刘荣厚 长聘教授,二级教授,博导,主任 电话:021-34205744(办) Email: liurhou@sjtu.edu.cn 地址:上海市闵行区东川路800号 新葡的京集团35222vip生物质能工程研究中心 邮编:200240 |
研究方向:
1.生物质能工程 2.能源/生态环境综合系统的研究
招生专业:
博士生招生:新葡的京集团35222vip 生态学博士点
硕士生招生:新葡的京集团35222vip 生态学硕士点
刘荣厚,男,博士,现任新葡的京集团35222vip资源与环境系长聘教授、二级教授,博士生导师,新葡的京集团35222vip生物质能工程研究中心主任,生物质能工程研究组PI组长,学科带头人。曾任国务院学位委员会第五届学科评议组成员,现兼任教育部高等学校教学指导委员会(农业工程)副主任委员(2013-2017,2018-2022)。2008年度美国康奈尔大学唐氏基金获得者,荣获2020年新葡的京集团35222vip“教书育人奖”(个人奖)二等奖,2021年上海市育才奖,爱思唯尔2020年中国高被引学者,入选全球学者库发布的全球顶尖前10万科学家榜单,入选全球前2%顶尖科学家榜单。自1984年参加工作以来,一直从事可再生能源工程与环境保护方面的教学、科研与培训工作。
兼任5个国家级学会理事,包括:中国沼气学会理事,中国可再生能源学会理事(2004-2017,中国可再生能源学会生物质能专委会常务委员2004-今),中国生物质能技术中心理事,中国农业工程学会理事,中国农业机械学会理事;兼任生物质能源产业技术创新战略联盟理事,农业农村部农业废弃物能源化利用重点实验室学术委员会委员(2012-2015);担当4个SCI期刊编委:Fuel Processing Technology(SCI,中科院二区),International Journal of Agricultural and Biological Engineering(SCI,中科院二区),Frontiers in Energy Research(SCI,副主编),Energies(SCI);5个EI期刊编委:International Journal of Global Energy Issues(英文EI),International Journal of Alternative Propulsion(英文EI),农业工程学报(中文EI),太阳能学报(中文EI),农业机械学报(中文EI)等职务。
1995年赴日本筑波国际研修中心研修9个月,1997年至1999年在中国科学技术大学动力工程及工程热物理学科做博士后研究,2000年至2001年赴英国阿斯顿大学生物质能研究室工作一年,2002年赴日本广岛大学做客座教授3个月,2007年赴瑞士洛桑联邦理工学院合作研究3个月,2012年赴美国康奈尔大学合作研究3个月,2014年赴英国阿斯顿大学合作研究3个月,2015年赴芬兰阿尔托大学合作研究3个月。并多次访问美国、英国、日本、瑞士、荷兰、法国、丹麦、芬兰、瑞典、意大利、德国、希腊、巴西、加拿大、韩国、泰国等国进行学术交流。
在科研方面,主持及参加科研课题30余项,获得多项奖励。主编著作及教材9部,发表期刊论文240余篇,其中,在生物质能源工程领域顶尖期刊:Progress in Energy and Combustion Science, Renewable and Sustainable Energy Reviews,Bioresource Technology,Energy, Fuel,Renewable Energy,Fuel Processing Technology,Biomass and Bioenergy, International Journal of Hydrogen Energy等发表SCI收录论文135余篇,发表EI收录论文55余篇,发表中文核心期刊论文50余篇。H指数37。以第一发明人获中国国家发明专利授权26项。被农业农村部聘为全国农村能源综合建设专家,入选省级百千万人才工程百人层次,先后获得省级优秀青年骨干教师,第七届中国农学会青年科技奖,省级农村能源综合建设先进工作者等荣誉。目前,主要从事生物质能工程与环境保护方面的研究,包括:生物质热裂解制取生物油技术、沼气技术、燃料乙醇技术、生物炭技术、农业生物质特性分析、能源系统等方面的研究。
承担的主要科研课题:
(1)国家重点研发计划政府间国际科技创新合作重点专项,鸡粪/作物秸秆/餐厨垃圾厌氧发酵产氢产甲烷耦合原位沼气提纯机理及强化技术研究,主持。
(2)国家自然科学基金面上项目,生物质非原位催化快速热解制取高芳香烃及烯烃含量生物油的机理研究,主持。
