伟德国际1946官方网

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teaching staff

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姓 名 杨海平 性 别
职 称 教授(博导) 毕业学校 新加坡南洋理工
个人主页
联系方式 15926285917
邮 箱 yhping2002@163.com
通讯地址 伟德国际1946源自英国煤燃烧国家重点实验室 430074
个人资料简介
2007年进入伟德国际1946官方网工作至今,获得自然科学基金委杰出青年基金、优秀青年基金,英国皇家学会牛顿高级学者基金资助,入选2014-2021爱思唯尔中国高被引学者、2022年斯坦福大学全球前2%顶尖科学家榜单。获得国家重点研发计划项目课题、国家自然科学基金以及省部级以上项目20余项;已在国内外能源领域权威学术刊物上以第一作者和通讯作者发表SCI文章100余篇,合作出版英文专著4部、主编教材2本;国内外SCI他引18000多次,10篇文章入选ESI高引,单篇SCI他引最高达4000余次;获得授权专利20余项。现任国际一流学术期刊Fuel Processing Technology副主编,并应邀任Energy Management and Conversion、Fuel、Journal of the Energy Institute、Journal of Analytical and Applied Pyrolysis以及《燃料化学学报》编委;任可再生能源学会青年工作委员会主任委员、国际燃烧学会理事会成员。相关成果获得湖北省自然科学一等奖、燃烧国际会议杰出论文奖、全球可再生能源领域最具投资价值的领先技术蓝天奖及中国专利优秀奖。

教育及工作经历

    2003/3 - 2005/2,新加坡南洋理工,环境科学工程,联合培养博士 导师:Rong Yan
    2002/3 - 2005/7,伟德国际1946源自英国,热能工程,博士,导师:陈汉平、郑楚光
    1999/9 - 2002/3,东北电力大学,能源动力,硕士,导师:姜秀民
    1995/9 - 1999/7,东北电力大学,能源动力,学士,导师:卢洪波
    3)工作经历(科研与学术工作经历,按时间倒序排序):
    2013/9-2015/2,  美国威斯康辛麦迪逊大学公派访问学者 (George Huber)
    2016.12-至今     伟德国际1946源自英国 煤燃烧国家重点实验室,教授
    2008/11 – 2016.11, 伟德国际1946源自英国 煤燃烧国家重点实验室,副教授
    2007/9 - 2008/10,伟德国际1946源自英国 煤燃烧国家重点实验室,讲师
    2005/9 - 2007/8, 伟德国际1946源自英国 材料科学与工程学院,博士后

研究方向

    主要从事生物质能的热化学转化、高品位、资源化综合利用的基础研究与技术开发,在生物质绿色制氢、生物质热化学转化制备高能液体燃料、高值碳基材料及其在储能、电池、污染物控制等的应用等方面取得有显著成绩。

    生物质热解制备碳纳米管和碳纤维

科研项目

    1.    国家自然基金优秀青年项目:生物质热化学转化基础研究,51622604,150万 2017/1-2019/12
    2.    国家重点研发计划项目纤维素类生物质生物、化学、热化学转化液体燃料机-课题:纤维素类生物质定向气化合成航空液体燃料的转化机制,2018YFB1501403,245万,2019/02-2023/01
    3.    国家重点研发计划项目大规模干煤粉气流床气化技术开发及示范子课题:高温高压煤气化化学反应动力学机理及特性(2017YFB0602701-02) 106万,2017/01-2020/12
    4.    国家自然科学基金国际合作交流项目中英人才项目牛顿高级学者: 生物质等离子体催化热解气化联产气体燃料和炭材料(51861130362)50万,2018/01-2020.12
    5.    国家自然科学基金面上项目:生物质成型燃料燃烧颗粒物形成机理研究,51476067,2015/1-2018/12,100万,结题,参与(第二)
    6.    国家自然科学基金面上项目:生物质气化过程中热解焦与挥发分气体的交互反应机理研究,51376076,2014/1-2017/12,80万,结题,主持
    7.    农业部公益专项课题:热解炭化气体产物净化提质技术与设备,201303095-3,2013/1-2017/12,100万,结题,主持
    8.    国家高技术研究发展计划“863”项目,生物质热解稳定制备生物油及提质新技术,2012AA051803,2012/1-2014/12,165.6万,结题,参与(第二)
    9.     “十二五”支撑计划项目课题,热解气化制备生物燃气新技术与示范--生物燃气科技工程,2011BAD15B05-03, 2011/1-2013/12,135万,已结题,主持
    10.    国家自然科学基金重点项目,生物质热解多联产过程机理与产物调控机制研究,50930006,2010/1-2013/12,200万,已结题,参加(第二)
    11.    国家自然科学基金青年基金项目,50806027、秸秆流化床气化过程中碱金属的迁徙与催化关联机制研究,2009/1-2011/12,21万,已结题,主持
    12.    博士点新教师基金,200804871141,生物质流化床气化碱金属的迁徙与催化关联机制研究, 2009/1-2011/12,3.6万,已结题,主持
    13.    湖北省自然科学基金,2008CDB304,稻壳流化床定向气化及其与稻壳灰活性的耦合研究,2009/1-2011/1,2万,已结题,主持
    14.    国家重点基础研究发展计划973课题,2007CB210202,生物质定向气化的基础研究,2007/7-2011/12,373万,已结题,参加(第五)
    15.    中国博士后基金,20060390844,煤焦的物化结构对加压煤气化影响的研究, 2006/1-2007/8,3万,已结题,主持
    16.    “华中学者” 伟德国际1946源自英国,2012年
    17.    首届 “学术新人奖” 伟德国际1946源自英国,2009年

代表性论文与专利

    7)    国际学术会议邀请报告/口头报告
    1.    Mechanism of Biomass Pyrolysis for Carbon-based High-value Products. 39th International Symposium on Combustion, 24-29 July, 2022, Vancouver, Canada Plenary report
    2.    Biomass pyrolysis for oxygen contained liquid fuel and chemicals, The 1st Jiangsu-Hong Kong-Macau Conference on Biomass Energy and Materials 2021.11.10, Plenary speech,
    3.    Co-production of hydrogen and carbon nanotubes from waste plastics catalytic pyrolysis, The 2nd International Conference on Energy and Environment, 2021.7.23-25, Xuzhou China, Keynote speech,  
    4.    Biomass pyrolysis for carbon contained materials, Sino-UK workshop on New Materials and Technologies in Water Treatment and Sludge Solid Waste Treatment and Disposal, online, 2021.10.22-23, Plenary speech
    5.    Development of biomass pyrolysis polygeneration and pyrolysis product upgrading”. China-Canadian Bioenergy Centre, 2021.10.22, Invited lecture Development of biomass pyrolysis polygeneration and the high value utilization. International Conference on Biotechnology for Sustainable Agriculture, Environment and Health (BASEH-2021) 4th - 8th April, 2021 Jaipur, Rajasthan, INDIA. Keynote
    6.    Co-production of hydrogen and carbon nanotubes from waste plastics catalytic pyrolysis. ePYRO2021 International eConference on Analytical and Applied Pyrolysis, 12-13 April 2021, Belgium, Gent, Keynote
    7.    Development of biomass pyrolysis polygeneration and the high value utilization, 1st   International Conference(Virtual)on Sustainable Energy and Catalysis 2021,2,27, Malaysia
    8.    基于生物质能谈谈如何做好科学研究,第十四届全国研究生生物质能研讨会,大会报告,2020, 11, 24-26,湖南长沙
    9.    Recent developments of biomass catalytic fast pyrolysis: Strategies for the optimization of bio-oil quality and yield. Keynote, 4th International Conference on Bioresources, Energy, Environment, and Materials Technology, Septemper 6-9 2020, Incheon Korea- online
    10.    N-enriched Biomass Pyrolysis for N-contained Porous Solid Carbon Materials, -Keynote IBI Biochar World Congress 2019, 2019.11.10-11.14, Korea Seoul
    11.    Development of biomass pyrolysis polygeneration and the high value utilization. Keynote report. The 10th Renewable Energy Workshop between China and Thailand, 2019.12.7-12.8
    12.    The Development of Biomass Pyrolysis for Gas Fuel, Liquid Oil and Carbon Materials. Keynote. The 1st International Conference on Energy and Environment, 2019.9.20-21, Nanjing
