黃鑫(重慶大學能源與環境研究所講師)

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黃鑫,男,重慶合川人,工學博士,講師,碩士生導師,現任重慶大學能源與環境研究所講師。

基本介紹

人物履歷,研究方向,科研項目,主要貢獻,學術成果,學術交流,

人物履歷

2016.10-2019.09 日本九州大學 量子過程理工 工學博士
2013.09-2016.06 中國礦業大學 化學工程與技術 工學碩士
2009.09-2013.06 中國礦業大學 化學工程與工藝 工學學士
2013年6月獲中國礦業大學化學工程與工藝學士學位,同年保送本校攻讀碩士學位,師從曹景沛教授,曾獲碩士研究生國家獎學金,優秀創新碩士,優秀碩士學位論文、優秀畢業生、校級優秀學生等榮譽稱號。
2016年10月由國家公派赴日本九州大學先導物質化學研究所所長林潤一郎教授課題組攻讀博士學位,2019年9月獲得量子過程理工專業工學博士學位。
2019年10月加入重慶大學能源與動力工程學院,主要從事煤與生物質催化熱解/低溫氣化以及綠色催化轉化生物基平台化合物等相關研究。

研究方向

低品位資源的熱化學轉化
− 快速熱解、催化熱解、熱解多聯產,生物油的表征,低溫氣化製備合成氣
綠色催化轉化生物基平台化合物
− 製備負載型金屬催化劑、固體酸性催化劑,分離生物質三組分,製備纖維素基平台化合物,解聚木質素

科研項目

國家自然科學基金青年項目,24萬,2021-2023,負責人
中國博士後面上項目,8萬,2020-2022,負責人
重慶市博士後科學基金,10萬,2020-2022,負責人

主要貢獻

在ACS Sustainable Chem. Eng.、Energy Convers. Manag.、Fuel、Fuel Process. Technol.、 J. Anal. Appl. Pyrolysis和Int. J. Hydrog. Energy等國際知名SCI能源期刊發表論文10餘篇,包括1篇ESI 1%工程領域高被引論文,參加國際學術會議多次並作口頭報告。擔任Energy Convers. Manag.和煤炭學報(英文版)審稿人。

學術成果

發表論文
1. X Huang, S Kudo, S Asano, J Hayashi. Improvement of Levoglucosenone Selectivity in Liquid Phase Conversion of Cellulose-Derived Anhydrosugar over Solid Acid Catalysts. Fuel Process. Technol., revised.
2. X Huang, T Liu, J Wang, F Wei, J Ran, S Kudo. Selective hydrogenation of levoglucosenone over Pd/C using formic acid as a hydrogen source. J Energy Inst,2020, doi.org/10.1016/j.joei.2020.08.
3. X Huang, S Kudo, , U.P.M. Ashik, H Einaga,J Hayashi, Selective Hydrodeoxygenation of γ-Valerolactone over Silica-supported Rh-based Bimetallic Catalysts. Energy Fuels, 2020, 34 (6), 7190-7197.
4. X Huang, K Yamasaki, S Kudo, J Sperry, J Hayashi. Influence of ionic liquid type on porous carbon formation during the ionothermal pyrolysis of cellulose. J. Anal. Appl. Pyrolysis, 2020, 145, 104728.
5. X Huang, S Kudo, J Sperry, J Hayashi. Clean Synthesis of 5-Hydroxymethylfurfural and Levulinic Acid by Aqueous Phase Conversion of Levoglucosenone over Solid Acid Catalysts. ACS Sustainable Chem. Eng., 2019, 7 (6), 5892–5899.
6. X Huang, S Kudo, J Hayashi. Two-step conversion of cellulose to levoglucosenone using updraft fixed bed pyrolyzer and catalytic reformer. Fuel Process. Technol.,2019, 191, 29-35.
7. X Huang, JP Cao, XY Zhao, JX Wang, X Fan, YP Zhao, XY Wei. Pyrolysis kinetics of soybean straw using thermogravimetric analysis. Fuel, 2016, 169, 93-98. [ESI工程領域1%高被引論文]
8. X. Huang, JP Cao, P Shi, XY Zhao, XB Feng, YP Zhao, X Fan, XY Wei, T Takarada. Influences of pyrolysis conditions in the production and chemical composition of the bio-oils from fast pyrolysis of sewage sludge. J. Anal. Appl. Pyrolysis, 2014, 110, 353-362.
9. 黃鑫, 曹景沛, 王敬賢, 趙小燕, 時鵬, 魏賢勇. 污水污泥快速熱解過程中氮遷移規律研究. 中國礦業大學學報, 2016, 45(1): 176-181. ( EI )
10. JP Cao, X Huang, XY Zhao, XY Wei, T Takarada. Nitrogen transformation during gasification of livestock compost over transition metal and Ca-based catalysts. Fuel, 2015, 140, 477-483.
11. JP Cao, X Huang, XY Zhao, BS Wang, S Meesuk, K Sato, XY Wei, T Takarada. Low-temperature catalytic gasification of sewage sludge-derived volatiles to produce clean H2-rich syngas over a nickel loaded on lignite char. Int. J. Hydrog. Energy, 2014, 39(17), 9193-9199.
12. FL Yang, JP Cao, XY Zhao, J Ren, W Tang, X Huang, XB Feng, M Zhao, X Cui, XY Wei. Acid washed lignite char supported bimetallic Ni-Co catalyst for low temperature catalytic reforming of corncob derived volatiles. Energy Convers. Manag., 2019, 196, 1257-1266.
13. JP Zhao, JP Cao, F Wei, XY Zhao, XB Feng, X Huang, M Zhao, XY Wei. Sulfation-acidified HZSM-5 catalyst for in-situ catalytic conversion of lignite pyrolysis volatiles to light aromatics. Fuel, 2019, 255, 115784.
14. JX Wang, JP Cao, XY Zhao, SN Liu, X Huang, TL Liu, XY Wei. Comprehensive research of in situ upgrading of sawdust fast pyrolysis vapors over HZSM-5 catalyst for producing renewable light aromatics. J Energy Inst, 2019.04.013 93 (1), 15-24

