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姓 名 陈应泉 性 别
职 称 副教授 毕业学校 伟德国际1946源自英国
个人主页 http://sklccfbg.energy.hust.edu.cn
联系方式
邮 箱 chenyingquan@hust.edu.cn
通讯地址 伟德国际1946源自英国清洁能源大楼N1209
个人资料简介
2007年毕业于伟德国际1946官方网,获学士学位;2014年在伟德国际1946源自英国煤燃烧国家重点实验室取得热能工程专业博士学位。主要从事生物质热解、储能用生物炭材料、高温固体颗粒热储能等方面的研究。作为第一负责人主持承担国家自然科学基金面上项目1项、国家重点专项子课题2项、国家自然科学基金青年基金1项、中国博士后科学基金特别资助1项和面上项目2项。获得2020年湖北省科学技术奖“自然科学奖”一等奖(排名第3),第十七届中国专利优秀奖(排名第2)和 “全球可再生能源领域最具投资价值的领先技术蓝天奖” (排名第2),并参与编制了国家标准《生物质热解炭气油多联产工程技术规范 第一部分:工业设计》。

教育及工作经历

    2003.09-2007.06    武汉,伟德国际1946源自英国,热能工程专业,本科
    2007.09-2014.01    武汉,伟德国际1946源自英国,热能工程专业,博士,导师:陈汉平
    2014.02-2016.05    武汉,伟德国际1946源自英国,材料科学专业,博士后,合作导师:黄云辉
    2016.07-2018.06武汉,伟德国际1946源自英国,热能工程专业,博士后,合作导师:陈汉平
    2018.07-2020.10    武汉,伟德国际1946源自英国煤燃烧国家重点实验室,讲师
    2020.11-至今 武汉,伟德国际1946源自英国煤燃烧国家重点实验室,副教授

研究方向

    1)    生物质基碳材料制备与应用,如超级电容器、非对称锂钠电池等
    2)    生物质热解机理
    3)    生物质热解多联产
    4)  高温固体颗粒热储能

科研项目

    [1] 国家重点研发计划,子课题,碳酸盐分解流态化反应器研发与百吨级示范平台建造, 2022.12-2027.11;
    [2] 国家重点研发计划,子课题,基于热解过程调控的热解残渣预调质技术,2018.12-2022.11;
    [3] 国家自然科学基金,面上项目,生物质选择性富氮热解过程中氮素迁徙与功能化调控机制的基础研究,2019.1-2022.12;
    [4]国家自科基金青年项目,生物质富氮热解联产高值含氮油炭产品的机制研究,25万元,2015.01-2017.12
    [5]中国博士后基金特别资助项目,微藻与废弃塑料混合催化热解制备高值油炭产品的研究, 2017.06-2018.06
    [6]中国博士后基金面上项目,废塑料热解催化联产富氢气体及碳纳米管, 2016.10-2017.10
    [7]中国博士后基金面上项目,生物质富氮热解联产高值油炭产品的机制研究, 2014.06-2015.06

