Zhu Lijun(Doctor of Engineering)

Published:2022-10-26Author:王兆兴Number of Visits:153

  

  Name

Zhu Lijun

Academic Title

Doctor of Engineering

Advisor Type

Supervisor of Master

  Department

State Key Laboratory of Heavy Oil Processing

Research Interests

Oil and Gas Chemical Engineering

  E-Mail

zhulijun@upc.edu.cn

  Telephone

13964202625

 

 

 

◎Educational Background

2009–2011, National University of Singapore, Chemistry, Joint Ph.D. Supervisor: Jishan Wu

2006-2012, China University of Petroleum (East China), Chemical Engineering and Technology, Ph.D. Supervisor: Xia Daohong

2002–2006, China University of Petroleum (East China), Bachelor of Engineering

 

 

 

 

Work Experience

2014/7-present, China University of Petroleum (East China), School of Chemical Engineering, State Key Laboratory of Heavy Oil, Lecturer

2012-2014, School of Petroleum Engineering, China University of Petroleum (East China), postdoctoral fellow, co-supervisor: Li Aifen

 

 

 

 

Research Direction

[1] Green utilization of oil and natural gas,

[2] Oil and natural gas deep desulfurization technology

[3] Organic-inorganic composite functional materials,

[4] Petrochemical catalyst

 

 

 

 

◎Research Project

[1] Design and multifunctional synergistic mechanism of micro-mesoporous molecular sieve-supported amorphous nickel phosphide catalyst for naphtha isomerization, 2019-2022, General Project of Natural Science Foundation of Shandong Province, under research, host

[2]. Sulfur transfer promotion effect of oxidation pretreatment in thermal reaction process and development of petroleum coke value utilization technology, 2022-01 to 2023-12, 2021 school-enterprise joint scientific research platform fund of State Key Laboratory of Heavy Oil, in research, host

[3]. Construction of TiO2 Sensitized by Two-dimensional Reticular Porphyrin Coordination Polymer and Visible Light Catalytic Performance, 2018-2020, Youth Fund Project of the Independent Innovation Research Program of the University, completed, presided over

[4]. Design and controllable synthesis of D-A-type thiophene fluorene polymer-based long-wave absorbing materials, special funded project for basic scientific research business expenses of central universities, completed, presided over

[5]. Synthesis of dual-ligand metal-organic framework materials and research on hydrogen sulfide adsorption performance, talent introduction project of the university, completed, presided over

[6]. Development of a new type of super-heavy oil viscosity reducer and research on the mechanism of viscosity reduction, General Project of China Postdoctoral Science Foundation, completed, presided over

[7]. Research on the structure and mechanism of supramolecular formation of sulfide in fuel oil, National Natural Science Foundation of China

[8]. Basic Research on Supramolecular Structure and High Efficiency Transformation of Inferior Heavy Oil, National Natural Science Foundation of China Joint Fund Project

[9]. Research on the removal of heavy hydrocarbons from natural gas by adsorption, Sinopec Zhongyuan Petroleum Engineering Design Co., Ltd.

[10]. Research on Catalysts for Removal of Hydrogen Sulfide in Tail Gas of Sulfur Recovery Unit 2019-2020, Sinopec Group Branch

[11]. Research on deep desulfurization technology of regenerated tail gas in natural gas desulfurization process by complex iron method, 2020-2020, Sinopec Group Corporation

[12]. Research on Deep Removal Technology of Organic Sulfur in Natural Gas, 2019-2020, Sinopec Group Branch

[13]. Technology Development and Industrial Test of Liquid Cobalt Phthalocyanine Catalyst for Reducing Sulfur Content in Liquefied Gas, 2016-2018, Key Industrialization Technology Project of PetroChina

[14]. Research on the substitution of extraction solvent for liquefied gas desulfurization unit, 2016-2017, a cooperation project of China Petrochemical Corporation Jinan Branch

[15]. Liquefied gas, gasoline desulfurization (mercaptan) catalyst research and industrial application promotion, 2015-2020, chemical enterprise cooperation project

[16]. Research on the Application of Catalytic Diesel Heavy Components, Jinan Branch of Sinopec Corp.