    13.    生物质热解目标产物调控及联产机制研究, 大会报告, 第十八届全国分析与应用裂解学术会议-PYRO2019, 2019.8.16-18 中国 郑州;
    14.    生物质热化学转化制氢、CxHy燃料和碳材料研究,keynote,中国可再生能源学会青年工作委员会成立大会暨第二届青年科学家论坛,2019.7.24, 中国 北京
    15.    Biomass pyrolysis for Biochar and its high-value utilization. Keynote The 2nd Symposium on Biomass/Wastes Energy and Environment, 2019,5.23-25, Tianjin
    16.    The Development of Biomass Pyrolytic Multigeneration for Gas Fuel, Liquid Oil and Carbon Materials, Keynote 2019 E2S2-CREAT and AICHE Waste Management Conference, 2019 3. 11-13 Singapore;
    17.    废塑料催化热解制备富氢气体和碳纳米管的研究, Keynote 第五届全国青年燃烧学术会议, 2019, 4, 13-14 中国 北京;
    18.    生物质热解制备液体燃料、含碳化学品及碳材料, 第十七届全国青年催化学术会议 2018, 8, 18-20, 中国 兰州;
    19.    The Development of Biomass Pyrolytic Multigeneration for Gas, Liquid oil and Carbon Materials. Keynote report, 5th Environment-Enhancing Energy Forum. 2018.06.13-15. Beijing, China.
    20.    The Development of Biomass Pyrolytic Multigeneration for Gas, Liquid oil and Carbon Materials in China. International Symposium on Advances in Process Engineering. 2017.10.25. Islamabad Pakistan.
    21.    The mechanism study of biomass pyrolysis. International Symposium on Advances in Process Engineering. 2017.10.25. Islamabad Pakistan.
    22.    生物质热解目标产物调控与多联产机制研究,第十一届全国研究生生物质能研讨会暨2017生物质能专委会学术年会,2017. 8.7-10中国昆明;
    23.    The Development of Biomass Pyrolytic Multigeneration for Gas, Liquid Oil and Solid Char in China. China-Brazil workshop on biomass utilization and diagnosis. 2017.05.11. Wuhan, China.
    24.    生物质热解目标产物调控与多联产机制研究,大会报告 第三届全国青年燃烧学术会议;2017.4. 15-17中国 西安
    25.    The Development of Biomass Pyrolytic Multigeneration for Gas, Liquid Oil and Solid Char in China. The 7th Renewable Energy Workshop between China and Thailand. 2016.11.28-12.02. Chiang Mai, Thailand.
    26.    Absorption enhanced steam gasification of biomass for H2 production and the influence of K. 5th International Conference on Biomass Energy & Exhibition. 2016.10.18. Beijing, China.

    论文发表情况
    1.    Mechanism of Biomass Pyrolysis for Carbon-based High-value Products. 39th International Symposium on Combustion, 24-29 July, 2022, Vancouver, Canada Plenary report
    2.    Biomass pyrolysis for oxygen contained liquid fuel and chemicals, The 1st Jiangsu-Hong Kong-Macau Conference on Biomass Energy and Materials 2021.11.10, Plenary speech,
    3.    Co-production of hydrogen and carbon nanotubes from waste plastics catalytic pyrolysis, The 2nd International Conference on Energy and Environment, 2021.7.23-25, Xuzhou China, Keynote speech,  
    4.    Biomass pyrolysis for carbon contained materials, Sino-UK workshop on New Materials and Technologies in Water Treatment and Sludge Solid Waste Treatment and Disposal, online, 2021.10.22-23, Plenary speech
    5.    Development of biomass pyrolysis polygeneration and pyrolysis product upgrading”. China-Canadian Bioenergy Centre, 2021.10.22, Invited lecture Development of biomass pyrolysis polygeneration and the high value utilization. International Conference on Biotechnology for Sustainable Agriculture, Environment and Health (BASEH-2021) 4th - 8th April, 2021 Jaipur, Rajasthan, INDIA. Keynote
    6.    Co-production of hydrogen and carbon nanotubes from waste plastics catalytic pyrolysis. ePYRO2021 International eConference on Analytical and Applied Pyrolysis, 12-13 April 2021, Belgium, Gent, Keynote
    7.    Development of biomass pyrolysis polygeneration and the high value utilization, 1st   International Conference(Virtual)on Sustainable Energy and Catalysis 2021,2,27, Malaysia
    8.    基于生物质能谈谈如何做好科学研究,第十四届全国研究生生物质能研讨会,大会报告,2020, 11, 24-26,湖南长沙
    9.    Recent developments of biomass catalytic fast pyrolysis: Strategies for the optimization of bio-oil quality and yield. Keynote, 4th International Conference on Bioresources, Energy, Environment, and Materials Technology, Septemper 6-9 2020, Incheon Korea- online
    10.    N-enriched Biomass Pyrolysis for N-contained Porous Solid Carbon Materials, -Keynote IBI Biochar World Congress 2019, 2019.11.10-11.14, Korea Seoul
    11.    Development of biomass pyrolysis polygeneration and the high value utilization. Keynote report. The 10th Renewable Energy Workshop between China and Thailand, 2019.12.7-12.8
    12.    The Development of Biomass Pyrolysis for Gas Fuel, Liquid Oil and Carbon Materials. Keynote. The 1st International Conference on Energy and Environment, 2019.9.20-21, Nanjing
    13.    生物质热解目标产物调控及联产机制研究, 大会报告, 第十八届全国分析与应用裂解学术会议-PYRO2019, 2019.8.16-18 中国 郑州;
    14.    生物质热化学转化制氢、CxHy燃料和碳材料研究,keynote,中国可再生能源学会青年工作委员会成立大会暨第二届青年科学家论坛,2019.7.24, 中国 北京
    15.    Biomass pyrolysis for Biochar and its high-value utilization. Keynote The 2nd Symposium on Biomass/Wastes Energy and Environment, 2019,5.23-25, Tianjin
    16.    The Development of Biomass Pyrolytic Multigeneration for Gas Fuel, Liquid Oil and Carbon Materials, Keynote 2019 E2S2-CREAT and AICHE Waste Management Conference, 2019 3. 11-13 Singapore;
    17.    废塑料催化热解制备富氢气体和碳纳米管的研究, Keynote 第五届全国青年燃烧学术会议, 2019, 4, 13-14 中国 北京;
    18.    生物质热解制备液体燃料、含碳化学品及碳材料, 第十七届全国青年催化学术会议 2018, 8, 18-20, 中国 兰州;
    19.    The Development of Biomass Pyrolytic Multigeneration for Gas, Liquid oil and Carbon Materials. Keynote report, 5th Environment-Enhancing Energy Forum. 2018.06.13-15. Beijing, China.
