Deng Wenan（Professor）

  Name：

Deng Wenan

Academic Title：

Professor

Advisor Type：

Master Supervisor

  Department：

State Key Laboratory of heavy oil

Research Interests：

Petroleum and natural gas chemical engineering, coal chemical engineering, carbon materials

  E-Mail：

dengwenan@upc.edu.cn

  Telephone：

18605460968

◎Educational Background

(1) 1985.09-1989.07, Bachelor of Science，Applied Chemistry, University of Petroleum (East China)

(2) 1992.09-1995.07, Master of engineering, Applied chemistry, University of Petroleum (East China)

(3) 2000.09-2006.01, Doctor of engineering, Applied chemistry, China University of Petroleum (East China)

◎Work Experience

(1) 1989.08-1992.08， Technician, Jining petrochemical plant, Shandong Province

(2) 1995.07-1996.12，Teaching assistant, refining department, University of Petroleum (East China)

(3) 1996.12-1999.10，Lecturer, refining department, University of Petroleum (East China)

(4) 1999.10~2010.12，Associate professor, School of chemistry and chemical engineering, China University of Petroleum (East China)

(5) 2010.12~ Now, Professor, School of chemistry and chemical engineering, China University of Petroleum (East China)

◎Research Direction

[1] Petrochemical engineering

[2] Energy chemical engineering

[3] Applied Chemistry and material chemical engineering

[4] Catalytic materials and catalysts

◎Research Project

[1] Research on the relationship between heavy oil composition and characteristics, China Petroleum Exploration and Development Research Institute, horizontal project, 300000 yuan, Host

[2] Development of vacuum residue slurry bed hydrocracking technology for Karamay super heavy oil, PetroChina Karamay Petrochemical Company, horizontal project, 1 million yuan, Host

[3] Pilot test scheme of coal tar hydrofining (upgrading), Beijing Institute of low carbon and clean energy, horizontal project, 1 million yuan, Host

[4] Development of new distillate hydrogenation catalyst, Nantong Yangzi catalyst Co., Ltd., horizontal project, 1.5 million yuan, Host

[5] Development of combined process of atmospheric residue hydro pyrolysis and delayed coking of No. 380 fuel oil, Shandong Yuhuang Chemical Co., Ltd., horizontal project, 1.9 million yuan, Host

[6] Development of coal tar heavy fraction suspension bed hydrocracking technology, Shanghai Xinyou Energy Technology Co., Ltd., horizontal project, 1 million yuan, Host

[7] Evaluation of C5 / C6 low temperature isomerization catalyst, Beijing sanuo Shifei Petrochemical Technology Co., Ltd., horizontal project, 650000 yuan, Host

[8] Development of catalyst and process technology for low-temperature isomerization of low-carbon alkanes, key R & D project of Shandong Provincial Department of science and technology, 200000 yuan, Host

[9] Inferior heavy oil hydrogenation technology development, Inner Mongolia Shengyuan Technology Co., Ltd., horizontal project, 1.28 million yuan, Host

[10] Research on technology development and transformation mechanism of coal tar / inferior heavy oil hydrotreating process, Shandong Natural Science Foundation Committee, 150000 yuan, Second person in charge

[11] Process evaluation of producing high-density fuel blending components with catalytic oil slurry, Inner Mongolia Shengyuan Technology Co., Ltd., horizontal project, 430000 yuan, Second person in charge

[12] Pilot test of heavy energy lightening technology, China Shipbuilding Heavy Industry Technology Investment Development Co., Ltd., horizontal project, RMB 3.5128 million, Host

[13] Waste lubricating oil regeneration technology development, Ningbo Zhongxun Environmental Protection Technology Co., Ltd., horizontal project, 600000 yuan, Host

[14] Engineering foundation improvement test of heavy energy light alkylation technology, China Shipbuilding Heavy Industry Technology Investment Development Co., Ltd., horizontal project, 3.62 million yuan, Host

◎Representative Papers and Patents

1. Paper

[1] Deng Wenan, Wang Jiqian, Liu Dong, Zhao Qingqing, Que Guohe. Distribution and existing forms of Ni and V in hydrocracking reaction products of Lungu normal slag suspension bed, Acta Petrolei Sinica. (Petroleum Processing Section), 2007, 23（2）:57-61, EI included.

[2] Deng Wenan, Ma Lili, Que Guohe. Distribution and existing forms of calcium compounds in Karamay slag and its hydrothermal reaction products. (Petroleum Processing Section), 2007, 23（3）:80-86, EI included.

[3] Deng Wenan, Zhao Qingqing, Li Ming, Que Guohe. Mild hydrogenation separation of vanadium compounds in n-heptane asphaltene of Lungu atmospheric residue. (Petroleum Processing Section), 2008, 24（4）: 451-455, EI included.

[4] Deng Wenan, Tian Guanghua, Zhang Shuyi, Luo Hui, Que Guohe. Coke inhibition effect of compound additives on residue suspension bed hydrocracking reaction. (Petroleum Processing Section), 2009, 25（6）: 830-834, EI included.

[5] Deng Wenan, Tian Guanghua, Song Caixia, Shang Meng, Que Guohe. Effect of surfactant combination on residue suspension bed hydrocracking reaction system. (Petroleum Processing Section), 2010, 26(5): 785-788, EI included.