[17]. Technology Development and Industrial Test of Liquid Cobalt Phthalocyanine Catalyst for Reducing Sulfur Content in Liquefied Gas, PetroChina Changqing Petrochemical Company

[18]. Research on new organic metal hydride catalysis materials and new catalysts for light alkane isomerization, Science and Technology Department of CNPC

[19]. Study on the composition and coking tendency of acid-containing crude oil coking feedstock, Sinopec Qingdao Branch,

 

 

 

 

 

Representative Papers and Patents

1. Paper

[1]. [1] Zhu, L. J., X. X. Zhu, C. Zhang, T. Huo, X. L. Hou, D. D. Guo, H. M. Zhang, and D. H. Xia. 2021. 'Enhanced visible-light catalytic degradation of methylene blue by improving adsorption of porous zirconium-based porphyrin MOFs sensitized TiO2 photocatalyst', Journal of Materials Research, 36: 2961-72.

[2]. Zhu, L. J., X. F. Lv, S. Y. Tong, T. T. Zhang, Y. R. Song, Y. J. Wang, Z. Hao, C. Huang, and D. H. Xia. 2019. 'Modification of zeolite by metal and adsorption desulfurization of organic sulfide in natural gas', Journal of Natural Gas Science and Engineering, 69.

[3]. Zhu, L. J., X. Y. Jia, H. Bian, T. Huo, Z. B. Duan, Y. Z. Xiang, and D. H. Xia. 2018. 'Structure and adsorptive desulfurization performance of the composite material MOF-5@AC', New Journal of Chemistry, 42: 3840-50.

[4]. Zhu, L. J., Y. J. Wang, S. L. Wang, T. Huo, X. H. Jing, A. F. Li, and D. H. Xia. 2018. 'High viscosity-reducing performance oil-soluble viscosity reduction agents containing acrylic acid ester as monomer for heavy oil with high asphaltene content', Journal of Petroleum Science and Engineering, 163: 37-44.

[5]. Zhu, L. J., S. L. Wang, C. Huang, Y. Tian, X. Yang, X. H. Jing, A. F. Li, and Iop. 2017. Screening of Synthesis Conditions of Polymers and the Effects on Viscosity Reduction Performance. In 3rd International Conference on Environmental Science and Material Application (ESMA). Chongqing, PEOPLES R CHINA.

[6]. Zhu, L. J., X. H. Jing, S. L. Wang, J. S. Chen, D. H. Xia, and A. F. Li. 2015. 'Screening and Evaluation of Types and Ratio of Monomers of Oil Soluble Viscosity Reducing Agent for Shengli Super Heavy Oil', Petroleum Science and Technology, 33: 452-59.

[7]. Zhu, L. J., X. H. Jing, L. C. Song, B. Liu, Y. L. Zhou, Y. Z. Xiang, and D. H. Xia. 2014. 'Solid-phase synthesis and catalytic sweetening performance of sulfonated cobalt phthalocyanine from sulfonated phthalic anhydride mixture', New Journal of Chemistry, 38: 663-68.

[8]. Zhu, L. J., L. C. Song, B. Liu, Y. L. Zhou, Y. Z. Xiang, and D. H. Xia. 2014. 'New Determination Method for Sulfonation Degree of Phthalic Anhydride by RP-HPLC', Journal of Chromatographic Science, 52: 390-94.

[9]. Zhu, L. J., and D. H. Xia. 2012. 'Analysis method of sulphion in the process of fluid catalytic oxidative desulfurization', Abstracts of Papers of the American Chemical Society, 243.

[10]. Zhu, L. J., C. J. Jiao, D. H. Xia, and J. S. Wu. 2011. 'N-Annulated perylene dyes with adjustable photophysical properties', Tetrahedron Letters, 52: 6411-14.

