Zu*, Hydroxyl engineering of precipitated silica to construct hierarchically layered ZSM-5 zeolites for efficient methanol-to-propylene,Fuel, 2025, 394, 135120. (1区Top期刊,IF=6.7)
[5]N. Zhang, Y. Zhang, F. Wu*, Z. Liu, X. Xu, Q. Li, Y. Mei,Y. Zu*, Fabricating a stable interface of tetracoordinated-phosphorus and framework Al within P-doping ZSM-5 zeolite for catalytic methanol-to-propylene reaction,Journal of Colloid and Interface Science, 2025, 685, 159514. (1区Top期刊,IF=9.4)
[6]Y. Wang, H. Zhang, D. Han, M. Liu, B. He,Y. Zu*, Si-hydroxyls synergistically mediated small-sized CoOxnanoparticles in Si-beta zeolite for intensifying propane dehydrogenation,Chemical Engineering Journal,2025, 505, 159514. (1区Top期刊,IF=13.4)
[7]Q. Zhang, Z. Jiang, Y. Zhang, X. Xu, Y. Yang*, Y. Qin, L. Song, Y. Mei,Y. Zu*, Deciphering transient carbon footprint for methane dry reforming over Ni@S-1 nanosheet zeolite catalyst,Applied Catalysis B: Environment and Energy, 2025, 362, 124722. (1区Top期刊,IF=20.2)
[8]Y. Zhang,Y. Zu*, K. Yan, Y. Zhu, Y. Luo, E. Xing, Q. Li, L. Song, T. Li, Y. Mei*, X. Shu, Reinforcement and reconfiguration of framework Al in P@ZSM-5 zeolite via in-situ phosphating strategy for efficient methanol-to-propylene,Applied Catalysis B: Environment and Energy, 2024, 357, 124292. (1区Top期刊,IF=22.1)
[9]Y. Zhang, Y. Ren,Y. Zu*, K. Yan, Y. Luo, E. Xing, Y. Qin, Y. Mei*, X. Shu, Disassembly-reassembly-phosphating strategy to fabricate hydrothermally-stable hierarchical P@ZSM-5 zeolite for efficient methanol-to-propylene,Chemical Engineering Journal,2024, 476, 154755. (1区Top期刊,IF=16.744)
[10]Y. Zhang, M. Liu, C. Huang, H. Zhang, J. Zheng*, Y. Qin, Y. Yang, Y. Mei,Y. Zu*, Origin of extra-stable multinuclear zinc species riveted into siliceous zeolite for efficient propane dehydrogenation,Chemical Engineering Journal,2024, 495, 153323. (1区Top期刊,IF=16.744)
[11]B. He, Y. Fu,Y. Zu*, Y. Nie, Y. Mei*, Simultaneous removal of Al3+, Mg2+and F-from wet-process phosphoric acid achieved by a co-precipitation strategy,Separation and Purification Technology, 2024, 341, 126855.(1区Top期刊,IF=9.136)
[12]X. Sun, Q. Zhang, S. Li, Y. Zhang, M. Liu, B. He*, Y. Mei,Y. Zu*, Maximizing the utilization of calcium species in the supercages of CaNa-FAU zeolite for efficient CO2capture,Chemical Engineering Journal,2024, 481, 148661. (1区Top期刊,IF=16.744)
[13]M. Liu, X. Sun, Y. Zhang, Y. Yang*, Y. Qin, B. He*, Y. Mei,Y. Zu*, Highly dispersed and stable NiSn subnanoclusters encapsulated within silicalite-1 zeolite for efficient propane dehydrogenation,Fuel, 2024, 357, 130069.(1区Top期刊,IF=8.035)
