Jun Li(Associate Professor)

Published:2022-10-24Author:王兆兴Number of Visits:63

  


  Name

Jun Li


Academic Title

Associate Professor


Advisor Type

Supervisor of master students


  Department

Department of Chemical   Engineering


Research   Interests

Chemical engineering


  E-Mail

lijun@upc.edu.cn


  Telephone

053286981812/152 5326 9917






Educational background


·           2017-2018, University of Manchester, UK

School of Chemical Engineering and   Analytical Sciences, Academic Visitor

·           2009 -2014, Ocean University of China

School of Chemistry and Chemical   Engineering, PhD in Science

·           2003 -2006, China University of Petroleum (East China)

School of Chemistry and Chemical   Engineering, Master Degree in Engineering

·           1998 -2002, University of Petroleum (East China)

School of Chemistry and Chemical   Engineering, Bachelor of Engineering











Work experience


·           2012 - Now: China University of Petroleum (East China)

School of Chemical Engineering,   Associate Professor

·           2007 -2012: China University of Petroleum (East China)

School of Chemical Engineering,   Lecturer

·           2002 -2007: University of Petroleum (East China)

School of Chemistry and Chemical   Engineering, Teaching Assistant










Research direction


·           Chemical process simulation, optimization, control and   energy saving

·           Development of high-performance asphalt materials

·           Separation and reaction process enhancement











Research projects


Presided over 21 scientific research   projects and participated in more than 30 research projects. The   representative scientific research projects are as follows:

[1]       Research on coated asphalt preparation technology,   Enterprise Project, 2022-2023, Principal

[2]       Research on impregnating agent asphalt and binder asphalt   technology for petroleum asphalt production, Enterprise Project, 2021-2023,   Principal

[3]       Technical research on improving the technical   indicators of two specific crude oil straight- run asphalt products,   Enterprise Project, 2021-2022, Principal

[4]       Research on enhanced extractive distillation process   for separation of naphthenes and isoparaffins with Deep Eutectic Solvents,   Shandong Provincial Surface Fund, 2020 - 2023, Principal

[5]       Compositional characterization and emulsifying   performance of different types of emulsifiers, Enterprise Project, 2019-2022,   Principal

[6]       Development of continuous separation process of   methylcyclopentadiene trihydroxy manganese, Enterprise Project, 2019-2021,   Principal

[7]       Basic research on the separation of naphthenes and   isoparaffins by deep eutectic solvent extraction and distillation, Open   Project of the State Key Laboratory of Heavy Oil, 2019-2021, Principal

[8]       Software development of asphalt database, Enterprise   Project, 2019-2020 , Principal

[9]       Design and experimental research of green solvent for   separation of olefins and alkanes from coker naphtha, Provincial Key Research   and Development Plan, 2019-2021, Participation

[10]Research on   the optimal design of the dividing wall column based on the safety of the   control system, Independent Innovation Scientific Research Project,   2018-2020, Principal

[11]Feasibility   study on deasphalted oil as feedstock for catalytic cracking, Enterprise   Project, 2018-2019, Principal

[12]Kinetic   mechanism and multiphase interface characteristics of different types of   heavy oil, National Key R&D Program, 2019, Participation

[13]Research on   mass transfer mechanism of nanofluid enhanced distillation process, National   Natural Science Foundation of China, 2019 - 2022, 3/10

[14]Research on   optimization and control of integrated process of differential pressure   thermal coupling and reactive distillation, Natural Science Foundation of   Shandong Province, 2014 - 2016, Principal

[15]Thermodynamic   analysis, optimization and control of auto-heat recovery distillation   process, National Natural Science Foundation of China, 2015-2018, 2/10

[16]Change law of   oil water content and identification of water content source of heavy quality   committee, Enterprise Project, 2017-2018, Principal

[17]Design and   optimization of the coupled process of dividing wall column and reactive   distillation, National Natural Science Foundation of China, 2013 - 2016, 2/10

[18]Model   development of refinery production process, Enterprise Project, 2014 - 2016,   Principal

[19]Product   development and application research of asphalt material for functional   pavement, Enterprise Project, 2013 - 2016, Principal










Representative papers and patents


1. Papers

[1]       Jingtao Shi, Jun Li, Chun Li, et al. Effect of Organic   viscosity-reducing warm-mix agent on the performance of rubber asphalt. Coatings,   2022, 12 (2), 152.

[2]       Jun* Li,   LanxinLi, RuChunLi,   et al. Investigation of multi-objective optimization for integrating design   and control of ionic liquid-based extractive distillation. Chemical   Engineering Research & Design, 2021, 170: 134-146.

[3]       Jian Liang, Hao Zhou, Jun Li*, Weizhi Kong, Zhanhua Ma,   Lanyi Sun. Comparison of dynamic performances for heat integrated reactive   distillation considering safety. Chemical Engineering and Processing -   Process Intensification, 2021, 160: 108294.

