Li Chuan(Associate Professor)

Published:2022-10-26Author:王兆兴Number of Visits:36

  


  Name

Li Chuan


Academic Title

Associate Professor


Advisor Type

Master Supervisor


  Department

  Department   of Chemical Engineering


Research Interests

Heavy oil chemistry and processing

Coal chemical engineering


  E-Mail

lichuan@upc.edu.cn


  Telephone

+86-18653245509, +86 532-86981852






Educational Background


(1)   1998-2002   Department of Applied   Chemistry, University of Petroleum(East China), Bachelor Degree

(2)   2002-2004   Department of Applied   Chemistry, China University of Petroleum(East China), Studying for doctorate   directly

(3)   2004-2008   Department of Applied Chemistry, China   University of Petroleum(East China), PhD











Work Experience


(1) 2008-2010   Department of Chemical Engineering, College   of Chemistry and Chemical Engineering, China University of Petroleum (East   China), Lecturer

(2) 2011-now    Department of Chemical Engineering, College   of Chemistry and Chemical Engineering, China University of Petroleum (East   China), Associate Professor

(3)   2018-2019   Department of Chemical and   Biomolecular Engineering, National University of Singapore, Visiting Scholar










Research Direction


[1] Oil and   gas chemistry

[2] Oil and   gas chemical engineering

[3] Coal   chemical engineering

[4] Waste   resource regeneration











Research Project


[1] National   Natural Science Foundation of China, Youth Fund Project, 21106186Regulation and physicochemical   mechanism of amphiphilic molecules on wall coking during heavy oil   hydrocracking system240 000 CNYHost

[2] Natural   Science Foundation of Shandong Province, General Project, ZR2017MB026, Study   of technology development and conversion mechanism of coal tar and inferior   heavy oil during co-hydro processing150 000 CNYHost

[3] Ministry   of EducationIndependent   innovation and scientific research program of Central Universities14CX02032ABasic study on composition, properties   and clean utilization of medium and low temperature coal tar180 000 CNYHost

[4] Natural   Science Foundation of Shandong Province, Youth Fund Project, ZR2009BQ012,   Development and mechanism of coke inhibitor during residue slurry bed   hydrocracking, 30 000 CNY, Host

[5] Changzhou   Southeast Education Technology Co., LtdImprovement and development of complete set   of high pressure hydrogenation equipment1 150 000 CNYHost

[6] Anhui   Fenghuangguofu Technology Co., Ltd., Development of de-metallization   technology of waste lubricating oil and its vacuum residue550 000 CNYHost

[7] Inner   Mongolia Shengyuan Technology Co., Ltd., Pilot test of coal tar slurry bed   hydrocracking480 000 CNYHost

[8] Inner   Mongolia Shengyuan Technology Co., Ltd., Process evaluation of catalytic   slurry production of high-density fuel blending components430 000 CNYHost

[9] 718   Research Institute of China Shipbuilding Industry Corporation, Synthesis,   characterization and evaluation of supported iron-based catalysts for coal   and heavy oil hydrotreating, 320 000 CNYHost

[10] Department   of Science and Technology of Shandong Province, Key Research and Development   Project2015GGX107014Development of catalyst and process   technology for low temperature isomerization of low carbon alkanes200 000 CNYSecond person in charge

[11] China   Shipbuilding Heavy Industry Technology Investment Development Co., Ltd, Key   Research and Development Project, Pilot test of heavy energy lightening technology,   3 152 800 CNYSecond person   in charge

[12] China   Shipbuilding Heavy Industry Technology Investment Development Co., Ltd, Key   Research and Development Project, Experiment on improvement of engineering   foundation of heavy energy lightening technology3 620 000 CNYSecond person in charge

[13] Inner   Mongolia Shengyuan Technology Co., Ltd., Development of inferior heavy oil   hydrogenation technology, 1 280 000 CNY , Second person in charge

[14] National   Natural Science Foundation of ChinaGeneral Project20776160Study on dispersion state and stability   mechanism of asphaltene in heavy oil240000 CNY, Participants

 

 










Representative Papers and Patents


1. Paper

[1] Chuan Li, Xinzhao Wang, Tengfei Yang,   Wenan Deng. Enhancement of fluidity and slurry-phase hydrogenation reactivity of   coal-oil slurry by preheating treatment. Fuel, 2021, 290: 119806