    20.    The Development of Biomass Pyrolytic Multigeneration for Gas, Liquid oil and Carbon Materials in China. International Symposium on Advances in Process Engineering. 2017.10.25. Islamabad Pakistan.
    21.    The mechanism study of biomass pyrolysis. International Symposium on Advances in Process Engineering. 2017.10.25. Islamabad Pakistan.
    22.    生物质热解目标产物调控与多联产机制研究,第十一届全国研究生生物质能研讨会暨2017生物质能专委会学术年会,2017. 8.7-10中国昆明;
    23.    The Development of Biomass Pyrolytic Multigeneration for Gas, Liquid Oil and Solid Char in China. China-Brazil workshop on biomass utilization and diagnosis. 2017.05.11. Wuhan, China.
    24.    生物质热解目标产物调控与多联产机制研究,大会报告 第三届全国青年燃烧学术会议;2017.4. 15-17中国 西安
    25.    The Development of Biomass Pyrolytic Multigeneration for Gas, Liquid Oil and Solid Char in China. The 7th Renewable Energy Workshop between China and Thailand. 2016.11.28-12.02. Chiang Mai, Thailand.
    26.    Absorption enhanced steam gasification of biomass for H2 production and the influence of K. 5th International Conference on Biomass Energy & Exhibition. 2016.10.18. Beijing, China.
    8)    论文发表情况
    1.    Yuanyuan Wang, Ning Cai, Haiping Yang*, and Chunfei Wu*. Application of carbon nanotubes from waste plastics as filler to epoxy resin composite. ACS sustainable chemistry & engineering, 2022, 10(6): 2204-2213
    2.     Lei Wang*, Mengdi Liang, Yang Fang, Jun Yin, Jungang Jiang, Yifan Zhang, Haiping Yang*. A new insight of lignin pyrolysis characteristics based on dehydrogenation polymers (DHPs). Fuel Processing Technology, 2022, 236: 107397
    3.    Haiping, Shuaishuai Lei, Kun Xu, Yang Fang, Xu Chen*, Yingquan Chen*, Xianhua Wang, Hanping Chen. Catalytic pyrolysis of cellulose with sulfonated carbon catalyst to produce levoglucosenone. Fuel Processing Technology, 2022, 234: 107323
    4.    Xu Chen, Shujuan Li, Wei Chen*, Yingquan Chen, Hanping Chen, Haiping Yang*. Influence of calcination temperature on calcined carbide slag assisted biomass pyrolysis. Fuel Processing Technology, 2022, 234: 107339
    5.    Zhiguo Dong, Anthony Dufour**, Richard Laine, Sebastien Leclerc, Liangyuan Jia, Yingquan Chen, Xianhua Wang, Hanping Chen, Haiping Yang*. Impacts of the hydroxyls crosslinking on lignin softening and pyrolysis via in situ 1H NMR, rheology, DRIFT and SPI-MS. Fuel Processing Technology, 2022, 236: 107390
    6.    Xu Chen, Zihao Liu, Wei Chen*, Haiping Yang*, Hanping Chen. Catalytic pyrolysis of cotton stalk to produce aromatic hydrocarbons over Fe modified CaO catalysts and ZSM-5. Journal of Analytical and Applied Pyrolysis, 2022, 166: 105635
    7. Lei Wang*, Yang Fang, Jun Yin, Xiaohan Li, Jungang Jiang, Yifan Zhang, Haiping Yang*. Fast pyrolysis of guaiacyl-syringyl (GS) type milled wood lignin: Product characteristics and CH4 formation mechanism study. Science of The Total Environment, 2022: 156395
    7.    Mingwei Xia,   Wei Chen,  Jing Wu,  Yingquan Chen,   Haiping Yang,   Xu Chen,,  Danchen Zhu,  Hanping Chen. The critical role of anions in the porous biochar structure and potassium release during the potassium-assisted pyrolysis process. Green Chemistry 2021, 23 (23):9589-9599
    8.    Yang, Haiping; Dong, Zhiguo; Liu, Biao; Chen, Yingquan*; Gong, Meng; Li, Shujuan; Chen, Hanping. A new insight of lignin pyrolysis mechanism based on functional group evolutions of solid char. Fuel, 2021,288:119719
    9.    Cai, Ning; Xia, Sunwen; Li, Xiaoqiang; Xiao, Haoyu; Chen, Xu; Chen, Yingquan*; Bartocci, Pietro; Chen, Hanping; Williams, Paul T.; Yang, Haiping*. High-value products from ex-situ catalytic pyrolysis of polypropylene waste using iron-based catalysts: the influence of support materials. Waste Management, 2021,136: 47-56
    10.    Xia, Mingwei; Chen, Wei; Wu, Jing; Chen, Yingquan; Yang, Haiping*; Chen, Xu; Zhu, Danchen; Chen, Hanping. Organic salt-assisted pyrolysis for preparation of porous carbon from cellulose, hemicellulose and lignin: New insight from structure evolution. Fuel, 2021,291:961-70
    11.    Yang, Haiping; Song, Hao; Zhao, Chuang; Hu, Junhao*; Li, Siqin; Chen, Hanping. Catalytic gasification reactivity and mechanism of petroleum coke at high temperature. Fuel, 2021,293:120469
    12.    Li, Siqin; Song, Hao; Hu, Junhao; Yang, Haiping*; Zou, Jun; Zhu, Youjian; Tang, Ziyue; Chen, Hanping. CO2 gasification of straw biomass and its correlation with the feedstock characteristics. Fuel, 2021,297:120780
    13.    Chen, Wei; Li, Kaixu; Chen, Zhiqun; Xia, Mingwei; Chen, Yingquan; Yang, Haiping*; Chen, Xu; Chen, Hanping. A new insight into chemical reactions between biomass and alkaline additives during pyrolysis process. Proceedings of the Combustion Institute, 2021,38(3):3881-3890
    14.    Fang Yang, Yin Li, Yang Haiping*, Gong Xun*, Chen Yingquan, Chen Hanping. Catalytic mechanisms of potassium salts on pyrolysis of β-O-4 type lignin model polymer based on DFT study. Proceedings of the Combustion Institute, 2021,38(3):3969-3976