(3)国家自然科学基金面上项目,禽畜粪便厌氧消化制取沼气致毒及脱毒机理研究,主持。
(4)国家自然科学基金面上项目,物理法改善生物质快速热裂解生物油品质的机理研究,主持。
(5)国家自然科学基金面上项目,基于热裂解温度分布的生物质热裂解反应动力学研究,主持。
(6)国家自然科学基金面上项目,生物质快速热裂解主要参数对生物油产量及特性的影响,主持。
(7)“十二五”国家科技支撑计划课题,生物质热裂解制取生物燃油成套化设备研制与千吨级示范,主持。
(8)国家863计划项目,基于改善生物油品质的生物质快速热裂解液化关键技术的研究,主持。
(9)公益性行业(农业)科研专项课题,华东区农业生物质特性研究,主持。
(10)国家科技部“十二五”农村领域国家科技计划子课题,生物炭改良土壤技术研究,主持。
(11)欧盟第五框架项目子课题,生物酒精在中国农业及中小型企业交通运输中的应用-甜高粱制取乙醇案例研究,主持。
(12)欧盟第七框架项目,欧-中生物质热裂解制取液体燃料合作(EU-China Cooperation for Liquid Fuels from Biomass Pyrolysis),新葡的京集团35222vip子课题主持。
代表性论著:
[1] 刘荣厚.《新能源工程》(全国高等农业院校教材)[M].北京:中国农业出版社,2006年10月,字数:64.3万字。主编。
[2] 刘荣厚.《可再生能源工程》(普通高等教育“十二五”规划教材)[M].北京:科学出版社,2016年1月,48.6万字。主编。
[3] 刘荣厚.《生物质能工程》(高等学校教材)[M]. 北京:化学工业出版社,2009年9月,44.7万字。主编。
[4] 刘荣厚,沈飞,曹卫星 著. 《生物质生物转换技术》[M].上海:新葡的京集团35222vip出版社,2015年12月,字数:43.3万字。专著。
[5] 刘荣厚,牛卫生,张大雷.《生物质热化学转换技术》[M].北京:化学工业出版社,2005年7月,字数:29.4万字。著作。
[6] 刘荣厚,梅晓岩,颜涌捷.《燃料乙醇的制取工艺与实例》[M].北京:化学工业出版社,2007年12月,字数:49.5万字。主编,著作。
代表性论文:(* 为通讯作者,以下论文刘荣厚均为通讯作者)
[1] Ronghou Liu ∗, Manobendro Sarker , Md. Maksudur Rahman , Chong Li , Meiyun Chai , Nishu, Raphaëlle Cotillon, Norman R. Scott .Multi-scale complexities of solid acid catalysts in the catalytic fast pyrolysis of biomass for bio-oil production –A review[J]. Progress in Energy and Combustion Science, 80(2020)100852.(SCI,影响因子29.394, Q1区).
[2]Yifeng He, Yingnan Zhao, Meiyun Chai, Zhongyue Zhou, Manobendro Sarker, Chong Li, Ronghou Liu*, Junmeng Cai, Xinghua Liu. Comparative study of fast pyrolysis, hydropyrolysis and catalytic hydropyrolysis of poplar sawdust and rice husk in a modified Py-GC/MS microreactor system: Insights into product distribution, quantum description and reaction mechanism[J]. Renewable and Sustainable Energy Reviews, 119 (2020) 109604. (SCI, 影响因子14.982, Q1区).
[3] Qiong Yu, Ronghou Liu*, Kun Li, Ruijie Ma. A review of crop straw pretreatment methods for biogas production by anaerobic digestion in China[J]. Renewable and Sustainable Energy Reviews, 2019, 107:51-58. (SCI, 影响因子14.982,Q1区,高被引论文).