[2] Chuan Li, Yapeng Han, Tengfei Yang,   Wenan Deng. Preliminary study on the influence of catalyst dosage on coke   formation of heavy oil slurry-bed hydrocracking. Fuel, 2020, 270: 117489

[3] Chuan Li, Juan Li, Tengfei Yang,   Wenan Deng. Formation of Ni–MoS3 Hollow Material with Enhanced Activity in   Slurry-phase Hydrogenation of Heavy Oil. Energy & Fuels, 2019, 33(11):   10933-10940

[4] Chuan Li, Tianxiang Huang, Zhaodi   Huang, Jianpeng Sun, Cheng Zong, Jingge Yang, Wenan Deng, Fangna Dai. A   sulfonated cobalt phthaloctanine/carbon nanotube hydrid as a bifunctional   oxygen electrocatalyst. Dalton Transactions, 2019, 48: 17258-17265

[5] Tengfei   Yang, Congcong Liu, Chuan Li,   Liyong Gan, Wenan Deng, Qingshan Niu. Promotion effect with dispersed Fe-Ni-S   catalyst to facilitate hydrogenolysis of lignite and heavy residue. Fuel,   2020, 259: 116303

[6] Tengfei   Yang, Congcong Liu, Wenan Deng, Chuan   Li, Liyong Gan, Qingshan Niu. Influence of the iron proportion on the   efficiency of an oil-soluble Ni-Fe catalyst applied in the co-liquefaction of   lignite and heavy residue. I&EC Research, 2019, 58: 19072-19081

[7] Chuan Li, Juntao Du, Tengfei Yang,   Wenan Deng. Exploratory investigation on the slurry-phase hydrocracking   reaction behavior of coal tar and petroleum-based heavy oil mixed raw   material. Energy & Fuels, 2019, 33(9): 8471-8482

[8] Tengfei   Yang, Yong Qin, Huanshuang Meng, Wenan Deng, Chuan Li, Juntao Du, Qingshan Niu. Structure and morphology   variation of solid residue from co-liquefaction of lignite and Merey   atmospheric residue. Fuel, 2018, 232:215-224

[9] Chuan Li, Huanshuang Meng, Tengfei   Yang, Juan Li, Yong Qin, Ying Huang, Wenan Deng. Study on catalytic   performance of oil-soluble iron-nickel bimetallic catalyst in coal/oil   co-processing. Fuel, 2018, 219: 30-36

[10] Juntao   Du, Wenan Deng, Chuan Li, Zailong   Zhang, Tengfei Yang, Xiangpeng Cao, Feng Du, Qiang Sun. Multi-metal catalysts   for slurry-phase hydrocracking of coal-tar vacuum residue: Impact of inherent   inorganic minerals. Fuel, 2018,215:370-377

[11] Juntao   Du, Wenan Deng, Chuan Li, Zailong Zhang, Tengfei Yang, Ruilong Guo.   Reactivity and structure changes of coal tar asphaltene during slurry-phase   hydrocracking. Energy & Fuels, 2017,31(2):  1858-1865

[12] Juntao   Du, Wenan Deng, Jinlu Li, Chuan Li,   Feng Du, Zailong Zhang, Tengfei Yang, Qiang Sun, Xiangpeng Cao. Structural   and compositional evolution of coal tar toluene insoluble during slurry-phase   hydrocracking. Fuel, 2017203352-359

[13] Chuan Li, Tengfei Yang, Wenan Deng,   Haihong Zhang, Min Cui. Effects of iron(III) dodecylbenzenesulfonate on the   slurry-Phase hydrocracking of Venezuela fuel oil with an oil-soluble Mo   catalyst. Energy & Fuels, 2016, 30(6): 4710-4716

[14] Min Cui, Chuan Li, Jiqian Wang, Wenan Deng.   Exploratory study for the mechanism of surfactant restraining the coke on the   surface of the reactor in residue slurry phase hydrocracking. Energy &   Fuels, 2016, 30(4): 2941-2947

[15] Wenan   Deng, Juntao Du, Chuan Li, Lele   Wu, Zailong Zhang, Ruilong Guo. Exploratory investigation for the coking   behavior during slurry-bed hydrocracking of coal tar atmospheric residue.   Energy & Fuels, 2016, 30(10): 8626-8629