    15.    Dong, Zhiguo; Yang, Haiping*; Liu, Zihao; Chen, Peiao; Chen, Yingquan; Wang, Xianhua; Chen, Hanping. Effect of boron-based additives on char agglomeration and boron doped carbon microspheres structure from lignin pyrolysis. Fuel, 2021,303:121237
    16.    Zhu, Youjian; Liu, Yun; Wang, Liang; Yang, Wei; Yang, Haiping*; Jiang, Long; Du, Zhenyi; Shao, Jingai; Chen, Hanping. Effect of phosphorus-based additives on the sintering characteristics of cornstalk ash. Journal of the Energy Institute, 2021,97:37-47
    17.    Chen, Xu; Liu, Zihao; Li, Shujuan; Xia, Sunwen; Cai, Ning; Chen, Wei; Chen, Yingquan*; Yang, Haiping*; Wang, Xianhua; Chen, Hanping. Catalytic Pyrolysis of Biomass to Produce Aromatic Hydrocarbons over Calcined Dolomite and ZSM-5. Energy and Fuels,2021,35(20):16629-16636
    18.    Xiao, Jianjun; Yang, Minjiao; Che, Qingfeng; Chen, Yingquan; Chen, Xu; Yang, Haiping*; Bartocci, Pietro; Fantozzi, Francesco; Chen, Hanping. Effect of potassium on catalytic characteristics of ZSM-5 zeolite in fast pyrolysis of biomass-based furan. Journal of Analytical and Applied Pyrolysis. 2021,157:105230
    19.    Cai, Ning; Xia, Sunwen; Li, Xiaoqiang; Sun, Lin; Bartocci, Pietro; Fantozzi, Francesco; Zhang, Haozhe; Chen, Hanping; Williams, Paul T.; Yang, Haiping*. Influence of the ratio of Fe/Al2O3 on waste polypropylene pyrolysis for high value-added products. Journal of Cleaner Production. 2021,315:128240
    20.    Tang, Qinghui; Chen, Yingquan; Yang, Haiping*; Liu, Ming; Xiao, Haoyu; Wang, Shurong*; Chen, Hanping; Raza Naqvi, Salman. Machine learning prediction of pyrolytic gas yield and compositions with feature reduction methods: Effects of pyrolysis conditions and biomass characteristics. Bioresource Technology, 2021,339:125581
    21.    Zeng, Kuo; Yang, Xinyi; Xie, Yingpu; Yang, Haiping*; Li, Jun; Zhong, Dian; Zuo, Hongyang; Nzihou, Ange; Zhu, YouJian; Chen, Hanping. Molten salt pyrolysis of biomass: The evaluation of molten salt. Fuel, 2021,302:121103
    22.    Chen, Xu; Li, Shujuan; Liu, Zihao; Cai, Ning; Xia, Sunwen; Chen, Wei; Yang, Haiping*; Chen, Yingquan; Wang, Xianhua; Liu, Wenqiang; Chen, Hanping. Negative-carbon pyrolysis of biomass (NCPB) over CaO originated from carbide slag for on-line upgrading of pyrolysis gas and bio-oil. Journal of Analytical and Applied Pyrolysis. 2021,156:105063
    23.    Cai, Ning; Li, Xiaoqiang; Xia, Sunwen; Sun, Lin; Hu, Junhao; Bartocci, Pietro; Fantozzi, Francesco; Williams, Paul T.; Yang, Haiping*; Chen, Hanping. Pyrolysis-catalysis of different waste plastics over Fe/Al2O3 catalyst: High-value hydrogen, liquid fuels, carbon nanotubes and possible reaction mechanisms. Energy Conversion and Management, 2021,229:113794
    24.    Xia, Sunwen; Guo, Wenhan; Cai, Ning; Sun, Lin; Zhou, Hewen; Lu, Wang; Chen, Xu; Zhang, Jian; Chen, Yingquan; Yang, Haiping*; Sun, Fei; Wang, Deli; Wang, Xianhua; Wang, Shurong*; Chen, Hanping. Synthesis and application in oxygen reduction reaction of N-doping porous graphitic carbon from biomass waste. Fuel Processing Technology, 2021,224:107028
    25.    Yang, Haiping; Gong, Meng; Chen, Wei*; Fang, Yang; Chen, Yingquan; Wang, Xianhua; Chen, Hanping. Lignin pyrolysis under NH3 atmosphere for 4-vinylphenol product: An experimental and theoretical study. Fuel,2021,297:120776
    26.    Chen, Wei; Fang, Yang; Li, Kaixu; Chen, Zhiqun; Xia, Mingwei; Gong, Meng; Chen, Yingquan; Yang, Haiping*; Tu, Xin; Chen, Hanping; Bamboo wastes catalytic pyrolysis with N-doped biochar catalyst for phenols products. Applied Energy, 2020, 260: 114242.  
    27.    Chen, Wei; Gong, Meng; Li, Kaixu; Xia, Mingwei; Chen, Zhiqun; Xiao, Haoyu; Fang, Yang; Chen, Yingquan; Yang, Haiping*; Chen, Hanping. Insight into KOH activation mechanism during biomass pyrolysis: chemical reactions between O-containing groups and KOH. Applied Energy, 2020, 278: 115730.    
    28.    Li, Jian; Bai, Xiaowei; Fang, Yang; Chen, Yingquan; Wang, Xianhua; Chen, Hanping; Yang, Haiping*. Comprehensive mechanism of initial stage for lignin pyrolysis, Combustion and Flame, 2020, 215: 1-9.  
    29.    Wang, Daqian; Yang, Haiping*; Wu, Yang; Zhao, Chuang; Ju, Fudong; Wang, Xianhua; Zhang, Shihong; Chen, Hanping. Evolution of pore structure and fractal characteristics of coal char during coal gasification, Journal of the Energy Institute, 2020, 93: 1999-2005.  
    30.    Qi Chen; Junhao Hu; Haiping Yang*; Daqian Wang; Huihui Liu; Xianhua Wang; Hanping Chen; Experiment and simulation of the pneumatic classification and drying of coking coal in a fluidized bed dryer. Chemical Engineering Science, 2020, 214: 115364.
    31.    Tang, Qinghui; Chen, Yingquan; Yang, Haiping*; Liu, Ming; Xiao, Haoyu; Wu, Ziyue; Chen, Hanping; Naqvi, Salman Raza; Prediction of bio-oil yield and hydrogen contents based on machine learning method: effect of biomass compositions and pyrolysis conditions. Energy & Fuels, 2020, 34(9): 11050-11060.  
    32.    Zeng, Kuo; Li, Jun; Xie, Yingpu; Yang, Haiping*; Yang, Xinyi; Zhong, Dian; Zhen, Wanxin; Flamant, Gilles; Chen, Hanping*. Molten salt pyrolysis of biomass: The mechanism of volatile reforming and pyrolysis. Energy, 2020, 213: 118801.  
