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姓 名: | 祝晓琳 | |||||
职 称: | 副教授 | |||||
导师类别: | 博士生导师、硕士生导师 | |||||
系 室: | 化学工程系 | |||||
研究领域: | 工业催化、石油化工 | |||||
电子邮箱: | zhuxiaolin@www.efhstore.com, upczhuxl@163.com | |||||
联系电话: | 15275266591 | |||||
◎教育背景 | ||||||
2005.9-2009.7, 爱游戏app官方入口 (华东), 化学工程与工艺, 工学学士 2009.9-2014.7, 爱游戏app官方入口 (华东), 化学工程与技术, 博士研究生 | ||||||
◎工作经历 | ||||||
2014.8-2016.6, 清华大学, 化学工程系, 博士后 2016.7-2016.12, 爱游戏app官方入口 (华东), 化学工程学院, 讲师 2017.1-至今, 爱游戏app官方入口 (华东), 化学化工学院, 副教授 | ||||||
◎研究方向 | ||||||
[1] 工业催化——低碳烷烃催化转化、甲醇与芳烃烷基化、羟醛缩合等 [2] 石油化工——催化裂解催化剂与工艺、气固循环流态化等 | ||||||
◎科研项目 | ||||||
[1] 2022-2025 国家自然科学基金面上项目 甲苯甲醇烷基化与甲醇自转化反应耦合机制及增产烯烃调控措施 主持 [2] 2018-2020 国家自然科学基金青年基金 高硅ZSM-5分子筛烷基化活性位识别及其催化性能调控 主持 [3] 2018-2019 山东省重点研发计划 催化裂化提升管反应器预提升段结构形式优化研究 主持 [4] 2017-2019 山东省自然科学基金 基于高硅ZSM-5分子筛的烷基化催化剂设计及其性能优化 主持 [5] 2014-2016 中国博士后科学基金面上资助 纳米颗粒包覆改善C类粘性颗粒流动性的方法及机制 主持 [6] 2024-2025 校自主创新科研计划 低温高效甲烷氧化偶联制乙烯催化剂设计 主持 [7] 2017-2019 校自主创新科研计划 高硅ZSM-5分子筛用于甲苯甲醇烷基化的优化设计及基础研究 主持 [8] 2017-2020 校人才引进项目 高效甲苯甲基化催化剂设计及其稳定性强化方法 主持 [9] 2022-2024 企业横向课题 重烃催化裂解复活再生催化剂性质测试及中试评价 主持 [10] 2022-2024 企业横向课题 轻烃催化裂解催化剂中试评价及性质分析测试 主持 [11] 2022-2023 企业横向课题 苯乙烯焦油催化裂解性能测试 主持 [12] 2021-2022 中石油科技项目 非贵金属环保型流化床丙烷催化脱氢制丙烯成套技术工业应用试验 参与 [13] 2021-2023 中石油科技项目 石蜡基原油催化裂解制低碳烯烃催化剂中试工艺条件优化研究 参与 [14] 2020-2021 中石油科技项目 原油催化裂解制烯烃工艺技术中试研究 参与 [15] 2019-2020 中石油科技项目 催化裂化-循环油加氢回炼技术研究 参与 [16] 2019-2021 中石油科技项目 富芳组分催化加氢与催化裂化耦合调控研究 参与 [17] 2018-2019 中石油科技项目 催化柴油窄馏分选择性加氢回炼技术研究 参与 | ||||||
◎代表性论文及专利 | ||||||
近年来,公开发表学术论文 60 余篇,其中SCI收录 50 余篇,H因子 20。
[1] Zhu XL, Guo HF, Li RY, Yan H, Yang MY, Wang MQ, Yin FM, Yang X, Li CY, Yang CH, Wang GW. Regulating lattice oxygen mobility of FeOx redox catalyst via W-doping for enhanced chemical looping oxidative dehydrogenation of ethane. Chemical Engineering Journal (SCI一区TOP, IF = 13.3), 2023, 470: 144219. [2] Li N, Yuan MZ, Cui GJ, Xu JL, Li XY, Wang GW, Zhu XL*, Li CY*. Selective peroxidation of isobutane with molecular oxygen over molybdenum oxide catalyst for direct synthesis of di-tert-butyl peroxide. Chemical Engineering Journal (SCI一区TOP, IF = 13.3), 2023, 467: 143406. [3] Wang GW, Zhou LH, Liu SZ, Tang N, Zhu CL, Zhu XL*, Li CY, Yang CH, Shan HH. Highly active and stable Y2O3 promoted TiO2-ZrO2 catalyst for propane dehydrogenation. Chemical Engineering Journal (SCI一区TOP, IF = 13.3), 2023, 477: 147047. [4] Wang GW*, Zhu CL, Zhang S, Zhou LH, Zhang HL, Zhu XL*, Shan HH. Deactivation origins and stability-enhancing strategies of Sn/SiO2 catalysts for ethane dehydrogenation. Molecular Catalysis (SCI二区, IF = 3.9), 2023, 535: 112826. [5] Wang Y, Yang X, Yin FM, Zhang K, Guo HF, Wang GW, Jiang GY, Li CY, Zhu XL*. Elucidating the effect