[16] Chuan Li, Junle Song, Xingwang Wang,   Wenan Deng. Effect of sodium dodecyl benzenesulfonate on the coke formation   during slurry-bed hydrocracking of an atmospheric residue form Karamay.   Energy & Fuels, 2015, 29(1): 52-57

[17] Wenan   Deng, Jing Lu, Chuan Li.   Hydrogenation behavior of bicyclic aromatic hydrocarbons in the presence of a   dispersed catalyst. Energy & Fuels, 2015, 29(9): 5600-5608

[18] Luo Hui,   Xue Kai, Fan Weiyu, Li Chuan, Nan   Guozhi, Li Zhaomin. Hydrolysis of vegetable oils to fatty acids using   Bronsted acidic ionic liquids as catalysts. Industrial & Engineering   Chemistry Research, 2014, 53(29): 11653-11658

2. Patent

Foreign   invention patents:

[1]

[1] Li ChuanDeng WenanWang JinlinFeng LiangLi ShufengDu Feng. Дундажбагахэмднүүрснийдавирхайгаарсайнчанарынтүлшүйлдвэрлэхэдзориулагдсанустөрөгчжүүлэххосолсонаргаажиллагаа. Mongolian   Patent, MN10-2019-0006427, 2021-05-18.

[2] Li ChuanDeng WenanWang JinlinFeng LiangLi ShufengDu Feng. 중저온콜타르에의한고품질연료생산의수소첨가조합공법, Korean   PatentNo 10-22452772021.04.21

[3] Li ChuanDeng WenanWang JinlinFeng LiangLi ShufengDu Feng. Combined hydrogenation   process method for producing high-quality fuel by medium-low-temperature coal   tar. European PatentEP3567090B12021.02.24

[4] Li ChuanDeng WenanWang JinlinFeng LiangLi ShufengDu Feng. Combined hydrogenation   process method for producing high-quality fuel by medium-low-temperature coal   tar. US PatentUS10752850 B22020.08.25

[5] Li ChuanDeng WenanWang JinlinFeng LiangLi ShufengDu Feng. Combined hydrogenation   process method for producing high-quality fuel by medium-low-temperature coal   tar. Australian PatentAU 2018222933   B22020.05.14

[6] Li ChuanDeng WenanWang JinlinFeng LiangLi ShufengDu Feng. 中低温コールタールから高品質の燃料を製造する複合水素化処理方法. Japanese   PatentNo 66434262020.01.08

Chinese   invention patents:

[1] Li Chuan, Meng Huanshuang, Deng   Wenan, Li Shufeng, Du Feng, Yang Tengfei, Qin Yong, Huang Ying, Li Juan. An   oil soluble Fe-Ni Bimetallic Catalyst and its preparation method and   Application. ZL201611044613.0, 2020-02-20. Transfer 1 100 000 CNY.

[2] Li Chuan, Deng Wenan, Wang Jinlin,   Feng Liang, Du Feng, Li Shufeng, Hexige Manduhu. Catalyst, preparation method   and composite catalyst for hydrocatalytic pyrolysis. ZL201710445671.2, 2020-01-09.

[3] Li Chuan, Zhang Wei, Deng Wenan, Wu   Bo, Li Shufeng, Xie Haihua, Cui Min, Cheng Qiang, Meng Qin. A preparation   method of catalyst for heavy oil suspension bed hydrogenation process.   ZL201610281308.7, 2019-08-23.

[4] Li Chuan, Deng Wenan,   Wu Bo, Cui Min, Li Shufeng, Du Feng, Xie Haihua. A Method to deal with waste lubricating   oil. ZL201610080424.2, 2017-11-07.

[5] Li Chuan, Deng Wenan,   Li Shufeng, Wen Ping, Wang Weiyao, Du Feng. A combination process of slurry-bed   hydro-cracking and fixed-bed hydro-upgrading of coal tar. ZL201510275574.4, 2017-06-16. Transfer 480   000 CNY.

[6] Li Chuan, Li Xiangwei,   Deng Wenan, Yan Zhihui, Li Shufeng, Wen Ping, Du Feng. The synthesis and application   of an isomerisation catalyst of n-alkanes. ZL201410295731.3, 2017-04-12

[7] Li Chuan, Deng Wenan,   Yang Tao, Li Shufeng, Wen Ping. The synthesis and application of an oil-soluble   Mo-Ni bimetallic catalyst. ZL201510275523.1, 2017-03-22. Transfer 100   000 CNY.

