基本信息
姓 名:王佳
职 称:副教授
电 话:18052091286
电子信箱:wangjia@njfu.edu.cn
研究领域
有机固废热化学转化
教育背景
2019.3 获东南大学博士学位,专业:动力工程及工程热物理
2017.9-2018.10 美国田纳西大学化学工程学院,联培
2014.4 获华北电力大学硕士学位,专业:热能动力工程
2011.6 获华中科技大学学士学位,专业:热能动力工程
科研经历
以第一/通讯作者于Appl. Catal., B, Chem. Eng. J., Environ Sci Technol. Appl Energy等期刊发表学术论文50余篇,主持国家自然科学基金青年基金、江苏省自然科学基金青年基金、国家重点研发计划项目子课题、第二批中国博士后特别资助站前项目等6项。
1.主持项目
[1] 纤维素与富氢固废共热解耦合气态加氢机理及调控机制2021.01-2023.12 国家基金委/青年基金 24万元 主持
[2] 皂脚加压水解制备低含硫量酸化油工艺技术研究 2019.12-2022.11 科技部/重点研发子课题 50万元 主持
[3] 纤维素与聚乙烯共热解耦合气态加氢机理研究 2020.07-2023.06 江苏省科技厅/青年基金 20万元 主持
[4] 生物质与富氢固废共热解耦合气态加氢机理及调控机制2020.08-2022.07 中国博士后基金会/站前特别资助 18万元 主持
2.学术成果(代表性论文)
[1] J. Wang, J. Jiang, X. Wang, S. Liu, X. Shen, X. Cao, Y. Sun, L. Dong, X. Meng, A.J. Ragauskas, Y. Wang, Polyethylene upcycling to fuels: Narrowing the carbon number distribution in n-alkanes by tandem hydropyrolysis/hydrocracking, Chem. Eng. J., 444 (2022).
[2] J. Wang, J. Jiang, Y. Sun, X. Meng, X. Wang, R. Ruan, A.J. Ragauskas, D.C.W. Tsang, Heterogeneous Diels-Alder tandem catalysis for converting cellulose and polyethylene into BTX, J. Hazard. Mater., 414 (2021) 125418.
[3] J. Wang, J. Jiang, Y. Sun, X. Wang, M. Li, S. Pang, R. Ruan, A.J. Ragauskas, Y.S. Ok, D.C.W. Tsang, Catalytic degradation of waste rubbers and plastics over zeolites to produce aromatic hydrocarbons, J Clean Prod., 309 (2021).
[4] J. Wang, J. Jiang, J. Ding, X. Wang, Y. Sun, R. Ruan, A.J. Ragauskas, Y.S. Ok, D.C.W. Tsang, Promoting Diels-Alder reactions to produce bio-BTX: Co-aromatization of textile waste and plastic waste over USY zeolite, J Clean Prod., 314 (2021).
[5] J. Wang, J. Jiang, X. Wang, R. Wang, K. Wang, S. Pang, Z. Zhong, Y. Sun, R. Ruan, A.J. Ragauskas, Converting polycarbonate and polystyrene plastic wastes intoaromatic hydrocarbons via catalytic fast co-pyrolysis, J. Hazard. Mater., 386 (2020) 121970.
[6] J. Wang, J. Jiang, X. Wang, S. Pang, Y. Sun, X. Meng, M. Li, R. Ruan, A.J. Ragauskas, Enhanced BTEX formation via catalytic fast pyrolysis of styrene-butadiene rubber: Comparison of different catalysts, Fuel, 278 (2020).
[7] J. Wang, J. Jiang, X. Meng, M. Li, X. Wang, S. Pang, K. Wang, Y. Sun, Z. Zhong, R. Ruan, A.J. Ragauskas, Promoting Aromatic Hydrocarbon Formation via Catalytic Pyrolysis of Polycarbonate Wastes over Fe- and Ce-Loaded Aluminum Oxide Catalysts, Environ Sci Technol, 54 (2020) 8390-8400.
[8] J. Wang, J. Jiang, X. Wang, P. Liu, J. Li, G. Liu, K. Wang, M. Li, Z. Zhong, J. Xu, A.J. Ragauskas, Catalytic conversion of rubber wastes to produce aromatic hydrocarbons over USY zeolites: Effect of SiO2/Al2O3 mole ratio, Energy Convers. Manage., 197 (2019).
[9] J. Wang, J. Jiang, Z. Zhong, K. Wang, X. Wang, B. Zhang, R. Ruan, M. Li, A.J. Ragauskas, Catalytic fast co-pyrolysis of bamboo sawdust and waste plastics for enhanced aromatic hydrocarbons production using synthesized CeO2/γ-Al2O3 and HZSM-5, Energy Convers. Manage., 196 (2019) 759-767.