學術交流

1. X Huang. Production and conversion of a biorenewable platform chemical: levoglucosenone, The 7th Sino-Australian Symposium on Advanced Coal and Biomass Utilisation Technologies, Dec. 3- 6, 2019, Wuhan, China. Oral presentation.
2. X Huang, D Mitsuyama, S Kudo, J Hayashi. Fast Synthesis of Hydroxymethylfurfural from Levoglucosenone by mixing with Sulphuric Acid and Heating in A Microtube Reactor, The 18th Asian Pacific Confederation of Chemical Engineering Congress, paper accepted.
3. X Huang, S Kudo, J Hayashi. Production of Levoglucosenone by Catalytic Reforming of Volatiles from Fast Pyrolysis of Cellulose in an Updraft Fixed Bed Reactor. The 14 Japan-China Symposium on Coal and C1 Chemistry, Sep. 25-28, 2018, Hokkaido, Japan. Oral presentation.
4. X Huang, S Kudo, J Hayashi. Clean Synthesis of 5-Hydroxylmethylfurfural from cellulose-derived levoglucosenone. The 13th Japan-China-Korea Joint Symposium on Carbon Saves the Earth, Aug. 12-15, 2018, Ulanqab, China. Poster presentation.
5. 工藤 真二,光山 大貴,ファン シン,林 潤一郎.「希硫酸を用いたレボグルコセノンの低溫異性化」化學工學會第83回年會,大阪,2018年3月13~15日.
6. X Huang, S Kudo, J Hayashi. Clean Synthesis of 5-Hydroxylmethylfurfural and Levulinic Acid by Aqueous Phase Conversion of Levoglucosenone over Solid Acid Catalysts. Green Chemistry New Zealand 2017, Dec. 8-9, 2017, Auckland, New Zealand. Poster presentation.
7. 工藤 真二,ファン シン,林 潤一郎.「レボグルコセノンを原料とするHMFクリーン合成」化學工學會第49回秋季大會,名古屋,2017年9月20~25日.
8. X Huang, JP Cao, XY Zhao, XY Wei. Pyrolysis kinetics of soybean straw using thermogravimetric analysis. 2015 International Conference on Coal Science and Technology, Sep. 27–Oct. 1, 2015, Melbourne, Australia.
9. X Huang, JP Cao, XY Zhao, XY Wei. Optimum conditions to produce triacetonamine from fast pyrolysis of sewage sludge. Abstract of papers of the American chemical society. 1155 16TH ST, NW, Washington, DC 20036 USA: AMER CHEMICAL SOC, 2015, 249.
10. X Huang, JP Cao, JX Wang, XY Zhao, XY Wei. Effects of temperature and catalysts on bio-oil composition during fast pyrolysis of sewage sludge. The 13 Japan-China Symposium on Coal and C1 Chemistry, Aug. 31- Sep. 3, 2015, Dunhuang, China. Oral presentation.

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