of barium halide promoters on La2O3/CaO catalyst for oxidative coupling of methane. Journal of Energy Chemistry (SCI一区TOP, IF = 14.0), 2022, 73: 49-59. [6] Zhu XL*, Wang Y, Wang GW, Hou YF, Yu MX, Yang X, Yin FM. Synergistic co-conversion of pentane and methanol to aromatics over bifunctional metal/ZSM-5 zeolite catalysts. Microporous and Mesoporous Materials (SCI二区TOP, IF = 5.455), 2021, 320: 111107. [7] Cheng M, Wang Y, Wang WH, Wang GW, Zhu XL*, Li CY. Promoting effect of copper oxide on CsX zeolite catalyst for side-chain alkylation of toluene with methanol. Microporous and Mesoporous Materials (SCI二区TOP, IF = 5.455), 2021, 311: 110732. [8] Wang Y, Yang X, Hou CX, Yin FM, Wang GW, Zhu XL*, Jiang GY, Li CY. Improved catalytic activity and stability of ba substituted SrTiO3 perovskite for oxidative coupling of methane. ChemCatChem (SCI二区, IF = 5.686), 2021, 13: 4182-4191. [9] Zhu XL*, Wang H, Wang GW, Hou YF, Zhang JY, Li CY, Yang CH. Aromatization of n-pentane over Zn/ZSM-5 catalysts: effect of Si/Al ratio and reaction pathway. Journal of Porous Materials (SCI三区, IF = 2.496), 2021, 28: 1059-1067. [10] Wang SS, Cheng M, Zhu XL*, Lin CH, Wang GW, Zhen XP, Tian LY, Li CY. Effect of swirling gas nozzles on gas-solid flow patterns inside a novel multi-regime riser. Powder Technology (SCI二区, IF = 5.134), 2020, 367: 233-242. [11] Zhu XL*, Yu MX, Cheng M, Wang Y, Li BQ, Zhang HN, Wang GW, Li CY*. Conceptual fluid catalytic cracking process with the additional regenerated catalyst circulation path for gasoline reprocessing and upgrading with minimum loss. Energy & Fuels (SCI二区TOP, IF = 3.021), 2020, 34: 235-244. [12] Wang GW, Zhang S, Zhu XL*, Li CY*. Dehydrogenation versus hydrogenolysis in the reaction of light alkanes over Ni-based catalysts. Journal of Industrial and Engineering Chemistry (SCI二区, IF = 4.978), 2020, doi: 10.1002/tcr.201900090. [13] Zhu XL*, Zhang JY, Cheng M, Wang GW, Yu MX, Li CY*. Methanol aromatization over Mg-P-modified [Zn,Al]ZSM-5 zeolites for efficient coproduction of para-xylene and light olefins. Industrial & Engineering Chemistry Research (SCI二区TOP, IF = 3.375), 2019, 58: 19446-19455. [14] Zhang JY, Zhu XL*, Zhang SH, Cheng M, Yu MX, Wang GW, Li CY*. Selective production of para-xylene and light olefins from methanol over the mesostructured Zn-Mg-P/ZSM-5 catalyst. Catalysis Science & Technology (SCI二区, IF = 5.726), 2019, 9: 316-326. [15] Liu JW, Wang GW, Zhu XL*, Li CY*, Shan HH. Temperature-programmed studies of isobutene oxidation over alpha-Bi2Mo3O12: Active oxygen species and reaction mechanism. Applied Surface Science (SCI二区, IF = 5.155), 2019, 470: 846-853. [16] Zhang JY, Zhu XL*, Wang GW, Wang