[14]B. He, Y. Zhu,Y. Zu*, Y. Nie, Y. Mei*, Designing an efficient fluorine recovery strategy for wet-process phosphoric acid purification by disclosing competitive complexation behavior between fluorine species and metal cations,Separation and Purification Technology, 2023, 320, 124219.(1区Top期刊,IF=9.136)
[15]L. Guan, M. Liu, H. Liu*, L. Zhang, Y. Zhang, Y. Qin*, B. He, Y. Mei,Y. Zu*, Regionally spatial framework Al distribution in MFI channels and its impact on the n-butane cracking reaction pathways,Fuel, 2023, 353, 129230.(1区Top期刊,IF=8.035)
[16]B. He, Y. Zhu,Y. Zu*, Y. Nie, Y. Mei*, Efficient and cost-effective fluorine recovery from liquid-phase wet-process phosphoric acid via two-step precipitation method,Separation and Purification Technology, 2023, 325, 124687.(1区Top期刊,IF=9.136)
[17]D. Han, M. Liu, C. Huang, X. Sun, L. Guan, B. He, Y. Mei,Y. Zu*, Uniformly stable hydroxylated cobalt(II) silicate species embedded within silicalite-1 zeolite for boosting propane dehydrogenation,Microporous and Mesoporous Materials,2023, 352, 112516. (2区,IF=5.876)
[18]C. Huang, Y. Zhang, D. Han, B. He*, X. Sun, M. Liu, Y. Mei,Y. Zu*, Small-sized Ni nanoparticles embedded nickel phyllosilicate as a metal-acid bifunctional zeolite catalyst for cooperatively boosting CO2-CH4reforming,Fuel,2023, 331, 125957. (1区Top期刊,IF=8.035,ESI高被引)
[19]Y. Zhang#,Y. Zu#, D. He*, J. Liang, L. Zhu, Y. Mei, Y. Luo*, The tailored role of “defect” sites on γ-alumina: a key to yield an efficient methane dry reforming catalyst with superior nickel utilization,Applied Catalysis B: Environmental,2022, 315, 121539. (1区TOP期刊,IF=24.319)
[20]C. Huang, D. Mei, L. Guan, L. Zhu, Y. Mei, D. He*,Y. Zu*, Bimetallic Ni-Zn site anchored in siliceous zeolite framework for synergistically boosting propane dehydrogenation,Fuel,2022, 307, 121790. (1区Top期刊,IF=8.035)
[21]L. Guan, C. Huang, D. Han, B. He, L. Zhu, D. He, Y. Mei,Y. Zu*, HZSM-5 zeolite cross-linked with ultrathin siliceous layer for intensifying catalytic cracking and diffusion of n-butane,Fuel,2022, 315, 123252. (1区Top期刊,IF=8.035)
[22]L. Guan, C. Huang, D. Han, L. Zhu, Y. Mei, D. He,Y. Zu*, Reaction pathways of n-butane cracking over the MFI, FER and TON zeolites: Influence of regional differences in Brønsted acid sites,Microporous and Mesoporous Materials,2022, 330, 111605. (2区,IF=5.876)
[23]Y. Zu*, L. Guan, Z. Guo, C. Huang, D. He*, Y. Mei, Deep removal of thiophene and benzothiophene in low-sulfur fuels over the efficient CeAlSBA-15 adsorbent synthesized by sequential alumination and cerium incorporation,Chemical Engineering Journal,2021, 416, 127984. (1区Top期刊,IF=16.744)
