Wang Yiwei, 

doctor, 

associate professor, 

master's tutor, 

visiting editor of Processes,

provincial and ministerial-level high-level talents, 

young editorial board of Petroleum Science and Low-carbon Chemistry and Chemical Industry, 

editorial board of Contemporary Chemical Research, member of the American Chemical Association

E-mail：wyw@cup.edu.cn

TEL：0990-6633318

Educational experience

2007-2011 China University of Petroleum (Beijing) Bachelor of Chemical Engineering and Technology

2011-2018 China University of Petroleum (Beijing) Doctor of Chemical Engineering and Technology

2015-2019 Doctor of Materials Engineering, University of Wollongong

Work experience

2019-2021 Lecturer, China University of Petroleum (Beijing)

2021-present China University of Petroleum (Beijing) Associate Professor and Master's Supervisor

Teaching courses

1. Principles of Chemical Industry I

2. Petroleum Processing Engineering

3. Chemical Professional English

4. Chemical Principle Course Design

5. Introduction to Energy and Chemical Industry

6. Energy Professional Experimental Practice

Research direction

1. Development of hydrate-related technologies;

2. Coal gasification;

3. Carbon dioxide capture and burial;

4. Balance;

5. Heavy oil reduces viscosity.

Research project

As the second person in charge, he is responsible for one of key research and development projects at the municipal level, participates in one of the provincial and ministerial scientific research and innovation team as the backbone, and participates in six other vertical and horizontal projects. The scientific research and talent projects hosted mainly include:

1. Xinjiang Uygur Autonomous Region provincial and ministerial high-level talent project, hydrate method to separate the mechanism of helium in Xinjiang-rich natural gas in Xinjiang and its process strengthening research, under research;

2. Horizontally, indoor research on the use of salt water layer to bury carbon dioxide technology, in research, host;

3. China University of Petroleum (Beijing), the mechanism of the interaction between tetrabutylammonium bromide and propane on the morphology of hydrate generated by torch gas, conclusion, host;

4. National Natural Science Foundation Youth Science Foundation Project, the impact of the interaction between tetrabutylammonium bromide and ethylene on the morphology of catalytic cracking dry gas to hydrate, conclusion, host.

5. Department of Science and Technology of Xinjiang Uygur Autonomous Region, basic research on the prevention of oil wells and pipeline blockage based on hydrate growth characteristics, conclusion, host.

6. Department of Education of Xinjiang Uygur Autonomous Region, temperature control in the process of recovering volatile organic compounds by hydrate technology, conclusion, host.

7. China University of Petroleum (Beijing), research on the morphology of oil and gas-generated hydrates, conclusion, host.

8. Enterprise horizontal, different water vapor_carbon dynamic parameter test under carbon dioxide pressure, conclusion, host;

Paper:

1. Wang Yiwei, Ying Bin, Liu Zengqi, Liu Zhiqi, Sun Qiang, Liu Aixian, Li Xingxun, Lan Wenjie, Yang Lanying, Guo Xuqiang*. The hydrate-based gas separation of hydrogen and ethylene from fluid catalytic cracking dry gas in presence of Poly (sodium4-styrenesulfonate)[J]. Fuel,2020,275:117895. 

2. Wang Yiwei, Deng Ye, Guo Xuqiang*, Sun Qiang, Liu Aixian, Zhang Guangqing, Yue Gang, Yang Lanying. Experimental and modeling investigation on separation of methane from coal seam gas (CSG) using hydrate formation[J]. Energy, 2018, 150, 377-395.

3. Wang Yiwei, Du Mei, Guo Xuqiang*, Sun Qiang, Liu Aixian, Chen Bo, Chen Guangjin, Sun Changyu, Yang Lanying. Experiments and simulations for continuous recovery of methane from coal seam gas (CSG) utilizing hydrate formation[J]. Energy, 2017, 129: 28-41.

4. Wang Yiwei, Deng Ye, Guo Xuqiang*, Sun Qiang, Liu Aixian, Chen Guangjin, Sun Changyu , Yang Lanying. The use of hydrate formation for the continuous recovery of ethylene and hydrogen from fluid catalytic cracking dry gas[J]. Separation and Purification Technology,2017, 187, 162–172. 

5. Wang Yiwei, Zhang Jiahui, Guo Xuqiang*, Chen Bo, Sun Qiang, Liu Aixian, Sun Changyu, Chen Guangjin, Yang Lanying. Experiments and modeling for recovery of hydrogen and ethylene from fluid catalytic cracking (FCC) dry gas utilizing hydrate formation[J]. Fuel, 2017, 209, 473–489.