PZ, Meng Z, Li CY*.The origin of the activity and selectivity of silicalite-1 zeolite for toluene methylation to para-xylene. Chemical Engineering Journal (SCI一区TOP, IF = 8.355), 2017, 327: 278-285. [17] Zhang HN, Zhu XL*, Chen XC, Miao PP, Yang CC, Li CY*. Fluid catalytic cracking of hydrogenated light cycle oil for maximum gasoline production: effect of catalyst composition. Energy & Fuels (SCI二区TOP, IF = 3.021), 2017, 31: 2749-2754. [18] Zhu XL, Zhang Q*, Huang C, Wang Y, Yang CH, Wei F. Validation of surface coating with nanoparticles to improve the flowability of fine cohesive powders. Particuology (SCI三区, IF = 2.616), 2017, 30: 53-61. [19] Zhu XL, Tang C, Wang HF, Li BQ, Zhang Q*, Li CY, Yang CH, Wei F. Monolithic-structured ternary hydroxides as freestanding bifunctional electrocatalysts for overall water splitting. Journal of Materials Chemistry A (SCI一区TOP, IF = 10.733), 2016, 4: 7245-7250. [20] Zhu XL, Zhang Q*, Wang Y, Wei F. Review on the nanoparticle fluidization science and technology. Chinese Journal of Chemical Engineering (SCI三区, IF = 1.911), 2016, 24: 9-22. [21] Zhu XL, Tang C, Wang HF, Zhang Q*, Yang CH, Wei F. Dual-sized NiFe layered double hydroxides in situ grown on oxygen-decorated self-dispersal nanocarbon as enhanced water oxidation catalysts. Journal of Materials Chemistry A (SCI一区TOP, IF = 10.733), 2015, 3: 24540-24546. [22] Zhu XL, Geng Q, Wang GW, Li CY*, Yang CH. Hydrodynamics and catalytic reaction inside a novel multi-regime riser. Chemical Engineering Journal (SCI一区TOP, IF = 8.355), 2014, 246: 150-159. [23] Zhu XL, Li CY*, Yang CH, Wang GW, Geng Q, Li T. Gas-solids flow structure and prediction of solids concentration distribution inside a novel multi-regime riser. Chemical Engineering Journal (SCI一区TOP, IF = 8.355), 2013, 232: 290-301. [24] Zhu XL, Yang CH, Li CY*, Liu YB, Wang L, Li T, Geng Q. Comparative study of gas-solids flow patterns inside novel multi-regime riser and conventional riser. Chemical Engineering Journal (SCI一区TOP, IF = 8.355), 2013, 215: 188-201. [25] Zhu XL, Jiang S, Li CY*, Chen XB, Yang CH. Residue catalytic cracking process for maximum ethylene and propylene production. Industrial & Engineering Chemistry Research (SCI二区TOP, IF = 3.375), 2013, 52: 14366-14375. [26] Zhu XL, Wang GW, Geng Q, Li CY*, Yang CH. Pressure drop and apparent solids concentration inside a novel multi-regime riser. Advanced Materials Research (EI收录), 2013, 709: 309-312. [27] Wang GW*, Jiang YX, Zhang S, Zhu XL, Shan HH. Insight into the Active Co Phase of Co/Al2O3 Catalyst for Ethane Dehydrogenation. Catalysis Letters (SCI三区, IF = 3.186), 2022, 10.1007/s10562-021-03883-3. [28] Miao PP, Zhu XL, Zhou Z, Feng