[4]        Luo Fei, Liu Xinglong, Chen Shuo, Song Yunfei, Yi,   Xiaoyan, Xue Changyong, Sun, Lanyi1, Li Jun. Comprehensive Evaluation of a   Deep Eutectic Solvent Based CO2 Capture Process through Experiment and   Simulation, ACS Sustainable Chenmistry &   Engineering,2021(30):10250-10265.

[5]       Hongyue Guo, Yicong Zhao, Yufan Pang, Jun Li, Qingsong   Li. Liquid plus liquid equilibrium and thermodynamic modeling of water plus   cyclohexanone plus ethylacetate at different temperatures. The Journal of   Chemical Thermodynamics, 2021, 160: 106617.

[6]       Jingtao Shi, Jun Li *, et al. Viscoelastic model and   model universality under dynamic and static loading of asphalt [J]. Journal   of China University of Petroleum (Natural Science Edition), 2021(04):168-175

[7]       Jun* Li, Ruchun Li, Hao Zhou, Xiao Yang, Zhan Hua Ma,   Lanyi Sun, Nan Zhang. Energy-Saving ionic liquid-based extractive   distillation configurations for separating ternary azeotropic system of   Tetrahydrofuran/Ethanol/Water. Industrial & Engineering Chemistry   Research, 2019, 58:16858-16868.

[8]       Jun* Li, Hao Zhou, Lanyi Sun, Nan Zhang. Design and   control of different pressure thermally coupled reactive distillation for   synthess of isoamyl acetate. Chemical Engineering and Processing: Process   Intensification. 2019, 139(5): 51-67.

[9]       Zhanhua Ma, ShuaiLi, AijingJiang, Jun Li *,   et al. Effect of Zn as a promoter on the performance of PtSn /Al2O3 catalyst   for propane dehydrogenation. Progress in Chemical Industry, 2019(8):   3670-3678.

[10]Lanyi Sun, Fei   Luo, Rui Liu, Hao Yang, Liguo Huang, Jun Li. Isobaric Liquid-Liquid   Equilibrium Measurements and Thermodynamics Modeling for Systems: Benzene   plus Cyclohexane + DESs at 303.15 and 323.15 K. Journal of Chemical and   Engineering Data, 2019(3):1113-1121.

[11]Jun* Li, Hao   Zhou, XiaoQiao Huang, TianLong Zhao, ZhanHua Ma, Lanyi Sun. Novel control   structures design of different pressure thermally coupled reactive   distillation for methyl acetate hydrolysis[J]. China Petroleum processing   & petrochemical processing, 2018, 20(3): 85-95.

[12]Tianlong Zhao,   Jun* Li, Hao Zhou, Zhanhua Ma, Lanyi Sun. A thermally coupled reactive   distillation process to intensify the synthesis of isopropyl acetate[J].   Chemical Engineering and Processing: Process Intensification[J]. 2018,   124(2): 97~108.

[13]Zhanhua Ma;   Yajing Mo; Jun Li, et al. Optimization of PtSnK /Al2O3isobutane   dehydrogenation catalyst prepared by an impregnation-reduction method.   Journal of Natural Gas Science and Engineering, 2015, 27:1035-1042.

[14]Jun* Li, Jun   Wang, Zhanhua Ma, et al. Preparation of platinum nanoparticle catalyst for   propane dehydrogenation, Journal of Nanoscience and Nanotechnology, 2014, 14:   1-7.

[15]Zhanhua Ma, Jun   Wang, Jun Li, et al. Propane dehydrogenation over Al2O3supported Pt   nanoparticles: Effect of cerium addition. Fuel   Processing Technology, 2014,128:283-288.

[16]Jun Li, Ning   Wang, Zhanhua Ma, et al. Novel coated Pt@SnO2/Al2O3 catalyst for propane   dehydrogenation[J]. Rare Metal Materials and Engineering, 2013,   42(2):259-263.

 

2. Patents

[17]Jun Li, Lanyi   Sun, Jun Wang, et al. A method for separation of methylcyclohexane and   toluene by differential pressure thermal coupling extractive distillation.   2016.08, China, 201210051656.7

[18]Jun Li, Yanan   Tian, Lanyi Sun, et al. A process for synthesizing ethyl acetate, 2015.02,   China, 201310195417.3.

[19]Jun Li, Caixia   Qi, Lijuan Xing, et al. A variable pitch double helical baffle heat   exchanger, 2011.06, China, 201020294041.3.

[20]Jun Li, Caixia   Qi, Qin Yu, et al. A spiral baffle heat exchanger, 2011.06, China,   201020294039.6.

[21]Jun Li, Mingwei   Cui, Lanyi Sun, et al. A gas-liquid cyclone, 2009.08, China, 200820026737.0.