[4] Kun Li, Ronghou Liu*.A Review of Methane Production from Agricultural Residues in China[J].Renewable and Sustainable Energy Reviews, 54(2016) 857-865.(SCI, 影响因子14.982,Q1区).
[5] Qiong Yu, Chen Sun, Ronghou Liu* , Dominic Yellezuome, Xianpu Zhu , Ruifeng Bai, Mingquan Liu, Mengzeng Sun.Anaerobic co-digestion of corn stover and chicken manure using continuous stirred tank reactor: The effect of biochar addition and urea pretreatment[J]. Bioresource Technology Volume 319, January 2021, 124197.(SCI,影响因子9.642,Q1区,高被引论文).
[6] Nishu, Ronghou Liu*, Md. Maksudur Rahman, Manobendro Sarker, Meiyun Chai, Chong Li,Junmeng Cai. A review on the catalytic pyrolysis of biomass for the bio-oil production with ZSM-5: Focus on structure[J]. Fuel Processing Technology, 199(2020)106301.(SCI,影响因子7.033,Q1区).
[7] Chong Li, Amirul Rajib, Manobendro Sarker, Ronghou Liu*, Elham H. Fini* and Junmeng Cai. Balancing the Aromatic and Ketone Content of Bio-oils as Rejuvenators to Enhance Their Efficacy in Restoring Properties of Aged Bitumen[J].ACS Sustainable Chemistry & Engineering, 2021, 9, 6912−6922.(SCI,影响因子 8.198,Q1区).
[8] Nishu, Ronghou Liu*,Md. Maksudur Rahman, Chong Li, Meiyun Chai,Manobendro Sarker, Yichen Wang, Junmeng Cai.Catalytic pyrolysis of microcrystalline cellulose extracted from rice straw for high yield of hydrocarbon over alkali modified ZSM-5[J]. Fuel,285(2021)119038.(SCI,影响因子6.609,Q1区).
[9] Nishu, Chong Li, Meiyun Chai, Md. Maksudur Rahman, Yingkai Li, Manobendro Sarker, Ronghou Liu*. Performance of alkali and Ni-modified ZSM-5 during catalytic pyrolysis of extracted hemicellulose from rice straw for the production[J]. Renewable Energy, 175 (2021) 936e951.(SCI,影响因子 8.001,Q1区).
[10] Meiyun Chai, RonghouLiu*, YifengHe. Effects of SiO2/Al2O3 ratio and Fe loading rate of Fe-modified ZSM-5 on selection of aromatics and kinetics of corn stalk catalytic pyrolysis[J]. Fuel Processing Technology, Volume 206, September 2020, 106458. (SCI,影响因子7.033,Q1区).
[11] Yifeng He, Yuwei Bie, Juha Lehtonen, Ronghou Liu*, Junmeng Cai.Hydrodeoxygenation of guaiacol as a model compound of lignin-derived pyrolysis bio-oil over zirconia-supported Rh catalyst: Process optimization and reaction kinetics[J]. Fuel, 2019,(239):1015-1027. (SCI,影响因子6.609,Q1区).
[12]Yuanfei Mei, Meiyun Chai, Chenjie Shen, Biaobiao Liu, Ronghou Liu*. Effect of methanol addition on properties and aging reaction mechanism of bio-oil during storage[J]. Fuel, 2019,( 244):499-507. (SCI,影响因子6.609,Q1区).
[13] Kun Li, Ronghou Liu*, Qiong Yu, Ruijie Ma. Removal of nitrogen from chicken manure anaerobic digestion for enhanced biomethanization[J].Fuel, 232( 2018), Pages 395–404. (SCI,影响因子6.609,Q1区).
[14] Yan Wang, Ronghou Liu*.H2O2 treatment enhanced the heavy metals removal by manure biochar in aqueous solutions[J]. Science of the Total Environment, Volumes 628–629, 1 July 2018, Pages 1139-1148.(SCI,影响因子7.963,Q1区).
