Jingxian Wang（Lecturer）

  Name：

Jingxian Wang

Academic Title：

Lecturer

Advisor Type：

Master Supervisor

  Department：

State Key Laboratory of Heavy Oil

Research Interests：

Biomass high value utilization

  E-Mail：

wjxzhg@upc.edu.cn;wjxzhg@126.com

  Telephone：

(+86) 18051353151

◎Educational Background

2010-2014, School of Chemical Engineering, China University of Mining and Technology, Bachelor of Engineering

2014-2017, School of Chemical Engineering, China University of Mining and Technology, Master of Engineering

2017-2021, Interdisciplinary Graduate School of Engineering Sciences, Kyushu University, Japan, PhD of Engineering

◎Work Experience

2021-present, Lecturer, State Key Laboratory of Heavy Oil, School of Chemistry and Chemical Engineering, China University of Petroleum (East China)

◎Research Direction

[1] Green separation and high value utilization of biomass components (Hydrothermal treatment, Alkaline oxidation treatment, Lignin depolymerization, etc.)

[2] Catalytic thermal conversion of biomass for chemicals (Fast pyrolysis, Catalytic fast pyrolysis for light aromatics, etc.)

[3] Bifunctional hierarchical catalyst development (Metal-loaded catalyst, Zeolite modification, etc.)

[4] Solid waste resource utilization (Pyrolysis gasification, Resource utilization of waste plastics, etc.)

◎Research Project

None

◎Representative Papers and Patents

1. Paper

[1] J.X. Wang, J.P. Cao, X.Y. Zhao, et al. Enhancement of light aromatics from catalytic fast pyrolysis of cellulose over bifunctional hierarchical HZSM-5 modified by hydrogen fluoride and nickel/hydrogen fluoride. Bioresource Technology, 278 (2019) 116-123. ( IF=7.539， highly cited paper in ESI)

[2] J.X. Wang, J.P. Cao, X.Y. Zhao, et al. In situ upgrading of cellulose pyrolysis volatiles using hydrofluorinated and platinumloaded HZSM-5 for high selectivity production of light aromatics. Industrial & Engineering Chemistry Research, 58 (2019) 22193-22201. (IF=3.573，journal cover paper)

[3] J.X. Wang, J.P. Cao, X.Y. Zhao, et al. Comprehensive research of in situ upgrading of sawdust fast pyrolysis vapors over HZSM-5 catalyst for producing renewable light aromatics. Journal of the Energy Institute, 93 (2020) 15-24. (IF=4.748)

[4] J.X. Wang, J.P. Cao, X.Y. Zhao, et al. Study on pine sawdust pyrolysis behavior by fast pyrolysis under inert and reductive atmospheres. Journal of Analytical and Applied Pyrolysis, 125 (2017) 279-288. (IF=3.905)

[5] J.X. Wang, J.i. Hayashi, S. Asano, S. Kudo. Analysis of primary reactions in biomass oxidation with O2 in hot compressed alkaline water. ACS Omega 6 (2021), 4236–4246. (IF=2.87)

[6] J.X. Wang, S. Asano, S. Kudo, J.i. Hayashi. Deep delignification of woody biomass by repeated mild alkaline treatments with pressurized O2. ACS Omega 5 (2020), 29168-29176. (IF=2.87)

◎Representative Works

None

◎Awards and Honors

None

◎Courses Offered

None

◎Student Training

1. Supervise Postgraduate Students

Assist in supervising 3 postgraduates

2. Typical student：

None

3. Admissions Instructions：

Recruit academic and professional degree master students in chemical process and chemical engineering.

Postgraduate training direction: High value utilization of biomass, Waste resource utilization, Catalyst development, Coal chemical industry.

◎Part-time Academic Job

None