1. Name

Jie Wang, Professor

2. Education

1995.4-1998.3, PhD, Discipline of Applied Chemistry, Tohoku University, Japan

1985.9-1988.7:  Master’s degree, Department of Chemical Engineering for Energy Resources, ECUST

1981.9-1985.7: Bachelor, Department of Chemical Engineering for Energy Resources, ECUST

3. Academic Experience

2006.4-present time: Professor, Department of Chemical Engineering for Energy Resources, ECUST

2003.4-2006.3: Researcher in Institute of Advanced Industrial Science and Technology (AIST), Japan

2001.4-2003.3: Assistant Professor in Institute of Multidisciplinary Research for Advanced Materials, Tohoku University.

1998.4-2001.3: Assistant Professor in Department of Chemical and Biochemical Engineering, Gunma University, Japan

1988.7-1994.4: Assistant Professor and lecturer in Department of Chemical Engineering for Energy, ECUST.

4. Non-academic Experience

None

5. Certifications or Professional Registrations

None

6. Current Membership in Professional Organizations

Member of Chinese Energy Institute

7. Honors and Awards

None

8. Service Activities

Editorial Board of the journal Chemical Engineering of Natural Gas (Chinese)

Active Reviewers for international journals Fuel, Energy Fuels, Fuel Processing Technology, Journal of Analytical and Applied Pyrolysis, etc.

9. Briefly list of the most important Publications and Presentations from the Past Five Years

1. Substantial upgrading of a high-ash lignite by hydrothermal treatment followed by Ca(OH)₂ digestion/acid leaching. Xueping Liu，Xuantao Wu, Jie Wang*，. Fuel 2018, 222: 269–277.

2. Intrinsic kinetics and external diffusion of catalytic gasification of fine coal particles under pressurized and fluidized conditions. Xuantao Wu, Jie Wang*. Frontier of Chemical Science and Engineering 2018: 1–12

3. Hydrothermal treatment of the blend of lignite and rapid hydrogasification char for preparing slurry fuels. Yanfang Wei, Jie Wang*，Fuel Processing Technology 2017, 161:311–320

4. K₂CO₃-catalyzed steam gasification of ash-free coal char in a pressurized and vertically blown reactor. Influence of pressure on gasification rate and gas composition. Xuantao Wu, Jie Wang*.Fuel Processing Technology2017, 159: 9–18.

5. Parametric study of two-stage hydropyrolysis of lignocellulosic biomass for production of gaseous and light hydrocarbons. Nan Zheng, Jie Zhang, Jie Wang∗. Bioresource Technology2017, 244: 142–150.

6. A new active site/intermediate kinetic model for K2CO3-catalyzed steam gasification of ash-free coal char. Xuantao Wu, Jia Tang, Jie Wang∗. Fuel2016, 165: 59–67.

7. Preparation of commercially applicable slurry fuels from rapid hydrogasification char by blending with coal. Yanfang Wei, Jie Wang∗. Fuel Processing Technology2016, 143: 18–26.

8. Catalytic steam gasification of coal char with alkali carbonates: A study on their synergic effects with calcium hydroxide. Jia Tang Jie Wang∗. Fuel Processing Technology2016, 142: 34–41.

9. Multifaceted effects of HZSM-5 (Proton-exchanged Zeolite Socony Mobil-5) on catalytic cracking of pinewood pyrolysis vapor in a two-stage fixed bed reactor. Yimeng Wang, Jie Wang∗. Bioresource Technology2016, 214: 700–710.

10. Two-stage hydrogasification of different rank coals with a focus on relationships between yields of products and coal properties or structures. Jie Zhang, Nan Zheng, Jie Wang∗. Applied Energy2016, 173: 438–447.

11. Formation behaviors of gas an liquid products during two-stage hydrogasification of low-rank coal. Jie Zhang, Xuantao Wu, Yangyang Qian, Jie Wang∗. Fuel2015, 150: 217–225.

12. Kinetic study of steam gasification of two mineralogically different lignite chars: An active site/intermediate model. Jia Tang, Xuantao Wu, Jie Wang∗. Fuel2015, 141: 46–55.

13. Enhanced slurryability and rheological behaviors of two low-rank coals by thermal and hydrothermal treatment. Jianmin Fu, Jie Wang∗. Powder Technology 2014, 266: 183–190.

14. XANES spectroscopic study of sulfur transformations during co-pyrolysis of a calcium-rich lignite and a high-sulfur bituminous coal. Lijuan Liu, Jinxia Fei, Mingqi Cui, Yongfeng Hu, Jie Wang∗. Fuel Processing Technology 2014, 121: 56–62.

15. Pressurized pyrolysis of rice husk in an inert gas sweeping fixed bed reactor with a focus on bio-oil deoxygenation.Yangyang Qian, Jie Zhang, Jie Wang∗. Bioresource Technology 2014, 174: 95–102.

16. A comparative investigation into the formation behaviors of char, liquid and gases during pyrolysis of pinewood and lignocellulosic components. Xinhua, Shi, Jie Wang∗. Bioresource Technology 2014, 170: 262–269.

17. Investigation of hydrogasification of low-rank coals to produce methane and liquid aromatics in a fixed-bed reactor. Jie Zhang, Jingjun Wang, Fuchen Wang, Jie Wang∗. Fuel Processing Technology 2014, 127: 124–130.

10. Briefly list the most recent professional development activities

Research project 1: Study on Gasification Reactivity of Coal Liquefaction Residue (A part of the National Key Research Project, 2017.9-2020.8), in progress.

Research project: Study on Chemical Processes of Pressurized Catalytic Gasification of Low-rank Coal for production of Methane (National Natural Science of Foundation, 2013.1-2017.12), finished.

Research project: Study on Coal Gasification Reactivity and Slurryability (A part of “863” Research Project of China, 2012.1-2016.12), finished.