    33.    Wang, Guanyu; Dai, Yujie; Yang, Haiping*; Xiong, Qingang; Wang,Kaige; Zhou, Jinsong; Li, Yunchao; Wang, Shurong*. A review of recent advances in biomass pyrolysis. Energy & Fuels, 2020, 34(12): 15557-15578.  
    34.    Yang, Haiping; Li, Shujuan; Liu, Biao; Chen, Yingquan; Xiao, Jianjun *; Dong, Zhiguo; Gong, Meng; Chen, Hanping. Hemicellulose pyrolysis mechanism based on functional group evolutions by two-dimensional perturbation correlation infrared spectroscopy. Fuel, 2020, 267: 117302.
    35.    Yang, Haiping; Gong, Meng; Hu, Junhao; Liu, Biao; Chen, Yingquan*; Xiao, Jianjun; Li, Shujuan; Dong, Zhiguo; Chen, Hanping. Cellulose pyrolysis mechanism based on functional group evolutions by two-dimensional perturbation correlation infrared spectroscopy. Energy & Fuels, 2020, 34(3): 3412-3421.
    36.    Yang, Haiping; Liu, Ming; Chen, Yingquan *; Xin, Shanzhi; Zhang, Xiong; Wang, Xianhua; Chen, Hanping. Vapor-solid interaction among cellulose, hemicellulose and lignin. Fuel, 2020, 263: 116681.  
    37.    Hu, Qiang; Tang, Ziyue; Yao, Dingding*; Shao, Jingai; Yang, Haiping*; Chen, Hanping; Thermal behavior, kinetics and gas evolution characteristics for the co-pyrolysis of real-world plastic and tyre wastes. Journal of Clear Production, 2020, 260: 121102.
    38.    Cai, Ning; Xia, Sunwen; Zhang, Xiong; Meng, Zihan; Bartocci, Pietro*; Fantozzi, Francesco; Chen, Yingquan; Chen, Hanping; Williams, Paul T; Yang, Haiping*. Preparation of iron and nitrogen co-doped carbon nanotubes from waste plastics pyrolysis for the oxygen reduction reaction. Chemsumchem, 2020, 13(5): 938-944.  
    39.    Xia, Sunwen; Cai, Ning; Wu, Jing; Xiao, Haoyu; Hu, Junhao; Chen, Xu; Chen, Yingquan; Yang, Haiping*; Wang, Xianhua; Chen, Hanping. Synthesis and formation mechanism of biomass-based mesoporous graphitic carbon. Fuel Processing Technology, 2020, 209: 106543.
    40.    Li, Jian; Li, Shujuan; Dong, Zhiguo; Gong, Meng; Chen, Yingquan ; * Yang , Haiping* ; Chen, Hanping. Two-dimensional perturbation correlation infrared spectroscopy for probing pyrolysis of biomass: Fundamentals, applications, and mechanistic understanding. Energy & Fuels, 2020, 34: 9154-9174.
    41.    Li, Jian; Bai, Xiaowei; Dong, Zhiguo; Chen, Yingquan; Yang, Haiping ; * Wang, Xianhua; Chen, Hanping. Influence of additives on lignin agglomeration and pyrolysis behavior. Fuel, 2020, 263: 116629.  
    42.    Ismail, Tamer M. ; Banks, S. W.; Yang, Yang; ; Chen, Yang, Haiping* Yingquan; Bridgwater, A. V.; Ramzy, Khaled; Abd El-Salam, M.. Coal and biomass co-pyrolysis in a fluidized-bed reactor: Numerical assessment of fuel type and blending conditions. Fuel, 2020, 275: 118004.
    43.    Cai, Ning; Yang, Haiping*; Zhang, Xiong; Xia, Sunwen; Yao, Dingding; Bartocci, Pietro; Fantozzi, Francesco; Chen, Yingquan; Chen, Hanping; Williams, Paul T. Bimetallic carbon nanotube encapsulated Fe-Ni catalysts from fast pyrolysis of waste plastics and their oxygen reduction properties. Waste Management, 2020, 109: 119-126.  
    44.    Li, Jian; Galebach, Peter H.; Johnson, Jillian K.; Fredriksen, Tom; Wittrig, Ashley; Bai, Xiaowei; Yang, Haiping *; Huber, George W*. Supercritical methanol depolymerization and hydrodeoxygenation of pyrolytic lignin over reduced copper porous metal oxides. Green Chemistry, 2020, 22(23): 8403-8413.
    45.    Chen Yingquan; Liu Biao; Yang Haiping*; Wang Xianhua; Zhang Xiong; Chen Hanping. Generalized two-dimensional correlation infrared spectroscopy to reveal the mechanisms of lignocellulosic biomass pyrolysis. Proceedings of the Combustion Institute, 2019, 37: 3013-3021.
    46.    Chen Xu; Chen Yingquan; Yang Haiping*; Wang Xianhua; Che Qingfeng; Chen Wei; Chen Hanping. Catalytic fast pyrolysis of biomass: Selective deoxygenation to balance the quality and yield of bio-oil. Bioresource Technology, 2019, 27 3: 153-158.
    47.    Chen, Xu; Che, Qingfeng; Li, Shujuan; Liu, Zihao; Yang, Haiping*; Chen, Yingquan; Wang, Xianhua; Shao, Jingai; Chen, Hanping. Recent developments in lignocellulosic biomass catalytic fast pyrolysis: Strategies for the optimization of bio-oil quality and yield. Fuel Processing Technology, 2019, 196: 106181.
    48.    Hu Qiang; Mao Qiaoting; Ren Xixi; Yang Haiping*; Chen Hanping. Inert chemical looping conversion of biochar with iron ore as oxygen carrier: Products conversion kinetics and structural evolution. Bioresource Technology, 2019, 275: 53-60.
    49.    Yang Zixu; Hu Junhao; Li Yang; Chen Yingquan; Qian Kezhen; Yang Haiping*; Chen Hanping. Catalytic steam gasification of Mengdong coal in the presence of iron ore for hydrogen-rich gas production. Journal of the Energy Institute, 2019, 92(2): 391-402.  
    50.    Chen, Xu; Li, Shujuan; Liu, Zihao; Chen, Yingquan; Yang, Haiping*; Wang, Xianhua; Che, Qingfeng; Chen, Wei; Chen, Hanping. Pyrolysis characteristics of lignocellulosic biomass components in the presence of CaO. Bioresource Technology, 2019, 287: 121493.    
    51.    Xia, Sunwen; Li, Kaixu; Xiao, Haoyu; Cai, Ning; Dong, Zhiguo; Xu, Chen; Chen, Yingquan; Yang, Haiping*; Tu, Xin; Chen, Hanping. Pyrolysis of Chinese chestnut shells: Effects of temperature and Fe presence on product composition. Bioresource Technology, 2019, 287: 121444.  
    52.    Bai, Xiaowei; Li, Jian; Jia, Chenxi; Shao, Jingai; Yang, Qing; Chen, Yingquan; Yang, Haiping *; Wang, Xianhua; Chen, Hanping. Preparation of furfural by catalytic pyrolysis of cellulose based on nano Na/Fe-solid acid. Fuel, 2019, 258: 116089.  