[8] Li Chuan, Deng Wenan,   Li Shufeng. Two stage hydro-treating process for petroleum broad distillate.   ZL201110385561.4, 2015-04-22.

[9] Wang,   Ming, Li Chuan, Deng Wenan. A   regeneration treatment method of complexation, membrane separation,   hydrogenation and fractionation of waste lubricating oil. ZL201710820894.2.   2021-02-05.

[10] Li   Shufeng, Li Jichen, Deng Wenan, Li   Chuan, Du Feng. Electromagnetic liquid level measuring device for heavy   oil suspension bed hydrocracking high temperature and high pressure reactor.   ZL201811218202.8. 2020-06-26.

[11] Deng,   Wenan, Li Chuan, Wu Bo, Li   Shufeng, Du Feng, Xie Haihua, Cui Min. A combined process method for   regenerating waste lubricating oil through heat treatment. ZL201610284952.X.   2019-04-09.

[12] Deng   Wenan, Li Chuan, Wang Jinlin, Feng   Liang, Du Feng, Li Shufeng, Hexige Manduhu. Method for producing high density   fuel blending components from inferior heavy oil. ZL201611045154.8,   2018-08-10.

[13] Deng   Wenan, Li Chuan, Wu Bo, Hou   Yingfei, Li Shufeng, Li Peng, Xie Haihua, Wen Ping. Method for regenerating   waste lubricating oil. ZL201510903927.0. 2018-08-07.

[14] Deng   Wenan, Li Chuan, Zhang Yang, Li   Shufeng, Wen Ping. Preparation method and application of a kind of   naphthenate catalyst. ZL201510275248.3, 2018-03-13. Transfer 100 000 CNY.

[15] Deng   Wenan, Li Chuan, Li Shufeng, Wen   Ping, Du Feng, Gao Beibei, Wang Xingwang. A method of low temperature isomerization   of low-carbon n-alkanes. ZL201510250323.0, 2017-01-04. Transfer 30 000 CNY.

[16] Deng   Wenan, Li Chuan, Li Shufeng, Wen   Ping, Du Feng. A combined regeneration method of waste lubricating oil to produce   high grade lubricating oil products. ZL201510325181.X, 2016-12-07. Transfer 30 000 CNY.

[17] Deng   Wenan, Li Chuan, Zhang Han, Chen   Shouchuang, Mu Baoquan, Li Shufeng, Wen Ping. A new slurry-bed hydro-cracking   process of high sulfur and high acid poor quality heavy oil. ZL201110177167.1,   2014-05-28










Representative Works


[1] Petroleum Composition and Transformation Chemistry,   China University of Petroleum Press, 2008









Awards and Honors


[1] Second   prize for scientific and technological progress, China Petroleum and Chemical   Industry Association

[2] One First   prize for provincial teaching achievementOne Special prize and one First prize for   department level teaching achievementsThree Second prize for department level   teaching achievements

[3] School   level: excellent teachers, excellent teachers in student work and employment,   and excellent head teachers










Courses Offered


Undergraduate:《Petrochemical Technology》《Introduction to Petroleum Processing》《Professional Practice》《Professional   Experiment









Student Training


1. Supervise Postgraduate   Students

Guide 8   academic postgraduates, 11 professional postgraduates, 3 in-service   postgraduates and 2 doctoral postgraduates. All graduate students graduate   and work in PetroChina, Sinopec, CNOOC and other petrochemical related   enterprises.

2. Admissions Instructions

Recruit fresh and previous graduates   of petrochemical, coal chemical, chemistry, materials and other related   majors. It is required to have an optimistic attitude, rigorous learning   attitude, good teamwork spirit and safety awareness, and strong practical   ability.









Part-time Academic Job


[1] Review   expert of National Natural Fund of China

[2] Reviewer for   Energy & Fuels, Fuel, Frontiers in Energy, Journal   of Energy Chemistry, Chemical   Papers, Journal of Materials   Science and Chemical Engineering (MSCE), The Open Fuels & Energy Science Journal, Acta Petrolei Sinica (Petroleum Processing Section), Journal of Fuel Chemistry and Technology,   etc.