[10] J. Wang, J. Jiang, Y. Sun, Z. Zhong, X. Wang, H. Xia, G. Liu, S. Pang, K. Wang, M. Li, J. Xu, R. Ruan, A.J. Ragauskas, Recycling benzene and ethylbenzene from in-situ catalytic fast pyrolysis of plastic wastes, Energy Convers. Manage., 200 (2019).
[11] J. Wang, Z. Zhong, K. Ding, A. Deng, N. Hao, X. Meng, H. Ben, R. Ruan, A.J. Ragauskas, Catalytic fast pyrolysis of bamboo sawdust via a two-step bench scale bubbling fluidized bed/fixed bed reactor: Study on synergistic effect of alkali metal oxides and HZSM-5, Energy Convers. Manage., 176 (2018) 287-298.
[12] J. Wang, C. Xu, Z. Zhong, A. Deng, N. Hao, M. Li, X. Meng, A.J. Ragauskas, Catalytic Conversion of Bamboo Sawdust over ZrO2–CeO2/γ-Al2O3 to Produce Ketonic Hydrocarbon Precursors and Furans, ACS Sustainable Chemistry & Engineering, 6 (2018) 13797-13806.
[13] J. Wang, Z. Zhong, B. Zhang, K. Ding, Z. Xue, A. Deng, R. Ruan, Upgraded bio-oil production via catalytic fast co-pyrolysis of waste cooking oil and tea residual, Waste Manag, 60 (2017) 357-362.
[14] J. Wang, B. Zhang, Z. Zhong, K. Ding, A. Deng, M. Min, P. Chen, R. Ruan, Catalytic fast co-pyrolysis of bamboo residual and waste lubricating oil over an ex-situ dual catalytic beds of MgO and HZSM-5: Analytical PY-GC/MS study, Energy Convers. Manage., 139 (2017) 222-231.
[15] J. Wang, Z. Zhong, K. Ding, B. Zhang, A. Deng, M. Min, P. Chen, R. Ruan, Co-pyrolysis of bamboo residual with waste tire over dual catalytic stage of CaO and co-modified HZSM-5, Energy, 133 (2017) 90-98.
[16] J. Wang, Z. Zhong, K. Ding, B. Zhang, A. Deng, M. Min, P. Chen, R. Ruan, Successive desilication and dealumination of HZSM-5 in catalytic conversion of waste cooking oil to produce aromatics, Energy Convers. Manage., 147 (2017) 100-107.
[17] J. Wang, Z. Zhong, K. Ding, Z. Xue, Catalytic fast pyrolysis of mushroom waste to upgraded bio-oil products via pre-coked modified HZSM-5 catalyst, Bioresour Technol, 212 (2016) 6-10.
[18] J. Wang, Z. Zhong, Z. Song, K. Ding, A. Deng, Modification and regeneration of HZSM-5 catalyst in microwave assisted catalytic fast pyrolysis of mushroom waste, Energy Convers. Manage., 123 (2016) 29-34.
[19] J. Wang, B. Zhang, Z. Zhong, K. Ding, Q. Xie, R. Ruan, Catalytic fast co-pyrolysis of mushroom waste and waste oil to promote the formation of aromatics, Clean Technol Environ Policy., 18 (2016) 2701-2708.
[20] J. Wang, Z. Zhong, K. Ding, M. Li, N. Hao, X. Meng, R. Ruan, A.J. Ragauskas, Catalytic fast co-pyrolysis of bamboo sawdust and waste tire using a tandem reactor with cascade bubbling fluidized bed and fixed bed system, Energy Convers. Manage., 180 (2019) 60-71.
[21] K. Ding, Z. Zhong, J. Wang, B. Zhang, L. Fan, S. Liu, Y. Wang, Y. Liu, D. Zhong, P. Chen, R. Ruan, Improving hydrocarbon yield from catalytic fast co-pyrolysis of hemicellulose and plastic in the dual-catalyst bed of CaO and HZSM-5, Bioresour Technol, 261 (2018) 86-92.
[22] K. Ding, Z. Zhong, J. Wang, B. Zhang, M. Addy, R. Ruan, Effects of alkali-treated hierarchical HZSM-5 zeolites on the production of aromatic hydrocarbons from catalytic fast pyrolysis of waste cardboard, J. Anal. Appl. Pyrolysis, 125 (2017) 153-161.
[23] X. Ye, J. Wang, C. Li, Performance and emission reduction potential of renewable energy aided coal-fired power generation systems, Energy, 113 (2016) 966-979.
[24] A.J. Ragauskas, G.W. Huber, J. Wang, A. Guss, H.M. O'Neill, C.S.K. Lin, Y. Wang, F.R. Wurm, X. Meng, New Technologies are Needed to Improve the Recycling and Upcycling of Waste Plastics, ChemSusChem, 14 (2021) 3982-3984. (Guest Editor)