    53.    Zhu, Youjian; Fan, Jiyuan; Yang, Peng; Cheng, Wei; Zeng, Kuo; Zhang, Wennan; Yang, Haiping*; Shao, Jingai; Wang, Xianhua; Chen, Hanping. P-based additive for reducing fine particulate matter emissions during agricultural biomass combustion. Energy & Fuels, 2019, 33(11): 11274-11284.
    54.    Wang Lei; Li Jian; Chen Yingquan ; ; Shao Jingai; Zhang  Xiaoyu*; Yang Haiping* Yu Hongbo; Chen Hanping. Investigation of the pyrolysis characteristics of guaiacol lignin using combined Py-GC x GC/TOF-MS and in-situ FTIR. Fuel, 2 019, 251: 496-505.  
    55.    Chen Yingquan; Fang Yang; Yang Haiping* ; Xin Shanzhi; Zhang Xiong; Wang Xianhua; Chen Hanping. Effect of volatiles interaction during pyrolysis of cellulose, hemicellulose, and lignin at different temperatures. Fuel, 2019, 2 48: 1-7.  
    56.    Li Kaixu; Chen Wei; Yang Haiping*; Chen Yingquan; Xia Sunwen; Xia Mingwei; Tu Xin; Chen Hanping. Mechanism of biomass activation and ammonia modification for nitrogen-doped porous carbon materials. Bioresource Technology, 2019, 280: 260-268.
    57.    Wang Daqian; Li Bin *; Zhao Chuang; Yao Dingding; Yang Haiping*; Chen, Hanping; Influence of biochar on the steam reforming of biomass volatiles: Effects of activation temperature and atmosphere. Energy & Fuels, 2019, 33(3) : 2328-2334.  
    58.    Dong, Zhiguo; Yang, Haiping*; Chen, Peiao; Liu, Zihao; Chen, Yingquan; Wang, Lei; Wang, Xianhua; Chen, Hanping. Lignin characterization and catalytic pyrolysis for phenol-rich oil with TiO2-based catalysts. Energy & Fuels, 2019 , 33(10): 9934-9941.  
    59.    Yao, Dingding; Zhang, Yeshui; Williams, Paul T*; Yang, Haiping*; Chen, Hanping. Co-production of hydrogen and carbon nanotubes from real-world waste plastics: Influence of catalyst composition and operational parameters. Applied Catalysis B: Environmental, 2018, 221: 584-597.    
    60.    Chen, Wei; Chen, Yingquan; Yang, Haiping*; Li, Kaixu; Chen, Xu; Chen, Hanping. Investigation on biomass nitrogen-enriched pyrolysis: Influence of temperature. Bioresource Technology, 2018, 249: 247-253.
    61.    Yang, Haiping; Wang, Daqian; Li, Bin*; Zeng, Zhiwei; Qu, Lei; Zhang, Wennan; Chen, Hanping; Effects of potassium salts loading on calcium oxide on the hydrogen production from pyrolysis-gasification of biomass , Bioresource Technology, 2018, 249: 744-750.
    62.    Yao, Dingding; Yang, Haiping *; Chen, Hanping. Williams, Paul T; * Investigation of nickel-impregnated zeolite catalysts for hydrogen/syngas production from the catalytic reforming of waste polyethylene. Applied Catalysis B: Environmental, 2018, 227: 477-487.
    63.    Yang, Wei; Zhu, Youjian; Cheng, Wei; Sang, Huiying; Xu, Hanshen; Yang, Haiping*; Chen, Hanping*. Effect of minerals and binders on particulate matter emission from biomass pellets combustion. Applied Energy, 2018, 215: 106-115.
    64.    Chen, Wei; Li, Kaixu; Xia, Mingwei; Chen, Yingquan; Yang, Haiping*; Chen, Zhiqun; Chen, Xu; Chen, Hanping. Influence of NH3 concentration on biomass nitrogen-enriched pyrolysis. Bioresource Technology, 2018, 263: 350-357.
    65.    Zhu, Youjian; Hu, Junhao; Yang, Wei; Zhang, Wennan; Zeng, Kuo; Yang, Haiping; Du, Shenglei; Chen, Hanping*. Ash fusion characteristics and transformation behaviors during bamboo combustion in comparison with straw and poplar, Energy & Fuels, 2018, 32(4): 5244-5251.
    66.    Zhu, Youjian; Yang, Wei; Fan, Jiyuan; Kan, Tao; Zhang, Wennan; Liu, Heng; Cheng, Wei; Yang, Haiping *; Wu, Xuehong; Chen, Hanping. Effect of sodium carboxymethyl cellulose addition on particulate matter emissions during biomass pellet combustion , Applied Energy, 2018, 230: 925-934.
    67.    Chen, Wei; Yang, Haiping*; Chen, Yingquan*; Li, Kaixu; Xia, Mingwei; Chen, Hanping. Influence of biochar addition on nitrogen transformation during copyrolysis of algae and lignocellulosic biomass. Environmental Science & Technology, 2018, 52(16): 9514-9521.
    68.    Zhu, Youjian; Si, Yaohui; Wang, Xianhua; Zhang, Wennan; Shao, Jingai* ; Yang, Haiping*; Chen, Hanping. Characterization of hydrochar pellets from hydrothermal carbonization of agricultural residues. Energy & Fuels, 2018, 32 (11): 11538-11546.  
    69.    Chen, Xu; Chen, Yingquan; Chen, Zhen; Zhu, Danchen; Yang, Haiping*; Liu, Peng; Li, Tao*; Chen, Hanping. Catalytic fast pyrolysis of cellulose to produce furan compounds with SAPO is type catalysts. Journal of Analytical and Applied Pyrolysis, 2018, 129: 53-60.  
    70.    Hu, Qiang; Yao, Dingding; Xie, Yingpu; Zhe, Youjian; Yang, Haiping*; Chen, Yingquan; Chen, Hanping. Study on intrinsic reaction behavior and kinetics during reduction of iron ore pellets by utilization of biochar. Energy Conversion Management, 2018, 158: 1-8.
    71.    Fang, Yang; Li, Jian; Chen, Yingquan; Lu, Qiang; Yang, Haiping*; Wang, Xianhua; Chen, Hanping. Experiment and modeling study of glucose pyrolysis: Formation of 3-Hydroxy-y-butyrolactone and 3-(2H)-Furanone. Energy & Fuels, 2018, 32(9): 9519-9529.  
    72.    Yao, Dingding; Yang, Haiping*; Chen, Hanping; Williams, Paul T*. Co-pr ecipitation, impregnation and so-gel preparation of Ni catalysts for pyrolysis-catalytic steam reforming of waste plastics , Applied Catalysis B: Environmental, 2018, 239: 565-577.
    73.    Zou, Jun; Oladipo, Japhet; Fu, Shilong; Al-Rahbi, Amal; Yang, Haiping*; Wu, Chunfei*; Cai, Ning; Williams, Paul; Chen, Hanping. Hydrogen production from cellulose catalytic gasification catalyst on CeO2/Fe2O3. Energy Conversion and Management, 2018, 171: 241-248.