代表性论文与专利

    [1]    Xia, Sunwen; Yang, Haiping; Lei, Shuaishuai; Lu, Wang; Cai, Ning; Xiao, Haoyu; Chen, Yingquan*; Chen, Hanping. Iron salt catalytic pyrolysis of biomass: Influence of iron salt type. Energy, 2023, 262: 125415 -
    [2]    Zhang, Weixi; Tan, Haodi; Chen, Yingquan*; Yang, Haiping; Chen, Hanping. Pyrolysis of hydrochar from hydrothermal treatment of kitchen waste: Effects of temperature, catalysts, and KOH addition. Journal of Analytical and Applied Pyrolysis, 2022, 167: 105664 -
    [3]    Lu, Wang; Lei, Shuaishuai; Chen, Xu; Sun, Lin; Xia, Sunwen; Bartocci, Pietro; Chen, Yingquan*; Yang, Haiping; Chen, Hanping. Effect of support type and crystal form of support in the catalytic gasification of old corrugated containers using Fe-based catalysts. Waste Management, 2022, 151: 163 - 170
    [4]    Qian, Yingying; Liu, Peiqi; Zhuang, Haifeng; Chen, Lin; Jia, Liangyuan; Yang, Jiuzhong; Pan, Yang; Chen, Yingquan*. Study on the reaction mechanism of nitrogenous compounds in zeolite-catalyzed pyrolysis of blue-green algae. Fuel Processing Technology, 2022, 236: 107413 -
    [5]    Chen, Yingquan; Zhang, Yi; Yang, Haiping; Zhang, Han; Zhang, Shihong; Chen, Hanping. Influence of interaction between biomass inorganic components and volatiles on corncob pyrolysis and char structure. Fuel Processing Technology, 2022, 235: 107360 -
    [6]    Yang, Haiping; Lei, Shuaishuai; Xu, Kun; Fang, Yang; Chen, Xu; Chen, Yingquan*; Wang, Xianhua; Chen, Hanping. Catalytic pyrolysis of cellulose with sulfonated carbon catalyst to produce levoglucosenone. Fuel Processing Technology, 2022, 234: 107323 -
    [7]    Chen, Peiao; Gong, Meng; Chen, Yingquan*; Zhou, Zhongyue; Liu, Ming; Fang, Yang; Chen, Wei; Yang, Haiping; Chen, Hanping. Thermal decomposition pathways of phenylalanine and glutamic acid and the interaction mechanism between the two amino acids and glucose. Fuel, 2022, 324: 124345 -
    [8]    Xiao, Haoyu; Harding, Jonathan; Lei, Shuaishuai; Chen, Wei; Xia, Sunwen; Cai, Ning; Chen, Xu; Hu, Junhao; Chen, Yingquan*; Wang, Xianhua; Tu, Xin; Yang, Haiping; Chen, Hanping. Hydrogen and aromatics recovery through plasma-catalytic pyrolysis of waste polypropylene. Journal of Cleaner Production, 2022, 350: 131467 -
    [9]    Zhang, Han; Liu, Ming; Yang, Haiping; Jiang, Hao; Chen, Yingquan*; Zhang, Shihong; Chen, Hanping. Impact of biomass constituent interactions on the evolution of char's chemical structure: An organic functional group perspective. Fuel, 2022, 319: 123772 -
    [10]    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 -
    [11]    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
    [12]    Zhang Xiong; Zheng Huanhuan; Wu Jing; Chen Wei; Chen Yingquan*; Xuezhi Gao; Yang Haiping; Chen Hanping. Physicochemical and adsorption properties of biochar from biomass-based pyrolytic polygeneration: effects of biomass species and temperature. Biochar, 2021, 3: 657 - 670
    [13]    Xia, Sunwen; Cai, Ning; Lu, Wang; Zhou, Hewen; Xiao, Haoyu; Chen, Xu; Chen, Yingquan*; Yang, Haiping; Wang, Xianhua; Wang, Shurong; Chen, Hanping. Reaction kinetics, mechanism, and product analysis of the iron catalytic graphitization of cellulose. Journal of Cleaner Production, 2021, 329: 129735 -