[15]Wenfei Cai, Li Dai, Ronghou Liu*. Catalytic fast pyrolysis of rice husk for bio-oil production[J]. Energy, Volume 154, 1 July 2018, Pages 477-487. (SCI,影响因子7.147,Q1区).
[16]Wenfei Cai, Ronghou Liu*, Yifeng He, Meiyun Chai, Junmeng Cai. Bio-oil production from fast pyrolysis of rice husk in a commercial-scale plant with a downdraft circulating fluidized bed reactor[J].Fuel Processing Technology,171(2018)308-317. (SCI,影响因子7.033,Q1区).
[17] Md. Maksudur Rahman, Ronghou Liu*, Junmeng Cai. Catalytic fast pyrolysis of biomass over zeolites for high quality bio-oil – A review[J]. Fuel Processing Technology,180(2018)32-46. (SCI,影响因子7.033,Q1区,高被引论文).
[18] Kun Li, Ronghou Liu*, Shaofeng Cui, Qiong Yu, Ruijie Ma. Anaerobic co-digestion of animal manures with corn stover or apple pulp for enhanced biogas production[J].Renewable Energy, 118 (2018) 335-342. (SCI,影响因子 8.001,Q1区).
[19] Linzheng Wang, Meiyun Chai, Ronghou Liu*, Junmeng Cai. Synergetic effects during co-pyrolysis of biomass and waste tire: A study on product distribution and reaction kinetics[J]. Bioresource Technology, Volume 268, November 2018, Pages 363-370. (SCI,影响因子9.642,Q1区).
[20] Le Zhang, Ronghou Liu*, Renzhan Yin, Yuanfei Mei. Upgrading of bio-oil from biomass fast pyrolysis in China: A review[J].Renewable and Sustainable Energy Reviews 24 (2013) 66–72. (SCI, 影响因子14.982,Q1区,高被引论文).
[21] Yan Wang, Ronghou Liu*. Comparison of characteristics of twenty-one types of biochar and their ability to remove multi-heavy metals and methylene blue in solution[J].Fuel Processing Technology, 2017,160,55-63. (SCI,影响因子7.033,Q1区).
[22] Yuanfei Mei, Ronghou Liu*. Effect of temperature of ceramic hot vapor filter in a fluidized bed reactor on chemical composition and structure of bio-oil and reaction mechanism of pine sawdust fast pyrolysis[J]. Fuel Processing Technology,2017,161,204–219. (SCI,影响因子7.033,Q1区).
[23] Chen Sun, Weixing Cao, Charles J. Banks, Sonia Heaven, Ronghou Liu*.Biogas production from undiluted chicken manure and maize silage: a study of ammonia inhibition in high solids anaerobic digestion[J]. Bioresource Technology, Volume 218, October 2016, Pages 1215-1223 . (SCI,影响因子9.642,Q1区).
[24] Renzhan Yin, Le Zhang , Ronghou Liu*, Yuanfei Mei , Wenjuan Yu. Optimization of composite additives for improving stability of bio-oils, Fuel 170 (2016) 1–8. (SCI,影响因子6.609,Q1区).
[25]Wenfei Cai, Ronghou Liu*. Performance of a commercial-scale biomass fast pyrolysis plant for bio-oil production[J]. Fuel 182 (2016) 677–686. (SCI,影响因子6.609,Q1区).
[26] Kun Li, Ronghou Liu*, Chen Sun. Comparison of anaerobic digestion characteristics and kinetics of four livestock manures with different substrate concentrations[J].Bioresource Technology, 198 (2015) 133–140. (SCI,影响因子9.642,Q1区).
[27] Tianju Chen, Ronghou Liu*, Norman R. Scott*. Characterization of energy carriers obtained from the pyrolysis of white ash, switchgrass and corn stover — Biochar, syngas and bio-oil [J].Fuel Processing Technology 142,124–134, 2016. (SCI,影响因子7.033,Q1区).
[28]Tianju Chen, Ceng Wu, Ronghou Liu*, et al. Effect of hot vapor filtration on the characterization of bio-oil from rice husks with fast pyrolysis in a fluidized-bed reactor[J]. Bioresource Technology, 102 (2011) 6178–6185. (SCI,影响因子9.642,Q1区).