    74.    Li, Bin; Liu, Biao; Wei, Liangyuan; Shao, Jingai; Yang, Haiping*; Chen, Hanping.  Influence of addition of a high amount of calcium oxide on the yields of pyrolysis products and noncondensable gas evolving during corn stalk pyrolysis. Energy & Fuels, 2017, 31(12): 13705-13712.
    75.    Li, Bin; Wei, Liangyuan; Shao, Jingai; Wang, Xianhua; Yang, Haiping*; Chen, Hanping; Hydrogen production from agricultural biomass wastes gasification in a fluidized bed with calcium oxide enhancing. International Journal of Hydrogen Energy, 2017, 42(8): 4832-4839.
    76.    Chen, Yingquan; Zhang, Xiong; Chen, Wei; Yang, Haiping*; Chen, Hanping. The structure evolution of biochar from biomass pyrolysis and its correlation with gas pollutant adsorption performance. Boresource Technology, 2017, 246: 101-109.
    77.    Li, Jian; Chen, Yingquan; Zhu, Danchen; Chen, Xu; Yang, Haiping* Wang, Xianhua; Chen, Hanping. Correlation of feedstock and bio-oil compound distribution. Energy & Fuels, 2017, 31(7): 7093-7100.
    78.    Chen, Xu; Chen, Yingquan; Yang, Haiping *; Chen, Wei; Wang, Xianhua; Chen, Hanping. Fast pyrolysis of cotton stalk biomass using calcium oxide. Bioresource Technology, 2017, 233: 15-20.  
    79.    Chen, Wei; Chen, Yingquan; Yang, Haiping*; Xia, Mingwei; Li, Kaixu; Chen, Xu; Chen, Hanping; Co-pyrolysis of lignocellulosic biomass and microalgae: Products characteristics and interaction effect. Bioresource Technology, 2017, 245: 860-868.
    80.    Yang, Wei; Zhu, Youjian; Cheng, Wei; Sang, Huiying; Yang, Haiping*; Chen, Hanping; Characteristics of particulate matter emitted from agricultural biomass combustion. Energy & Fuels, 2017, 31(7): 7493-7501.
    81.    Chen, Wei; Yang, Haiping*; Chen, Yingquan*; Xia, Mingwei; Chen, Xu; Chen, Hanping. Transformation of nitrogen and evolution of N-containing species during algae pyrolysis. Environmental Science&Technology, 2017, 51(11): 6570-6579.
    82.    Hu Junhao; Shao Jingai; Yang Haiping*; Lin Guiying; Chen Yingquan; Wang Xianhua; Zhang Wennan; Chen Hahnping. Co-gasification of coal and biomass: Synergy, characterization and reactivity of the residual char. Bioresource Technology, 2017, 244: 1-7.
    83.    Yang, Haiping; Coolman, Robert; Karanjkar, Pranav; Wang, Haoyi; Dornath, Paul; Chen, Hanping; Fan, Wei; Conner, William Curtis; Mountziaris, T. J.; Huber, George*. The effects of contact time and coking on the catalytic fast pyrolysis of cellulose. Green Chemistry, 2017, 19(1): 286-297.
    84.    Li, Bin*; Wei, Liangyuan; Shao, Jingai; Wang, Xianhua; Yang, Haiping*; Chen, Hanping. Absorption-enhanced steam gasification of biomass for hydrogen production: Effects of calcium-based absorbents and NiO-based catalysts on corn stalk pyrolysis-gasification. International Journal of Hydrogen Energy, 2017, 42(9): 5840-5848.
    85.    Zhang, Xiong; Zhang, Shihong; Yang, Haiping*; Shao, Jingai *; Chen, Yingquan; Liao, Xinjie; Wang, Xianhua; Chen, Hanping. Generalized two-dimensional correlation infrared spectroscopy to reveal mechanisms of CO2 capture in nitrogen enriched biochar. Proceedings of the Combustion Institute, 2017, 36(3): 3933-3940.    
    86.    Application of biomass pyrolytic polygeneration technology using retort reactors. Yang Haiping, Liu Biao,Chen Yingquan*, Chen Wei,Yang Qing,Chen Hanping. Bioresource Technology,2016,200:64-71 (ESI)
    87.    (IF:6.669   Citation:29   October 19, 2015)
    88.    Biomass Pyrolytic Polygeneration of Tobacco Waste: Product Characteristics and Nitrogen Transformation. Chen Hanping, Lin Guiying, Chen Yingquan, Chen, Wei, Yang, Haiping. Energy & Fuels, 2016, 9(1):126-130.
    89.    Effect of Carboxymethyl Cellulose Binder on the Quality of Biomass Pellets. Si Yaohui, Hu Junhao, Wang Xianhua, Yang Haiping, Chen Yingquan, Shao Jingai, Chen Hanping. Energy & Fuels, 2016. 30(7): 5799-5808
    90.    Sulfur behavior during coal combustion in oxy-fuel circulating fluidized bed condition by using TG-FTIR. Tian Luning,Yang Wei,Chen Zhenhui,Wang Xianhua,Yang Haiping,Chen Hanping. Journal of the Energy Institute. 2016,89(2):264-270
    91.    The densification of bio-char: Effect of pyrolysis temperature on the qualities of pellets. Hu Qiang,Yang Haiping,Yao Dingding,Zhu Danchen,Wang Xianhua,Shao Jingai,Chen Hanping. Bioresource Technology. 2016,200:521-527
    92.    Biomass pyrolysis for nitrogen-containing liquid chemicals and nitrogen-doped carbon materials. Chen, Wei, Yang, Haiping, Chen, Yingquan, Chen, Xu, Fang, Yang, Chen, Hanping. Journal of Analytical and Applied Pyrolysis, 2016. 120: 186-193 (46)
    93.    Biomass Pyrolytic Polygeneration System: Adaptability for Different Feedstocks. Chen, Yingquan, Yang Haiping, Wang Xianhua, Chen Wei, Chen Hanping. ENERGY & FUELS 2016,30(1):414-422
    94.    Hydrogen production from biomass gasification using biochar as a catalyst/support. Yao, Dingding, Hu, Qiang , Wang, Daqian , Yang, Haiping , Wu, Chunfei, Wang, Xianhua , Chen, Hanping. Bioresource Technology. 2016,216:159-164
    95.    Hydrogen production from pyrolysis catalytic reforming of cellulose in the presence of K alkali metal.Zou, Jun, Yang, Haiping , Zeng, Zhiwei ,Wu, Chunfei , Williams, Paul T.,Chen Hanping., International Journal of Hydrogen Energy. 2016, 41(25):10598-10607
    96.     Greenhouse gas emissions of a biomass-based pyrolysis plant in China. Yang Qing,Han Fei,Chen Yingquan,Yang Haiping *, Chen Hanping. Renewable and Sustainable Energy Reviews,2016,53:1580-1590.    