    [14]    Xia, Mingwei; Chen, Wei; Wu, Jing; Chen, Yingquan*; Yang, Haiping; Chen, Xu; Zhu, Danchen; Chen, Hanping. The critical role of anions in the porous biochar structure and potassium release during the potassium-assisted pyrolysis process. Green Chemistry, 2021, 23: 9589 - 9599
    [15]    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 & Fuels, 2021, 35: 16629 - 16636
    [16]    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 -
    [17]    Wu, Jing; Xia, Mingwei; Zhang, Xiong; Chen, Yingquan*; Sun, Fei; Wang, Xianhua; Yang, Haiping; Chen, Hanping. Hierarchical porous carbon derived from wood tar using crab as the template: Performance on supercapacitor. Journal of Power Sources, 2020, 455: 227982 -
    [18]    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: 3412 - 3421
    [19]    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 -
    [20]    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
    [21]    Wang, Lei; Li, Jian; Chen, Yingquan*; Yang, Haiping; Shao, Jingai; Zhang, Xiaoyu; 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, 2019, 251: 496 - 505
    [22]    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
    [23]    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, 248: 1 - 7
    [24]    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
    [25]    Tang, Ziyue; Chen, Wei; Chen, Yingquan*; Yang, Haiping; Chen, Hanping. Co-pyrolysis of microalgae and plastic: Characteristics and interaction effects. Bioresource Technology, 2019, 274: 145 - 152
    [26]    Liu, Huihui; Chen, Yingquan*; Yang, Haiping; Gentili, Francesco G.; Soderlind, Ulf; Wang, Xianhua; Zhang, Wennan; Chen, Hanping. Hydrothermal carbonization of natural microalgae containing a high ash content. Fuel, 2019, 249: 441 - 448
    [27]    Wang, Xianhua; Wu, Jing; Chen, Yingquan*; Pattiya, Adisak; Yang, Haiping; Chen, Hanping. Comparative study of wet and dry torrefaction of corn stalk and the effect on biomass pyrolysis polygeneration. Bioresource Technology, 2018, 258: 88 - 97
    [28]    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: 9514 - 9521
    [29]    Chen, Wei; Li, Kaixu; Xia, Mingwei; Yang, Haiping; Chen, Yingquan*; Chen, Xu; Che, Qingfeng; Chen, Hanping. Catalytic deoxygenation co-pyrolysis of bamboo wastes and microalgae with biochar catalyst. Energy, 2018, 157: 472 - 482
    [30]    Xia, Sunwen; Xiao, Haoyu; Liu, Ming; Chen, Yingquan*; Yang, Haiping; Chen, Hanping. Pyrolysis behavior and economics analysis of the biomass pyrolytic polygeneration of forest farming waste. Bioresource Technology, 2018, 270: 189 - 197
    [31]    Gao, Ying; Wang, Xianhua; Chen, Yingquan*; Li, Pan; Liu, Huihui; Chen, Hanping. Pyrolysis of rapeseed stalk: Influence of temperature on product characteristics and economic costs. Energy, 2017, 122: 482 - 491
    [32]    Li, Jian; Chen, Yingquan*; Yang, Haiping; Zhu, Danchen; Chen, Xu; Wang, Xianhua; Chen, Hanping. Correlation of Feedstock and Bio-oil Compound Distribution. Energy & Fuels, 2017, 31: 7093 - 7100
