奥门银河误乐城4936

化工系
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黄毅,博士,讲师

地址:湖北省武汉市虎泉街366号,武汉工程大学(武昌校区)

邮编:430073

E-mail:466950825@qq.com; huangyi@wit.edu.cn

电话/传真:18734907113

奥门银河误乐城4936:

教育背景

2014.09–2020.12,太原理工大学化学工程与技术博士

2009.09–2013.06,辽宁科技大学化学工程与工艺学士

奥门银河误乐城4936:

工作履历

2021.06至今,武汉工程大学,讲师

2013.07-2014.08,日照钢铁控股集团有限公司合金实验室

奥门银河误乐城4936:

研究领域

1.能源化工与系统工程

2.低质烃/氢气/二氧化碳分离纯化功能材料

3.化工新产品/工艺开发

奥门银河误乐城4936:

学术成果

代表性论文:

[1] Huang, Yi; Yi, Qun*; Kang, Jing-Xian; Zhang, Ya-Gang; Li, Wen-Ying*; Feng, Jie; Xie, Ke-Chang. Investigation and optimization analysis on deployment of China coal chemical industry under carbon emission constraints. Applied Energy. 2019, 254, 113684. (SCI, Q1, IF= 9.75)

[2] Huang, Yi; Yi, Qun*; Wei, Guo-qiang; Kang, Jing-xian; Li, Wen-ying*; Feng, Jie; Xie, Ke-chang. Energy use, greenhouse gases emission and cost effectiveness of an integrated high- and low-temperature Fisher-Tropsch synthesis plant from a lifecycle viewpoint. Applied Energy. 2018, 228,1009-1019. (SCI, Q1, IF= 9.75)

[3] Huang, Yi; Chu, Qi; Yi, Qun*; Li, Wen-ying*; Xie, Ke-chang; Sun, Qi-wen; Feng, Jie. Feasibility analysis of high-low temperature Fischer-Tropsch synthesis integration in olefin production. Chemical Engineering Research & Design. 2018,131,92-103. (SCI, Q2, IF=3.74)

[4] Huang, Yi; Li, Wen-ying*; Wu, Guo-sheng; Feng, Jie; Yi, Qun*. Comparative analysis of typical low rank coal pyrolysis technology based on a nonlinear programming model. Energy & Fuels. 2017, 31(11), 12977-12987. (SCI, Q1, IF=3.61)

[5] Huang, Yi; Zhao, Ying-jie; Hao, Yan-hong; Wei, Guo-qiang; Feng, Jie; Li, Wen-ying*; Yi, Qun*; Mohamed, Usama; Pourkashanian, Mohamed; Nimmo, William.A feasibility analysis of distributed power plants from agricultural residues resources gasification in rural China. Biomass & Bioenergy. 2019,121,1-12. (SCI, Q2, IF=5.06)

[6] Huang Yi, Li Wen-Ying*, Feng Jie, Liang Chang-Hai, Huang Peng, Li Guo-Zhu, Qiang Xie. Co-production of naphthenic oil and phenolic compounds from medium and low-temperature coal tar. Industrial & Engineering Chemistry Research,2021, 60, 16, 5890–5902 (SCI, Q2, IF= 3.72)

[7] Mohamed U, Zhao Y, Huang Y, Cui Y, Shi L, Li C, Pourkashanian M, Wei G, Yi Q*, Nimmo W*. Sustainability evaluation of biomass direct gasification using chemical looping technology for power generation with and w/o CO2capture. Energy. 2020;205.(SCI, Q1, IF=7.15)

[8] Gong M-h, Yi Q*, Huang Y, Wu G-s, Hao Y-h, Feng J, Li W-y*. Coke oven gas to methanol process integrated with CO2recycle for high energy efficiency, economic benefits and low emissions. Energy Conversion and Management. 2017;133:318-331. (SCI, Q1, IF= 9.71)

[9] Yi Q*, Gong M-H, Huang Y, Feng J, Hao Y-H, Zhang J-L, Li W-Y*. Process development of coke oven gas to methanol integrated with CO2recycle for satisfactory techno-economic performance. Energy. 2016;112:618-628. (SCI, Q1, IF= 7.15)

[10] Yi Q*, Wu G-s, Gong M-h, Huang Y, Feng J, Hao Y-h, Li W-y*. A feasibility study for CO2recycle assistance with coke oven gas to synthetic natural gas. Applied Energy. 2017;193:149-161. (SCI, Q1, IF= 9.75)

[11] Yi Q, Zhao Y, Huang Y, Wei G, Hao Y, Feng J, Mohamed U, Pourkashanian M, Nimmo W, Li W*. Life cycle energy-economic-CO2emissions evaluation of biomass/coal, with and without CO2capture and storage, in a pulverized fuel combustion power plant in the United Kingdom. Applied Energy. 2018;225:258-272. (SCI, Q1, IF= 9.75)

[12] Li Z, Yi Q*, Zhang Y, Zhou H, Zhao Y, Huang Y, Gao D, Hao Y*. Numerical study and design strategy for a low emission coke oven system using oxy-fuel combustion of coke oven gas. Journal of Cleaner Production. 2020;252. (SCI, Q1, IF=9.30)

[13] Hao Y, Huang Y, Gong M, Li W*, Feng J, Yi Q*. A polygeneration from a dual-gas partial catalytic oxidation coupling with an oxygen-permeable membrane reactor. Energy Conversion and Management. 2015;106:466-478. (SCI, Q1, IF= 9.71)

[14] Huang, Yi; Chu, Qi; Yi*, Qun; Feng, Jie; Li, Wen-ying*; Xie, Ke-chang; Sun, Qi-wen. Process systems engineering of high-low temperature Fischer Tropsch synthesis integration in olefin production. Energy Procedia, 9th International Conference on Applied Energy (ICAE).21-24 August 2017, Cardiff, UK. 2017,142, 3049-3054.

[15] Huang, Yi; Yi, Qun*; Kang, Jing-xian; Wu, Guo-sheng; Feng, Jie; Xie, Ke-chang; Li, Wen-ying*. A nonlinear programming approach to the strategic planning of coal chemical industry with carbon constraints in China. Energy Procedia, Applied Energy Symposium and Forum-Low-Carbon Cities and Urban Energy Systems (CUE).5–7 June 2018, Shanghai, China. 2018,152,1236-1241.

[16] Huang, Yi; Yi, Qun; Gong, Minhui; Wu, Guosheng; Li, Wenying. NLP/MINLP for modeling and optimization of lignite pyrolysis process. 33rd Annual International Pittsburgh Coal Conference: Coal-Energy, Environment and Sustainable. 2016 International Pittsburgh Coal Conference, August 8-12. Cape Town, South Africa.

[17] Huang, Yi; Wang, Wei; Kang, Jingxian; Yi, Qun*; Li, Wenying*; Feng, Jie. Extractive distillation approach for separation phenolic compounds from phenol oil fraction in medium-low temperature coal tar. National Meeting of the American-Chemical-Society (ACS), MAR 31-APR 04, 2019. Orlando, USA.

[18] Huang, Yi; Li Wen-ying*, Feng, Jie. Naphthenic Oil and Phenolic Compounds Production Integrated in a Medium- Low- Temperature Coal Tar Refinery System. 2020 International Pittsburgh Coal Conference September 8 – 11, 2020. Pittsburgh, USA.

专利:

ZL201711269070.7;CN202011412547.4.

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