    97.    The effect of steam on the catalytic fast pyrolysis of cellulose, Green Chemistry,H. Yang, R. J. Coolman, P. Karanjkar, H. Wang, Z. Xu, H. Chen, T. J. Moutziaris , G. W. Huber. 2015, 17, 2912–2923
    98.    Chemical structure evolution of char during the pyrolysis of cellulose. Xin Shanzhi, Chen Yingquan,Yang Haiping *,Yang Mingfa,Chen Lei,Wang Xianhua,Chen Hanping. Journal of Analytical and Applied Pyrolysis,2015,116:263-271.
    99.    Influence of Inherent Silicon and Metals in Rice Husk on the Char Properties and Associated Silica Structure Haiping Yang, Biao Liu, Yingquan Chen,* Bin Li, and Hanping Chen. Energy Fuels 2015, 29, 7327−7334
    100.    Fusion and transformation properties of the inorganic components in biomass ash. SL Du, HP Yang*, KZ Qian, XH Wang, HP Chen. Fuel, 2014, 117, Part B : 1281-1287
    101.    Effect of catalysts on the reactivity and structure evolution of char in petroleum coke steam gasification. Y Li, HP Yang*, JH Hu, XH Wang, HP Chen. Fuel, 2014, 117, Part B : 1174-1180
    102.    Torrefaction of agriculture straws and its application on biomass pyrolysis poly-generation. YQ Chen, HP Yang*, Q Yang, HM Hao, B Zhu, H Chen. Bioresource Technology, 2014, 156: 70–77
    103.    Evolution of functional groups and pore structure during cotton and corn stalks torrefaction and its correlation with hydrophobicity. YQ Chen, Biao Liu, HP Yang *, Q Yang, H Chen Fuel, 2014, 137: 41-48.
    104.    Hydrogen production from catalytic reforming of the aqueous fraction of pyrolysis bio-oil with modified Ni/Al catalysts. DD Yao, CF Wu, HP Yang*, Q Hu, MA Nahil, HP Chen, P T. Williams. International J. of Hydrogen Energy, 2014,39:14642-14652,
    105.    The enhancing mechanism of calcium oxide on water gas shift reaction for hydrogen production. B Li, LY Wei, HP Yang*, XH Wang , HP Chen. Energy, 2014, 68 :248-254
    106.    Fractional condensation of multicomponent vapors from pyrolysis of cotton stalk. HQ Sui, HP Yang*, JA Shao, XH Wang, YC Li, HP Chen. Energy& Fuels, 2014, 28(8): 5095-5102
    107.    Effect of oxygen and steam on gasification of palm oil wastes. SL Du, HP Yang*, XH Wang, SH Zhang, HP Chen. Proceedings of the ICE - Waste and Resource Management, 2014, 167, ( 1):25 –34
    108.    Characteristics of the Temperature Distribution and Product Gas Evolving of an Updraft Biomass Gasifier. Bin Li , HP Chen , HP Yang*, XH Wang Shihong Zhang. Energy Fuels, 2013, 27 (3), pp 1460–1465
    109.    Assessment of pyrolysis polygeneration of biomass based on major components: Product characterization and elucidation of degradation pathways. S Xin, HP Yang*, Y Chen, X Wang, H Chen. Fuel, 20131,13, 266–273
    110.    Influence of NH3/CO2 Modification on the Characteristic of Biochar and the CO2 Capture. X Zhang, S Zhang, HP Yang*, Tao S, Y Chen. BioEnergy Research, 2013, 6, (4):1147-1153
    111.    The influence of alkali and alkaline earth metal compounds on pyrolysis of peanut shell. XH Wang, HP Chen, HP Yang*, J Wang, F Xin. Asia-Pac. J. Chem. Eng. 2012,7(3):463-468
    112.    Influence of pyrolysis condition and coal type on char gasification reactivity. XH Wang, HP Chen, HP Yang*, FD Ju, SH Zhang. Asia-Pac. J. Chem. Eng. 2012,7(S2): 173-176
    113.    Biomass-Based Pyrolytic Polygeneration system on Cotton Stalk Pyrolysis: Influence of Temperature. YQ Chen, HP Yang*, XH Wang, HP Chen, SH, Zhang. Bioresource Technology 2012, 107: 411–418
    114.    Experimental Investigation of Biomass Gasification in a Fluidized Bed Reactor. Chen HP, Li B, Yang HP*, Zhang SH, Wang XH. Energy & Fuels, 2008, 22(5), 3493-3498
    115.    Pressurized pyrolysis and gasification of Chinese typical coal samples, Chen HP, Luo ZW, Yang HP*, Ju FD, Zhang SH. Energy & Fuel, 2008. 22(2): 1136-1141.
    116.    Influence of pressure on coal pyrolysis and char gasification, Yang HP, Chen HP, Ju FD, et al. Energy & Fuels, 2007, 21(6): 3165-3170.
    117.    Prediction of gaseous products from biomass pyrolysis through combined kinetic and thermodynamic simulations, Lee D.H., Yang HP, Yan R., Liang T.D. Fuel, 2007, 86: 410-417
    118.    Characteristics of hemicellulose, cellulose and lignin pyrolysis, HP Yang, R. Yan, HP Chen, DH Lee, CG Zheng. Fuel. 2007, 86: 1781-1788
    119.    (IF: 5.128   Citation:2896   January 10, 2007)
    120.    The effect of pressure and temperature on coal pyrolysis gasification, Chen H.P., Yang HP*, Ju F.D. Wang J., Zhang S.H., Xu M.H. Asia-Pac. J. Chem. Eng. 2007, 2(3): 203-212
    121.    An in-depth investigation of biomass pyrolysis based on three major components: xylan, cellulose and lignin, Yang HP, Yan R., Chen H.P., Liang T.D., Lee D.H., Zheng C.G. Energy & Fuels, 2006, 20(1):388-393.
    122.    Mechanism of palm oil waste pyrolysis in a packed bed, Yang HP, Yan R., Chen H.P., Liang T.D., Lee D.H., Zheng C.G. Energy & Fuels, 2006, 20: 1321-1328
    123.    Influence of mineral matter on pyrolysis of palm oil wastes, Yang HP, Yan R., Chen HP, Liang TD, Lee DH, Zheng CG. Combustion and Flame, 2006, 146, 605–611
    124.    Pyrolysis of palm oil wastes for enhanced production of hydrogen rich gases, Yang HP, Yan R, Chen HP, Liang TD, Lee DH, Zheng CG, Fuel Processing Technology, 2006, 87: 935-942
    125.    Influence of temperature on the distribution of gaseous products from pyrolyzing palm oil wastes, Yan R, Yang, HP, Chen HP, Chin T, Liang TD, Zheng CG. Combustion and Flames, 2005, 142: 24-32
    126.    Thermogravimetric Analysis-Fourier Transform Infrared Analysis of Palm Oil Waste Pyrolysis, Yang HP, Yan R, Chen HP, Chin T, Liang TD, Zheng CG. Energy & Fuels 2004, 18, 1814-1821

所获荣誉和奖励

    5)主要学术奖励
        2021 中国自然科学基金杰出青年基金
        2021 杰出论文奖-38th 国际燃烧会议
        湖北省自然科学奖一等奖:生物质全组分热分解机理与产物高值化调控方法 2020(第二)
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