    [33]    Chen, Hanping; Si, Yaohui; Chen, Yingquan*; Yang, Haiping; Chen, Deming; Chen, Wei. NOx precursors from biomass pyrolysis: Distribution of amino acids in biomass and Tar-N during devolatilization using model compounds. Fuel, 2017, 187: 367 - 375
    [34]    Chen, Wei; Yang, Haiping; Chen, Yingquan*; Xia, Mingwei; Yang, Zixu; Wang, Xianhua; Chen, Hanping. Algae pyrolytic poly-generation: Influence of component difference and temperature on products characteristics. Energy, 2017, 131: 1 - 12
    [35]    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: 6570 - 6579
    [36]    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. Bioresource Technology, 2017, 246: 101 - 109
    [37]    Wu, Ke; Gao, Ying; Zhu, Guangkuo; Zhu, Jinjiao; Yuan, Qiaoxia; Chen, Yingquan*; Cai, Mengzi; Feng, Liang. Characterization of dairy manure hydrochar and aqueous phase products generated by hydrothermal carbonization at different temperatures. Journal of Analytical and Applied Pyrolysis, 2017, 127: 335 - 342
    [38]    Chen, Xu; Yang, Haiping; Chen, Yingquan*; Chen, Wei; Lei, Tingzhou; Zhang, Wennan; Chen, Hanping. Catalytic fast pyrolysis of biomass to produce furfural using heterogeneous catalysts. Journal of Analytical and Applied Pyrolysis, 2017, 127: 292 - 298
    [39]    Hu, Junhao; Chen, Yingquan*; Qian, Kezhen; Yang, Zixu; Yang, Haiping; Li, Yang; Chen, Hanping. Evolution of char structure during mengdong coal pyrolysis: Influence of temperature and K2CO3. Fuel Processing Technology, 2017, 159: 178 - 186
    [40]    Zhu, Danchen; Yang, Haiping; Chen, Yingquan*; Li, Zhi; Wang, Xianhua; Chen, Hanping. Fouling and Slagging Characteristics during Co-combustion of Coal and Biomass. Bioresources, 2017, 12: 6322 - 6341
    [41]    Chen, Yingquan; Yang, Haiping; Wang, Xianhua; Chen, Wei; Chen, Hanping. Biomass Pyrolytic Polygeneration System: Adaptability for Different Feedstocks. Energy & Fuels, 2016, 30: 414 - 422
    [42]    Chen, Hanping; Lin, Guiying; Chen, Yingquan*; Chen, Wei; Yang, Haiping. Biomass Pyrolytic Polygeneration of Tobacco Waste: Product Characteristics and Nitrogen Transformation. Energy & Fuels, 2016, 30: 1579 - 1588
    [43]    Yang, Haiping; Liu, Biao; Chen, Yingquan*; Chen, Wei; Yang, Qing; Chen, Hanping. Application of biomass pyrolytic polygeneration technology using retort reactors. Bioresource Technology, 2016, 200: 64 - 71
    [44]    Chen, Wei; Yang, Haiping; Chen, Yingquan*; Chen, Xu; Fang, Yang; Chen, Hanping. Biomass pyrolysis for nitrogen-containing liquid chemicals and nitrogen-doped carbon materials. Journal of Analytical and Applied Pyrolysis, 2016, 120: 186 - 193
    [45]    Yang, Haiping; Huan, Baojun; Chen, Yingquan*; Gao, Ying; Li, Jian; Chen, Hanping. Biomass-Based Pyrolytic Polygeneration System for Bamboo Industry Waste: Evolution of the Char Structure and the Pyrolysis Mechanism. Energy & Fuels, 2016, 30: 6430 - 6439
    [46]    Gao, Ying; Yu, Bo; Xin, Shanzhi; Mi, Tie; Chen, Yingquan*; Yuan, Qiaoxia; Yang, Longyuan; Li, Pan. Use of Extreme Vertices Method for Analysis of How Proportional Composition Affects Component Interactions and Product Distribution during Hydrothermal Treatment. Bioresources, 2016, 11: 4899 - 4920
