劉鵬
聯系方式:
研究方向:
有機固體廢棄物的熱化學轉化、生物炭材料的綜合利用、污染物控制、土壤修復
教育經歷:
2007-2011,學士,安徽建筑工業(yè)學院(現名安徽建筑大學)化學工程與工藝
2011-2013,碩士,華東理工大學,化學工藝
2013-2016,博士,華東理工大學,熱能工程(能源化工方向)
工作經歷:
2016-2017,北京低碳清潔能源研究院,工程師,從事工藝設計、設備開發(fā)、工程放大
2018至今,常州大學城鄉(xiāng)礦山研究院聘為副研究員,從事于固體廢棄物的資源化與能源化相關技術研發(fā)
科研項目經歷:
(1)國家自然科學基金,51906021,煉鋁廢渣與木質廢棄物協同熱解氣化制氫的過程調控機制研究,2020/01-2022/12,主持,在研
(2)國家重點研發(fā)專項合作課題,2018YFC1901203-04,高溫熱解氣多組分與新型催化劑床層的協同作用機制研究,2018/12-2022/12,主持,在研
(3)江蘇省產學研合作項目,BY2018024,有機固廢的資源化與能源化利用,2018/01-2019/12,主持,在研
(4)江蘇省高等學校自然科學基金,19KJB480005,煉鋁廢渣與木質廢棄物協同熱解機制與制氫過程調控研究,2019/09-2021/08,主持,在研
(5)常州市應用基礎研究計劃,CJ20190081,木質廢棄物與煉鋁廢渣協同制備高效安全吸附材料技術的基礎研究,2019/05-2021/05,主持,在研
(6)江蘇省生物質能源與材料重點實驗室開放基金,JSBEM202004,煉鋁廢渣改性生物炭催化焦油重整制氫技術,2020/01-2022/12,主持,在研
發(fā)表論文情況:
[1] Liu P, Wang Y, Zhou Z, Yuan H, Zheng T. Effect of anaerobic pretreatment on vinegar residue for enhancement of energy gas and phenols derived from pyrolysis. Asia-Pacific Journal of Chemical Engineering 2019, 14(5),e2342
[2] Liu P, Zhang DX, Wang LL, Zhou Y, Pan TY, Lu XL. The structure and pyrolysis product distribution of lignite from different sedimentary environment. Applied Energy 2016, 163: 254-262
[3] Liu P, Le JW, Wang LL, Zhou Y, Pan TY, Lu XL, Zhang DX*. Relevance of carbon structure to the yield and aliphatic component of tar derived from coal pyrolysis. Applied Energy 2016,183:470-477
[4] Liu P, Wang LL, Zhou Y, Pan TY, Lu XL, Zhang DX. Effect of hydrothermal treatment on the structure and pyrolysis product distribution of Xiaolongtan lignite. Fuel 2016, 164: 110-118
[5]Liu P, Le J, Zhang DX, Wang S, Pan TY. Free radical reaction mechanism on improving tar yield and quality derived from lignite after hydrothermal treatment. Fuel 2017, 207, 244-252
[6] Liu P, Zhang DX*, Yang X, Cheng BW. An integrated method for preparing low quinoline insoluble modified pitch. The Canadian Journal of Chemical Engineering 2015, 93:1448–1454
[7] Liu P, Zhang DX*, Yang X. Effect of Light Component on the Regulation of Quinoline Insolubility in Pitch during Thermal Treatment. Asia-Pacific Journal of Chemical Engineering 2016. 11(4): 603-610