XP, Miao J, Hou CX, Li CY*. Combined dealkylation and transalkylation reaction in FCC condition for efficient conversion of light fraction light cycle oil into value-added products. Fuel (SCI一区, IF = 6.609), 2021, 304: 121356. [29] Miao PP, Zhu XL, Guo YL, Miao J, Yu MY, Li CY*. Combined mild hydrocracking and fluid catalytic cracking process for efficient conversion of light cycle oil into high-quality gasoline. Fuel (SCI一区, IF = 6.609), 2021, 292: 120364. [30] Miao PP, Miao J, Guo YL, Lin CH, Zhu XL, Li CY*. Efficient conversion of light cycle oil into gasoline with a combined hydrogenation and catalytic cracking process: effect of pre-distillation. Energy & Fuels (SCI三区, IF = 3.605), 2020, 34: 12505-12516. [31] Wang GW, Zhu XL, Li CY*. Recent progress in commercial and novel catalysts for catalytic dehydrogenation of light alkanes. Chemical Record (SCI二区, IF =5.387), 2019, doi: 10.1002/tcr.201900090. [32] Geng Q, Zhu XL, Yang J, You XH, Liu YB, Li CY*. Flow regime identification in a novel circulating-turbulent fluidized bed. Chemical Engineering Journal (SCI一区TOP, IF = 5.310), 2014, 244: 493-504. [33] Wang GW, Zhu XL, Zhang JY, Sun YN, Li CY*, Shan HH. Catalytic dehydrogenation of isobutane over Co-based catalysts. RSC Advances (SCI三区, IF = 3.289), 2014, 4: 57071-57082. [34] Geng Q, Zhu XL, Liu YX, Liu YB, Li CY*, You XH. Gas-solid flow behavior and contact efficiency in a circulating-turbulent fluidized bed. Powder Technology (SCI二区, IF = 2.759), 2013, 245: 134-145. [35] Shi JL, Wang HF, Zhu XL, Chen CM, Huang X, Zhang XD, Li BQ, Tang C, Zhang Q*. The nanostructure preservation of 3D porous graphene: New insights into the graphitization and surface chemistry of non-stacked double-layer templated graphene after high-temperature treatment. Carbon (SCI一区TOP, IF = 6.198), 2016, 103: 36-44. [36] Wang HF, Tang C, Zhu XL, Zhang Q*. A 'point-line-point' hybrid electrocatalyst for bi-functional catalysis of oxygen evolution and reduction reactions. Journal of Materials Chemistry A (SCI一区TOP, IF = 8.262), 2016, 4: 3379-3385. [37] Wang GW, Gao CC, Zhu XL, Sun YN, Li CY*, Shan HH. Isobutane dehydrogenation over metal (Fe, Co, and Ni) oxide and sulfide catalysts: reactivity and reaction mechanism. ChemCatChem (SCI二区, IF = 4.724), 2014, 6: 2305-2314. [38] Wang GW, Wu WL, Zhu XL, Sun YN, Li CY*, Shan HH. Effect of calcination temperature on isobutane dehydrogenation over Mo/MgAl2O4 catalysts. Catalysis Communications (SCI三区, IF = 3.389), 2014, 56: 119-122. [39] Tang C, Wang HF, Zhu XL, Li BQ, Zhang Q*. Advances in hybrid electrocatalysts for oxygen evolution reactions: Rational integration of NiFe layered double hydroxides and