[11]. Wang, Y., Z. Feng, Y. W. Sun, L. J. Zhu, and D. H. Xia. 2022. 'Chiral induction in a novel self-assembled supramolecular system composed of alpha-cyclodextrin porous liquids, chiral silver nanoparticles and planar conjugated molecules', Soft Matter, 18: 975-82.

[12]. Guan, C. D., Z. H. Li, L. J. Zhu, and D. H. Xia. 2021. 'A superhydrophilic and high demulsification aramid nanofibers membrane with novel poly-pseudorotaxane structure for oil-in-water separation', Separation and Purification Technology, 269.

[13]. Li, Z. H., L. B. Yang, L. J. Zhu, and D. H. Xia. 2021. 'A Novel B-Doped NiP/H beta Catalyst for n-hexane Isomerization with Synergistic Catalytic Mechanism of Metal Sites-Acid Sites', Catalysis Letters.

[14]. Ding, X. C., S. C. Wei, H. Bian, L. J. Zhu, and D. H. Xia. 2021. 'Insights into the Self-Aggregation of Porphyrins and Their Influence on Asphaltene Aggregation', Energy & Fuels, 35: 11848-57.

[15]. Wang, Y., Y. Q. Chen, H. Bian, Y. W. Sun, L. J. Zhu, and D. H. Xia. 2021. 'Highly selective and sensitive chiral recognition to deoxynucleosides by calixarene oligomers modified silver nanoparticles', Sensors and Actuators B-Chemical, 341.

[16]. Duan, Z. B., S. C. Wei, H. Bian, C. D. Guan, L. J. Zhu, and D. H. Xia. 2021. 'Inclusion as an efficient purification method for specific removal of tricyclic organic sulfur/nitrogen pollutants in fuel and effluent with cyclodextrin polymers', Separation and Purification Technology, 254.

[17]. Wang, Y., Y. W. Sun, H. Bian, L. J. Zhu, D. H. Xia, and H. Z. Wang. 2020. 'Cyclodextrin Porous Liquid Materials for Efficient Chiral Recognition and Separation of Nucleosides', Acs Applied Materials & Interfaces, 12: 45916-28.

[18]. Zhang, M., C. C. Wang, C. Zhang, T. T. Cai, L. J. Zhu, and D. H. Xia. 2020. 'Preparation and catalytic performance of a novel organometallic CoH/H beta catalyst forn-hexane isomerization', New Journal of Chemistry, 44: 15646-53.

[19]. Duan, Z. B., Y. L. Li, M. Zhang, H. Bian, Y. Wang, L. J. Zhu, and D. H. Xia. 2020. 'Towards cleaner wastewater treatment for special removal of cationic organic dye pollutants: A case study on application of supramolecular inclusion technology with beta-cyclodextrin derivatives', Journal of Cleaner Production, 256.

[20]. Yang, L. J., Z. Y. Song, Y. M. Yu, L. J. Zhu, and D. H. Xia. 2020. 'Bimetallic Bifunctional Pt-NiP/H beta as a Novel and Highly Efficient Catalyst for n-Hexane Isomerization', Catalysis Surveys from Asia, 24: 104-14.

[21]. Duan, Z. B., H. Bian, Z. J. Gao, L. J. Zhu, and D. H. Xia. 2019. 'Green Fuel Desulfurization with beta-Cyclodextrin Aqueous Solution for Thiophenic Sulfides by Molecular Inclusion', Energy & Fuels, 33: 9690-701.

[22]. Duan, Z. B., M. Zhang, H. Bian, Y. Wang, L. J. Zhu, Y. Z. Xiang, and D. H. Xia. 2019. 'Copper(II)-beta-cyclodextrin and CuO functionalized graphene oxide composite for fast removal of thiophenic sulfides with high efficiency', Carbohydrate Polymers, 228.