    [47]    Yang, Haiping; Liu, Biao; Chen, Yingquan*; Li, Bin; Chen, Hanping. Influence of Inherent Silicon and Metals in Rice Husk on the Char Properties and Associated Silica Structure. Energy & Fuels, 2015, 29: 7327 - 7334
    [48]    Chen, Yingquan; Liu, Biao; Yang, Haiping; Yang, Qing; Chen, Hanping. Evolution of functional groups and pore structure during cotton and corn stalks torrefaction and its correlation with hydrophobicity. Fuel, 2014, 137: 41 - 49
    [49]    Chen, Yingquan; Yang, Haiping; Yang, Qing; Hao, Hongmeng; Zhu, Bo; Chen, Hanping. Torrefaction of agriculture straws and its application on biomass pyrolysis poly-generation. Bioresource Technology, 2014, 156: 70 - 77
    [50]    Chen, Yingquan; Yang, Haiping; Wang, Xianhua; Zhang, Shihong; Chen, Hanping. Biomass-based pyrolytic polygeneration system on cotton stalk pyrolysis: Influence of temperature. Bioresource Technology, 2012, 107: 411 – 418
    [51]    王贤华;吴晶;陈应泉;杨海平;邵敬爱;张雄;陈伟;张世红;陈汉平. 一种稻壳分级联产能源化学品及硅炭材料的系统及方法. 专利号:ZL201910060347.8. 授权日:20200714
    [52]    陈应泉;曲磊;杨海平;邵敬爱;曾阔;李佳硕;胡俊豪;王贤华;陈汉平. 一种CO2气氛下生物质连续水热糠醛制备系统及方法. 专利号:ZL201811545178.9 授权日:20191224
    [53]    陈伟;陈应泉;杨海平;王贤华;邵敬爱;张雄;杨晴;张世红;陈汉平. 一种生物质分步活化制备多孔炭的方法. 专利号:ZL201811147626.X 授权日:20200710
    [54]    陈汉平;夏明巍;陈应泉;杨海平;邵敬爱;杨晴;陈伟;王贤华;张世红. 一种用于含硅生物质自碳热还原的连续式反应装置及方法. 专利号:ZL201910060346.3 授权日:20200707
    [55]    王贤华;郑迪维娜;陈应泉;杨海平;杨晴;李佳硕;曾阔;胡俊豪;陈汉平. 一种利用农林废弃物制备左旋葡聚糖的方法. 专利号:ZL201910139055.3 授权日:20200918
    [56]    陈汉平;陈旭;陈应泉;杨海平;王贤华;邵敬爱;张雄;杨晴;张世红. 一种富含呋喃类物质的液体油及其制备方法. 专利号:ZL201811189432.6 授权日:20200121
    [57]    王贤华;曲磊;陈应泉;杨海平;杨晴;曾阔;陈伟;张世红;陈汉平. 一种CO2气氛下农林废弃物水热液化糠醛制备方法. 专利号:ZL201811594824.0 授权日:20200811
    [58]    杨海平;李建;陈应泉;杨晴;张雄;胡俊豪;王贤华;张世红;陈汉平. 一种熔融盐供热的流化床热解反应炉及反应方法. 专利号:ZL201910060349.7 授权日:20200814
    [59]    杨海平; 白小薇; 陈应泉; 陈伟; 陈旭; 邵敬爱; 杨晴; 曾阔; 王贤华; 张世红; 陈汉平. 一种生物质联产糠醛和碳量子点的方法及产品. 专利号: ZL201910208791.X. 授权日: 2019年3月19日.
    [60]    陈伟; 陈应泉; 杨海平; 王贤华; 邵敬爱; 杨晴; 曾阔; 张雄; 张世红; 陈汉平. 一种富氮催化热解联产含氮杂环化学品和掺氮炭的系统. 专利号: ZL202010144456.0. 授权日: 2020年3月4日.
    [61]    陈伟; 陈应泉; 杨海平; 王贤华; 邵敬爱; 杨晴; 张雄; 陈旭; 张世红; 陈汉平. 一种富氮催化热解联产含氮杂环化学品和掺氮炭的方法. 专利号: ZL202010144457.5. 授权日: 2020年3月4日.
    [62]    陈伟; 杨海平; 陈应泉; 王贤华; 邵敬爱; 杨晴; 张雄; 陈旭; 张世红; 陈汉平. 一种利用等离子体制备掺氮炭和含氮杂环的方法. 专利号: ZL202010144932.9. 授权日: 2020年3月4日.
    [63]    陈伟; 杨海平; 陈应泉; 杨晴; 王贤华; 邵敬爱; 张雄; 陈旭; 张世红; 陈汉平. 生物质催化热解联产气液燃料、化学品和炭材料的方法. 专利号: ZL202010145157.9. 授权日: 2020年3月4日.
    [64]    陈伟; 陈应泉; 杨海平; 杨晴; 王贤华; 邵敬爱; 张雄; 曾阔; 张世红; 陈汉平. 生物质催化热解联产气液燃料、化学品和炭材料的系统. 专利号: ZL202010146371.6.  授权日: 2020年3月4日.
    [65]    杨海平 陈培骜 陈应泉 陈汉平. 耦合生物炭高温固相吸收的市政污泥热解固氮装置及方法. 专利号: ZL202111190856.6. 授权日: 2021年10月13日.

所获荣誉和奖励

    [1]    陈应泉(3/5). 生物质全组分热分解机理与产物高值化调控方法,湖北省,自然科学奖一等奖,2021年(陈汉平;杨海平;陈应泉;王贤华;张世红).
    [2]    陈应泉(2/10). 生物质热解联产联供高值化综合利用技术,联合国工业发展组织/深圳国际可持续发展科技促进中心,全球可再生能源领域最具投资价值的领先技术蓝天奖,2014年(陈汉平;陈应泉;杨海平;王贤华;李斌;熊建;何涛;杨晴;邵敬爱;张世红).
    [3]    陈应泉(2/8). 一种连续式生物质热解炭气油多联产系统,国家知识产权局,中国专利优秀奖,2015年(陈汉平;陈应泉;杨海平;王贤华;张世红;李斌;刘标;李开志)
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