nanocarbon. Particle & Particle Systems Characterization (SCI二区, IF = 4.367), 2016, 33: 473-486. [40] Geng Q, Wang P, Zhu XL, You XH, Li CY*. Flow dynamics and contact efficiency in a novel fast-turbulent fluidized bed with ring-feeder internals. Particuology (SCI三区, IF = 2.280), 2015, 21: 203-211. [41] Wang GW, Zhang HL, Zhu QQ, Zhu XL, Li XY, Wang H, Li CY*, Shan HH.Sn-containing hexagonal mesoporous silica (HMS) for catalytic dehydrogenation of propane: An efficient strategy to enhance stability. Journal of Catalysis (SCI一区TOP, IF = 7.723), 2017, 351, 90-94. [42] Zhu QQ, Wang GW*, Zhang HL, Zhu XL, Li CY*. n-Butane dehydrogenation over Ni-Sn/SiO2: Adsorption modes and reaction paths of n-butane and 1-butene. Applied Catalysis A: General (SCI二区TOP, IF = 4.630), 566: 113-120. [43] Zhu QQ, Zhang HL, Zhang S, Wang GW*, Zhu XL, Li CY*. Dehydrogenation of isobutane over a Ni-P/SiO2 catalyst: Effect of P addition. Industrial & Engineering Chemistry Research (SCI二区TOP, IF = 3.375), 58: 7934-7943. [44]Miao PP, Li K, Fan JT, Xu NW, Zhu XL, Li CY*. Efficient ring-opening reaction of tetralin over nanosized ZSM-5 zeolite: Effect of SiO2/Al2O3 ratio and reaction condition. Energy & Fuels (SCI二区TOP, IF = 3.021), 2019, 33: 9480-9490. [45] Li BQ, Tang C, Wang HF, Zhu XL, Zhang Q*. An aqueous preoxidation method for monolithic perovskite electrocatalysts with enhanced water oxidation performance. Science Advances (SCI一区TOP, IF = 12.804), 2016, 2: e1600495. [46] Wang GW, Sun NN, Gao CC, Zhu XL, Sun YN, Li CY*, Shan HH. Promoting mechanism of sulfur addition in catalytic dehydrogenation of isobutane over Mo/MgAl2O4 catalysts. Applied Catalysis A: General (SCI二区, IF = 4.012), 2014, 478: 71-80. | ||||||
◎代表性著作 | ||||||
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◎获奖情况及荣誉称号 | ||||||
[1] 2018.11 荣获“青岛西海岸新区高层次人才”紧缺人才 [2] 2015.10 荣获“山东省优秀博士学位论文” [3] 2013.12 荣获爱游戏app官方入口 “学术十杰” | ||||||
◎执教课程 | ||||||
本科生:《化工过程分析与合成》、《石油加工概论》、《专业综合实验》、《专业实验》 | ||||||
◎招收及指导研究生情况 | ||||||
1. 指导研究生情况 独立指导学术研究生4名,专业硕士研究生5名。 2. 招生专业及要求 招收化工专业博士,化工专业学硕、专硕,欢迎化工、应化、能化、化学相关专业同学报考。 | ||||||
◎学术兼职 | ||||||
中国颗粒学会青年理事;Applied Catalysis B: Environmental (SCI一区, IF = 19.503)、Chemical Engineering Journal (SCI一区, IF = 13.273)、Journal of Energy Chemistry (SCI一区, IF = 9.676)、ACS Applied Materials & Interfaces (SCI一区、9.229)、Fuel (SCI一区, IF = 6.609)、Applied Catalysis A: General (SCI二区, IF = 5.706)、Microporous and Mesoporous Materials (SCI二区、IF = 5.455)、Powder Technology (SCI二区、IF = 5.134)、Particuology (SCI二区、IF = 3.067)、Industrial & Engineering Chemistry Research (SCI三区, IF = 3.720)、Energy & Fuels (SCI三区, IF = 3.605)等国际期刊审稿人。 | ||||||
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