[23]. Duan, Z. B., X. C. Ding, Y. Wang, L. J. Zhu, and D. H. Xia. 2018. 'A New Strategy for Fuel Desulfurization by Molecular Inclusion with Copper(II)-beta-cyclodextrin@SiO2@Fe3O4 for Removing Thiophenic Sulfides', Energy & Fuels, 32: 11421-31.

[24]. Duan, Z. B., T. T. Bu, H. Bian, L. J. Zhu, Y. Z. Xiang, and D. H. Xia. 2018. 'Effective Removal of Phenylamine, Quinoline, and Indole from Light Oil by beta-Cyclodextrin Aqueous Solution through Molecular Inclusion', Energy & Fuels, 32: 9280-88.

[25]. Li, L. L., Z. B. Duan, J. S. Chen, Y. L. Zhou, L. J. Zhu, Y. Z. Xiang, and D. H. Xia. 2017. 'Molecular recognition with cyclodextrin polymer: a novel method for removing sulfides efficiently', Rsc Advances, 7: 38902-10.

[26]. Song, L. C., Z. B. Duan, L. J. Zhu, Y. L. Zhou, Y. Z. Xiang, and D. H. Xia. 2016. 'Selective functionalization of external and internal surface of MCM-41 for adsorptive desulfurization', Journal of Porous Materials, 23: 1181-87.

[27]. Cheng, Z. H., Z. Y. Song, Z. B. Duan, S. J. Jiang, L. J. Zhu, and D. H. Xia. 2016. 'Synthesis and catalytic studies of novel tetra sulfonylphenoxyls substituted Co(II), Cu(II), and Ni(II) phthalocyanines for the LPG sweetening', Petroleum Science and Technology, 34: 130-38.

[28]. Xia, D. H., S. J. Jiang, L. T. Li, Y. Z. Xiang, and L. J. Zhu. 2016. 'The biomimetic catalytic synthesis of acetal compounds using beta-cyclodextrin as catalyst', Chinese Journal of Chemical Engineering, 24: 146-50.

[29]. Cui, N., Z. H. Chen, H. X. Zhang, L. J. Zhu, N. Y. Shi, and D. H. Xia. 2015. 'Study on the catalytic sweetening performance of cobalt sulfonated phthalocyanine synthesized with microwave method', Abstracts of Papers of the American Chemical Society, 250.

[30]. Song, L. C., J. S. Chen, Y. H. Bian, L. J. Zhu, Y. L. Zhou, Y. Z. Xiang, and D. H. Xia. 2015. 'Synthesis, characterization and desulfurization performance of MCM-41 functionalized with Cu by direct synthesis and organosilanes by grafting', Journal of Porous Materials, 22: 379-85.

Song, L. C., T. T. Bu, L. J. Zhu, Y. L. Zhou, Y. Z. Xiang, and D. H. Xia. 2014. 'Synthesis of Organically Inorganically Functionalized MCM-41 for Adsorptive Desulfurization of C4 Hydrocarbons', Journal of Physical Chemistry C, 118: 9468-76

2. Patent

[1] . A long-wavelength absorbing copolymer donor material for photoactive layer of polymer solar cell and its preparation method, 20170704, ZL 201510578172.1

[2]. A low-cost oil-soluble viscosity reducer for viscosity reduction of heavy oil and its preparation method, 20180615, ZL 201510665907.4

[3]. A long wavelength absorbing copolymer material for photoactive layer of polymer solar cells, 20180720, ZL 201710233437.3

[4]. A preparation method of organic sulfide adsorption desulfurizer in natural gas, 20180619 , ZL201710233078.1

[5]. A metal organic coordination polymer adsorbent for fuel oil refining and its regeneration method, 20180622 , ZL 201710166368.9

[6]. A cobalt octacarboxyphthalocyanine catalyst for desulfurization of natural gas, 20171110, ZL 201510595119.2

[7]. A light oil desulfurizer based on supramolecular inclusion and its use, 20180821, ZL 201510578174.0