[6] Wenan Deng, Hui Luo, Jingjie Gao, Guohe Que. Stability Change of Asphaltene in the Residue during Slurry-Phase Hydrocracking. Energy ＆ Fuel, 2011, 25（11）: 5360-536.

[7] Wenan Deng, Jing Lu, and Chuan Li. Hydrogenation Behavior of Bicyclic Aromatic Hydrocarbons in the Presence of a Dispersed Catalyst. Energy & Fuels, 2015, 29（9）: 5600-5608.

[8] Deng Wenan, Wu Lele, Wang Xiaojie, Lu Jing, Li Chuan. The characteristics of surface functional groups of coal tar oil asphaltene and its influence on the selection of additives for suspension bed hydrocracking. (Petroleum Processing Section), 2015, 31（6）: 1383-1389. EI included.

[9] 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.

[10] Deng Wenan, Yang Tao, Li Chuan, Dai Xin. Effect of asphaltene change on coke formation in hydrocracking of atmospheric residue of Karamay super heavy oil under dispersed catalyst. (Petroleum Processing Section), 2016, 32（3）: 453-460. EI included.

[11] Deng Wenan, Guo Ruilong, Li Chuan, Du Juntao, Kong Zhenwei. Composition changes of medium / low temperature coal tar before and after suspension bed hydrogenation. Journal of China Coal Society, 2016, 41（S1）: 35-240. EI included.

[12] Deng Wenan, Wang Lei, Li Chuan, Han Yapeng, Wang Xingwang. Coke formation process in slurry bed hydrocracking of Marui atmospheric residue. (Petroleum Processing Section), 2017, 33（2）: 291-302. EI included.

[13] Deng Wenan, Li Jinlu, Li Chuan, Du Juntao Catalytic thermal reaction behavior of coal tar vacuum residue in H₂ atmosphere. (Petroleum Processing Section), 2017, 33（3）: 463-470. EI included.

[14] Deng Wenan, Qin Yong, Yang Tengfei, Liu zechao, Meng huanshuang, Li Chuan. Application of coal supported Fe / Mo catalyst in coal / oil hydrotreating co refining. (Petroleum Processing Section), 2018, 34(3): 487-493. EI included.

[15] Wenan Deng, Tianxiang Huanga, Chuan Li, Lifu Zhang, Zhaodi Huang, Jianpeng Sun, Zhenpeng Hu, Fangna Dai. In-situ construction of C-S-Zn structures on Enteromorpha-based porous carbon for efficient oxygen reduction reaction. Electrochimica Acta, 2021, 391: 138918.

[16] 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.

[17] 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: 1-11.

[18] 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.

[19] 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. Ind. Eng. Chem. Res, 2019, 58:19072-19081.

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

[21] 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.

[22] 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, 2017, 203: 352-359.

[23] 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(9):1858-1865.

2. Patent

Foreign invention patents:

[1] Li Chuan，Deng Wenan，Wang Jinlin，Feng Liang，Li Shufeng，Du Feng. Дундаж бага хэмд нүүрсний давирхайгаар сайн чанарын түлш үйлдвэрлэхэд зориулагдсан устөрөгчжүүлэх хосолсон арга ажиллагаа. Mongolian Patent, MN10-2019-0006427, 2021-05-18.

[2] Li Chuan，Deng Wenan，Wang Jinlin，Feng Liang，Li Shufeng，Du Feng. 중저온 콜타르에 의한 고품질 연료 생산의 수소첨가 조합 공법, Korean Patent，No 10-2245277，2021.04.21

[3] Li Chuan，Deng Wenan，Wang Jinlin，Feng Liang，Li Shufeng，Du Feng. Combined hydrogenation process method for producing high-quality fuel by medium-low-temperature coal tar. European Patent，EP3567090B1，2021.02.24

[4] Li Chuan，Deng Wenan，Wang Jinlin，Feng Liang，Li Shufeng，Du Feng. Combined hydrogenation process method for producing high-quality fuel by medium-low-temperature coal tar. US Patent，US10752850 B2，2020.08.25

[5] Li Chuan，Deng Wenan，Wang Jinlin，Feng Liang，Li Shufeng，Du Feng. Combined hydrogenation process method for producing high-quality fuel by medium-low-temperature coal tar. Australian Patent，AU 2018222933 B2，2020.05.14

[6] Li Chuan，Deng Wenan，Wang Jinlin，Feng Liang，Li Shufeng，Du 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 Patent，No 6643426，2020.01.08

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] Won the second prize of the third invention and entrepreneurship award of Shandong Province

◎Courses Offered

Undergraduate courses: 《Freshman Seminar》, 《Heavy Oil Processing Technology》, 《Introduction to Sustainable Development》, 《Petroleum Chemistry》

◎Student Training

1. Supervise Postgraduate Students

Assist in guiding 5 doctoral students, 55 academic postgraduates and 24 professional postgraduates. There are 4 graduate students and 80 graduate students, mainly employed in Sinopec, PetroChina, CNOOC, National Energy Group, Yanchang Petroleum Group, Shanxi coal chemical group, China University of petroleum, Changzhou University and some local state-owned and private 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

Member of the expert committee of China Energy Society, member of China chemical industry society, member of Shandong Petroleum Society.

Reviewer of Journal of fuel chemistry, Journal of Petroleum (petroleum processing), petroleum refining and chemical industry, Journal of coal, fuel, Journal of Beijing University of chemical technology and other journals