[29]Tianju Chen, Ceng Wu, Ronghou Liu*. Steam reforming of bio-oil from rice husks fast pyrolysis for hydrogen production[J]. Bioresource Technology, Volume 102, Issue 19, October 2011, Pages 9236-9240. (SCI,影响因子9.642,Q1区).
[30]Weixing Cao, Chen Sun, Ronghou Liu*,Renzhan Yin, Xiaowu Wu.Comparison of the effects of five pretreatment methods on enhancing the enzymatic digestibility and ethanol production from sweet sorghum bagasse[J].Bioresource Technology, Volume 111, May 2012, Pages 215–221. (SCI,影响因子9.642,Q1区).
[31]Renzhan Yin, Ronghou Liu*, Jinkai Wu, Xiaowu Wu, Chen Sun, Ceng Wu. Influence of particle size on performance of a pilot-scale fixed-bed gasification system[J]. Bioresource Technology, 119 (2012) 15–21. (SCI,影响因子9.642,Q1区).
[32]Ronghou Liu*, Fei Shen. Impacts of main factors on bioethanol fermentation from stalk juice of sweet sorghum by immobilized Saccharomyces cerevisiae (CICC 1308)[J]. Bioresource Technology 99 (2008) 847–854 . (SCI,影响因子9.642,Q1区).
[33] Ronghou Liu*, Jinxia Li, Fei Shen. Refining bioethanol from stalk juice of sweet sorghum by immobilized yeast fermentation[J].Renewable Energy 33 (2008) 1130–1135. (SCI,影响因子 8.001,Q1区).
[34] Yuanfei Mei,Ceng Wu, Ronghou Liu*. Hydrogen production from steam reforming of bio-oil model compound and byproducts elimination, International Journal of Hydrogen Energy Volume 41, Issue 21, 8 June 2016, Pages 9145-9152 .(SCI,影响因子5.816, Q2区).
[35]Ceng Wu, Ronghou Liu.Carbon deposition behavior in steam reforming of bio-oil model compound for hydrogen production[J].International Journal of Hydrogen Energy, 3 5 ( 2010 ) 7386-7398. (SCI,影响因子5.816, Q2区).
[36]Ceng Wu,Ronghou Liu*. Sustainable Hydrogen Production From Steam Reforming Of Bio-Oil Model Compound Based On Carbon Deposition/Elimination[J]. International Journal of Hydrogen Energy, 3 6 (2011) 2860-2868. (SCI,影响因子5.816, Q2区).
[37] Weixing Cao, Ronghou Liu*.Screening and optimization of trace elements supplement in sweet sorghum juice for ethanol production[J]. Biomass and Bioenergy 50(2013)45-51.(SCI,影响因子5.061,Q2区).
[38] Md. Maksudur Rahman, Meiyun Chai, Manobendro Sarker, Nishu, Ronghou Liu*.Catalytic pyrolysis of pinewood over ZSM-5 and CaO for aromatic hydrocarbon: Analytical Py-GC/MS study[J]. Journal of the Energy Institute, 93 (2020) 425-435. (SCI, 影响因子6.186 ,Q2区).
[39] Yichen Wang, Renzhan Yin, Meiyun Chai, Nishu, Chong Li,Manobendro Sarker, Ronghou Liu*. Comparative study by GC×GC-TOFMS on the composition of crude and composite-additives bio-oil before and after accelerated aging treatment[J]. Journal of the Energy Institute, 93 (2020) 2163-2175. (SCI, 影响因子6.186 ,Q2区).
[40] Zengzhen Wang, Jia Xu, Dominic Yellezuome, Ronghou Liu*.Effects of cotton straw-derived biochar under different pyrolysis conditions on Pb (II) adsorption properties in aqueous solutions[J]. Journal of Analytical and Applied Pyrolysis, 157 (2021) 105214.( SCI, 影响因子5.541,Q2区).
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