[8]. A denitrification agent for fuel oil using supramolecular inclusion and its use, 20170125, ZL 201510578640.5

[9]. Preparation and application of a C5/C6 n-paraffin isomerization catalyst, 20180504, ZL 201510175935.8

[10]. Ionic liquid catalyst for C5/C6 alkane isomerization and its preparation and use, 2016.02.03, China, CN201410172912.7

[11]. C5/C6 alkane isomerization catalyst supported by nickel boride and its preparation and use, 2015.09.09, China, CN201410075578.3

[12]. A catalyst for C5/C6 alkane isomerization and its preparation and use method, 2015.12.09, China, CN201410025582.9

[13]. A liquid cobalt sulfonated phthalocyanine catalyst for liquefied petroleum gas desulfurization, 2015.7.22, other countries, CN201510117502.7

[14]. A kind of preparation method of liquefied petroleum gas mercaptan conversion catalyst, 2015.9.2, other countries, CN201510154246.9

[15]. Preparation and application of a C5/C6 n-paraffin isomerization catalyst, 2015.9.9, other countries, CN201510175935.8

 

 

 

 

Representative Works

[1]. Zhu, L. J., X. X. Zhu, C. Zhang, T. Huo, X. L. Hou, D. D. Guo, H. M. Zhang, and D. H. Xia. 2021. 'Enhanced visible-light catalytic degradation of methylene blue by improving adsorption of porous zirconium-based porphyrin MOFs sensitized TiO2 photocatalyst', Journal of Materials Research, 36: 2961-72.

[2]. Zhu, L. J., X. F. Lv, S. Y. Tong, T. T. Zhang, Y. R. Song, Y. J. Wang, Z. Hao, C. Huang, and D. H. Xia. 2019. 'Modification of zeolite by metal and adsorption desulfurization of organic sulfide in natural gas', Journal of Natural Gas Science and Engineering, 69.

[3]. Zhu, L. J., X. Y. Jia, H. Bian, T. Huo, Z. B. Duan, Y. Z. Xiang, and D. H. Xia. 2018. 'Structure and adsorptive desulfurization performance of the composite material MOF-5@AC', New Journal of Chemistry, 42: 3840-50.

[4]. Zhu, L. J., Y. J. Wang, S. L. Wang, T. Huo, X. H. Jing, A. F. Li, and D. H. Xia. 2018. 'High viscosity-reducing performance oil-soluble viscosity reduction agents containing acrylic acid ester as monomer for heavy oil with high asphaltene content', Journal of Petroleum Science and Engineering, 163: 37-44.

 

 

 

 

Awards and Honors

[1] In 2019, he won the Science and Technology Award of Shandong Province Colleges and Universities (1/5).

[2] In 2019, he won the title of silver instructor in the Shandong University Student Science and Technology Innovation Competition.

[3] In 2019, he guided students to win the second prize of the 6th Shandong University Student Science and Technology Innovation Competition.

[4] In 2020, the deep desulfurization technology and application technology for industrial petroleum gas won the Technology Invention Award of China Petroleum and Chemical Industry Federation (3/7)

 

 

 

 

Courses Offered

Undergraduate:《Organometallic Chemistry》《Practical Academic Papers Arranging Techniques

Postgraduate:《Organometallic Chemistry

 

 

 

 

Student Training

1. Supervise Postgraduate Students

There are 1 academic graduate student, 4 professional master graduate students, and 5 graduate students.

2. Admissions Instructions

Major: Chemistry, chemical industry, material related majors. Admission requirements: good health, good experimental skills and English foundation.

 

 

 

 

Part-time Academic Job

[1] Served as a reviewer for Journal of Energy Chemistry, Process Safety and Environmental Protection, The Royal Society of Chemistry, Journal of Biochemistry and Analytical studies, Petroleum Engineering Journal, China Refining and Petrochemical and other journals.

[2] Member of Chinese Chemical Society and Chinese Chemical Society.