Zhu Xiaolin(Associate Professor)

Published:2022-10-26Author:王兆兴Number of Visits:73

  


  Name

Zhu Xiaolin


Academic Title

Associate Professor


Advisor Type

Master Supervisor


  Department

Department of Chemical Engineering


Research Interests

Industrial Catalysis, Petrochemical Industry


  E-Mail

zhuxiaolin@upc.edu.cn,   upczhuxl@163.com


  Telephone

+86-15275266591






Educational Background


2005.9-2009.7,  China University of Petroleum (East China),   Chemical Engineering and Technology, Bachelor of engineering

2009.9-2014.7,  China University of Petroleum (East China),   Chemical Engineering and Technology, PhD candidate











Work Experience


2014.8-2016.6,  Tsinghua University, Department of Chemical   Engineering, Postdoctor

2016.7-2016.12,  China University of Petroleum (East China),   College of Chemical Engineering, Lecturer

2017.1-present,  China University of Petroleum (East China),   College of Chemistry and Chemical Engineering, Associate professor










Research Direction


[1] Industrial   Catalysis——Alkylation reaction, Methanol conversion, Catalytic oxidation,   Electrocatalysis.

[2] Petroleum   Industry——Catalytic cracking catalyst and process, Gas-solid circulating   fluidization.











Research Project


[1] 2022-2025  National   Natural Science Foundation of China-General Program, Coupling mechanism   of toluene-methanol alkylation and methanol autotransformation reaction and   control measures for increasing olefin production, Host.

[2] 2018-2020  National   Natural Science Foundation of China-Youth Program, The identification of   alkylation active sites of high-silicon ZSM-5 molecular sieve and the   regulation and control of its catalytic performance, Host.

[3] 2018-2019  Shandong   Provincial Key R&D Plan, The research on structural optimization of   pre-riser section of FCC riser reactor, Host.

[4] 2017-2019  Natural   Science Foundation of Shandong Province, The design and performance   optimization of alkylation catalyst based on high-silicon ZSM-5 molecular sieve,   Host.

[5] 2014-2016  China   Post-doctoral Science Foundation, The method and mechanism of improving   fluidity of C-type cohesive particles by coating nanoparticles, Host.

[6] 2017-2019  Independent   Innovation Research Plan, The optimization design and basic research   chair of high-silicon ZSM-5 molecular sieve for toluene methanol alkylation,   Host.

[7] 2017-2020  School   Talent Project, Design of efficient toluene methylation catalyst and its   stability enhancement method, Host.

[8] 2021-2022  China   National Petroleum Corporation Project, The industrial application test   of complete technology of catalytic dehydrogenation of propane to propylene   in non-precious metal environment-friendly fluidized bed, Participant.

[9] 2021-2023  China   National Petroleum Corporation Project, The pilot-scale study on   optimization of process conditions of catalyst for catalytic cracking of   paraffin-based crude oil to light olefins, Participant.

[10] 2020-2021  China   National Petroleum Corporation Project, The pilot-scale research on the   technology of catalytic cracking of crude oil to olefins, Participant.

[11] 2019-2020  China   National Petroleum Corporation Project, Research and Participation of   Catalytic Cracking-Hydrogenation and Recycling Technology of Circulating Oil,   Participant.

[12] 2019-2021  China   National Petroleum Corporation Project, The research on coupling   regulation of catalytic hydrogenation and catalytic cracking of aromatic   components, Participant.

[13] 2018-2019  China   National Petroleum Corporation Project, The research of selective   hydrogenation recycling technology of catalytic diesel narrow fraction,   Participant.

[14] 2018-2020  Independent   Innovation Research Plan, Optimization design and basic research   participation of new tin-based propane dehydrogenation catalyst, Participant.










Representative Papers and Patents


Papers  Recently, I have published more than 50   academic papers, of which more than 40 are included in SCI.

 

[1] 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.

[2] 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.

[3] 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.

[4] 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.

[5] 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.

[6] 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.

[7] 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.

[8] 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.

[9] 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.

[10] 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.

[11] 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.

[12] 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.

[13] 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.

[14] 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.

[15] 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.

[16] 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.

[17] 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.

[18] 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.

[19] 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.

[20] 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.

[21] 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.

[22] 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.

[23] 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.

[24] 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.

[25] 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.

[26] 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.

[27] 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.

[28] 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.

[29] 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.

[30] 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.

[31] 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.

[32] 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.

[33] 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.

[34] 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.

[35] 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.

[36] 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.

[37] 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.

[38] 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.

[39]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.

[40] 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.

[41] 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.










Representative Works











Awards and Honors


[1] November 2018, won the title of   High-level Talents in West Coast New District of Qingdao, which   is short of talents.

[2] October 2015, won the   Excellent Doctoral Dissertation of Shandong Province

[3] December 2013, awarded Top Ten   Scholars by China University of Petroleum.










Courses Offered


UndergraduateChemical Process Analysis and Synthesis》, 《Introduction to Petroleum Processing, Professional Experiment.










Student Training


1. Guiding Graduate Students

Supervising 1 doctoral student and 6 master students.

Two graduate students have gone to Zhejiang University to study for   doctoral degree and Sinopec Zhenhai Refining and Chemical Industry, respectively.

2. Enrollment Majors and Requirements

The students majoring in chemical engineering, chemistry and materials   are welcome to apply for it.









Part-time Academic Job


Reviewers for Applied Catalysis B:   Environmental (IF = 19.503)Chemical Engineering Journal (IF = 13.273)Journal of Energy Chemistry (IF = 9.676)ACS   Applied Materials & Interfaces (9.229)Fuel (IF =   6.609)Applied Catalysis A: General (IF = 5.706)Microporous and Mesoporous Materials (IF = 5.455)Powder Technology (IF = 5.134)Particuology   (IF = 3.067)Industrial & Engineering Chemistry   Research (IF = 3.720)Energy & Fuels (IF = 3.605).