[22]Jun Li, Yongduo   Liu, Zhanhua Ma, et al. A cold hydrogen tank, 2012.10, China, 201220091695.5.

[23]Lanyi Sun, Jun   Li, Delian Yang, et al. A hydrolysis and separation device for methyl acetate   and its process, 2011.03, China, 200810014525.5.

[24]Lanyi Sun, Jun   Li, Jia Wu, et al. A catalytic distillation process for the synthesis of   methyl tert-butyl ether. 2016.12. China, 201210051632.1

[25]Jun Li, Lanyi   Sun, Jun Wang, Zhanhua Ma, Xuenuan Liu, Qingsong Li. A method for separation   of methylcyclohexane and toluene by differential pressure thermal coupling   extraction distillation. 2016.08. Shandong, ZL201210051656.7.

[26]Lanyi Sun, Jun   Li, Jia Wu, Zhanhua Ma, Xuenuan Liu, Qingsong Li. A catalytic distillation   process for synthesizing methyl tert-butyl ether. 2016.12. Shandong,   ZL201210051632.1.

[27]Lanyi Sun,   Zhanhua Ma, Ningning Wang, Jun Li. A catalyst for isobutane dehydrogenation   to isobutene and its preparation method and application. 2017.01. Beijing,   2014108446528.

[28]Lanyi Sun,   Zhanhua Ma, Ningning Wang, Jun Li. A catalyst for isobutane dehydrogenation   to isobutene and its preparation method and application. 2018.01. Beijing,   2014108416994.

[29]Lanyi Sun, Yanan   Tian, Jing Luo, Jun Li. A device and method for producing biodiesel. 2018.10.   Shandong, 2015105206927.

[30]Zhigang Wang,   Mingjiang Yuan, Zhichao Li, Kekun Xie, Chuanmin Lian, Lanyi Sun, Jun Li. A   method for producing aromatic hydrocarbons from heavy oil. 2018.05. Shandong,   ZL201510493528.

[31]Zhanhua Ma, Jun   Li, Changhua An, Shuai Li, Aijing Jiang, Lanyi Sun. Ptx-Sny binary alloy   nanocatalyst for propane dehydrogenation and its preparation method. 2020.04.   Shandong, 2017109303840.










Representative works


[1]       China University of Petroleum (East China) Twelfth   Five-Year Plan Textbook, Chemical Cognition Practice Course,   China University of Petroleum Press, Editor-in-Chief

[2]       China University of Petroleum (East China) 14th   Five-Year Plan Textbook, Course Design of Chemical Engineering   Principles, China University of Petroleum Press, Editor-in-Chief

[3]       National Twelfth Five-Year Plan textbook,   Chemical Process Simulation Training - Aspen Plus Tutorial, Chemical   Industry Press, co-editor

[4]       Fundamentals of Chemical Processes, China   Petrochemical Press, co-editor

[5]       Optimization of Energy System in Process   Industry: Heat Exchange Network and Steam Power System , Chemical   Industry Press, co-editor.









Awards and honorary titles


[1]       China University of Petroleum (East China) Outstanding   Teacher, Top Ten Class Teacher, Excellent Class Teacher

[2]       As project principal, won the 5th China Petroleum and   Chemical Industry Education and Teaching Outstanding Achievement Award, 2   first prizes and 1 second prize for school teaching achievements. As project   participant, won 3 provincial and ministerial teaching achievement awards, 2   school teaching achievement special awards, 4 first prizes, and 3 second   prizes.










Teaching courses


Undergraduate:    Principles of Chemical Engineering , Process System   Engineering

Postgraduate:   Process System Engineering, Advanced Separation   Engineering










Recruitment and guidance of graduate students


1. Supervise Postgraduate Students

Supervise 25 postgraduate students. Typical students include 2016 -level   master students studying for a doctorate in chemical engineering and   technology at Tianjin University; 2011 - level master Zhang Yiyuan works as a   deputy manager of the production technology department in Qingdao Refinery   and Chemical Company.

2. Admissions   Instructions

Recruit chemical engineering and technology graduate students, materials   and chemical engineering graduate students, welcome to students who apply for   chemical engineering, energy and chemical, applied chemical, chemistry and   related majors.









Part-time Academic Job


[1]       Member of National Petroleum Asphalt Standardization   Committee

[2]       Member of China Chemical Industry Association, expert   of industry expert database of China Petroleum and Chemical Industry   Federation, expert of Asphalt Work Department of Petroleum and Natural Gas   Committee of China Petroleum and Chemical Industry Federation

[3]       Served as the young editorial board member of the   Journal of China University of Petroleum, and served as a reviewer for   various journals such as the Chinese Journal of Chemical Engineering, IECR,   Energy Conversion and Management, etc.