[24]Y. Zu, S. Wang, Y. Hui, N. Ni, X. Zhang, Y. Qin, L. Zhang, H. Liu, X. Gao*, L. Song*, Facile fabrication of a superior Cu(I)-NH4Y zeolite adsorbent for improving thiophene adsorption selectivity in the presence of aromatics or olefins,Chemical Engineering Journal,2020, 401: 126112. (1区Top期刊,IF=16.744)
[25]Y. Zu, Z. Guo, J. Zheng, Y. Hui, S. Wang, Y. Qin, L. Zhang, H. Liu, X. Gao*, L. Song*, Investigation of Cu(I)-Y zeolites with different Cu/Al ratios towards the ultra-deep adsorption desulfurization: Discrimination and role of the specific adsorption active sites.Chemical Engineering Journal,2020, 380: 122319. (1区Top期刊,IF=16.744)
[26]Y. Zu, Y. Hui, Y. Qin, L. Zhang, H. Liu, X. Zhang, Z. Guo, L. Song*, X. Gao*, Facile Fabrication of effective Cerium (III) hydroxylated species as adsorption active sites in CeY zeolite adsorbents towards ultra-deep desulfurization,Chemical Engineering Journal,2019, 375: 122014. (1区Top期刊,IF=16.744)
[27]Y. Zu, C. Zhang, Y. Qin, L. Zhang, H. Liu, X. Zhang, Z. Guo, L. Song*, X. Gao*, Ultra-deep adsorptive removal of thiophenic sulfur compounds from FCC gasoline over the specific active sites of CeHY zeolite,Journal of Energy Chemistry,2019, 39: 256-267. (1区Top期刊,IF=13.599,国内卓越计划重点期刊)
[28]Y. Zu, Y. Qin, X. Gao*, Z. Mo, X. Zhang, J. Zhang, L. Song*, Insight into the correlation between the adsorption-transformation behaviors of methylthiophenes and the active sites of zeolites Y,Applied Catalysis B: Environmental.2017, 203: 96-107. (1区Top期刊,IF=24.319)
代表性论著:
[1]何宾宾,梅毅,杨文娟,李维莉,祖运,欧志兵,磷产业伴生氟的赋存形态与回收利用,冶金行业出版社,2025.2,ISBN:978-7-5240-0087-7
代表性专利:
[1]祖运,杨波,姜威,何宾宾,涂忠兵,朱桂华,龚丽,一种利用含氟硅胶制备ZSM-5分子筛和氟化钙的方法,发明专利,申请公开号:CN202511164566.2
[2]祖运,徐欣宇,何宾宾,梅毅,一种烷基膦导向纳米片P@ZSM-5分子筛及制备方法与应用,发明专利,申请公开号:CN202510652055.9
[3]祖运,孙薪裕,何宾宾,张全淇,杨文娟,姜威,周琼波,王孟来,一种低能耗可再生CO2吸附剂Ca-FAU的制备方法,发明专利,申请公开号:CN202311525850.9
[4]祖运,闫科,何宾宾,刘美玉,张全淇,杨文娟,一种Co/Si-Beta丙烷脱氢催化剂的制备方法及其应用,发明专利,申请公开号:CN2023116072615
[5]宋丽娟,祖运,秦玉才,惠宇,郭忠森,张晓彤,用于超深度脱除汽油中噻吩类硫化物的REY分子筛吸附剂的制备方法及应用,中国发明专利,授权专利号:ZL201810424658.3
[6]宋丽娟,祖运,秦玉才,郭忠森,丁润东,张晓彤,用于超深度脱除汽油中噻吩类硫化物的CuY分子筛吸附剂的制备方法及应用,中国发明专利,申请公开号:CN201810424602.8
[7]梅毅,张宜民,祖运,舒兴田,邢恩会,罗一斌,朱远,何德东,一种四丙基氢氧化鏻及其制备方法和应用,中国发明专利,申请公开号:CN202210794311.4
[8]梅毅,张宜民,祖运,舒兴田,邢恩会,谢德龙,罗一斌,朱远,一种P-ZSM-5分子筛及其制备方法和应用,中国发明专利,授权专利号:ZL202310033838.X
[9]梅毅,张宜民,祖运,舒兴田,罗一斌,谢德龙,一种多级孔P-ZSM-5分子筛及其制备方法与应用,中国发明专利,授权专利号:ZL202410331072.8
[10]何宾宾,祖运,傅英,杨文娟,姜威,龚丽,朱桂华,周琼波,王孟来,一种甲烷干重整镍基分子筛催化剂的制备方法和应用,中国发明专利,申请公开号:CN202310747224.8
