中南大学 冷立健 |
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~欢迎加入“生物质热转化与资源化”课题组!~ 无需生物学科背景。能源类、化学类、计算机类、环境等相关专业背景优先考虑 姓名:冷立健 系所:新能源科学与工程系 职称:特聘教授 邮箱:[email protected];[email protected] 办公地点:中南大学本部(北校区)能源科学与工程学院113室 Researchgate: https://www.researchgate.net/profile/Lijian_Leng2?addNewPub=1 ORCID:https://orcid.org/0000-0002-0863-7036 Google Scholar: https://scholar.google.com/citations?hl=en&user=dGcVcqwAAAAJ 所在团队主页:http://faculty.csu.edu.cn/lihailong/zh_CN/index.htm ------------------------------------------------------------------------------------------------------------------- 简介:男,博士,教授,科睿唯安-全球高被引科学家,湖南省-优青,国家注册环境影响评价工程师。湖南大学工学博士毕业,博士期间曾在英国University College London联合培养;2017年10月被南昌大学聘为高层次人才(学科方向带头人)、特聘教授;2019年12月入职中南大学,被破格聘为特聘教授。 ------------------------------------------------------------------------------------------------------------------- 学术简历:本人长期从事生物质(有机固废)热转化资源化、固/储碳减排、污染控制相关研究,主持国家自然科学基金、国家重点研发计划子课题、省重大科技专项课题、省自然科学基金优秀青年项目、省自然科学基金青年项目、特聘教授启动经费、企业横向等项目;发表学术论文100余篇,Google citation 9400余次,H指数51;在Chemical Engineering Journal、Energy Conversion and Management、Bioresource Technology、Energy、Fuel、Biochar、Jounal of Cleaner Production、Science of the Total Environment等能源环境权威期刊以第一/通讯作者发表SCI论文60余篇(其中,30余篇发表在影响因子>10的期刊;11篇入选ESI 1%高被引论文;4篇入选ESI 0.1%热点论文);已获授权国家发明专利10余项,软件著作权6项。连续多年入选“全球高被引科学家”(Highly Cited Researchers,Cross-Field, Clarivate, 2021-至今)、“全球前2%顶尖科学家”(World’s Top 2% Scientists, Career-long and Single-year Impact, Stanford University, 2020-至今)等荣誉榜单。 本科生培养:主讲新能源科学与工程专业-本科生课程《生物质燃烧与热转换技术》(64课时);指导完成本科生创新项目5项,其中国家级1项;指导学生获得节能减排社会实践与科技竞赛、挑战杯等国赛、省赛奖项10余项;指导完成本科毕业论文7人(含共同指导),优秀率90%;指导本科生发表SCI论文10余篇。 研究生培养:课题组在校博士后、硕博研究生13人(含协助指导),已毕业6人,其中5人深造(陈杰峰-中南大学[email protected];冷松起-加拿大西部大学[email protected];陈杰-西湖大学[email protected];张伟进-中南大学[email protected];刘统贵-西安交通大学[email protected]);指导研究生获得研究生国家奖学金6人次(2019-陈杰;2021-陈杰峰、冷松起、张伟进;2022-张伟进、刘统贵);指导研究生发表SCI论文30余篇。 第一/通讯作者论文: 一、近五年10篇代表作: 1. Machine learning aided production of bio-oil with high energy recovery and low nitrogen content from hydrothermal liquefaction of biomass with experiment verification. Chemical Engineering Journal 2021. 425,130649 2. A novel strategy to simultaneously enhance bio-oil yield and nutrient recovery in sequential hydrothermal liquefaction of high protein microalgae. Energy conversion and management 2022. 255,115330 3. Insights into glycine pyrolysis mechanisms: Integrated experimental and molecular dynamics/DFT simulation studies. Fuel 2023. 351, 128949 4. Machine learning predicting and engineering the yield, N content, and specific surface area of biochar derived from pyrolysis of biomass. Biochar 2022. 4, 63 5. Effect of biomass type and pyrolysis temperature on nitrogen in biochar, and the comparison with hydrochar. Fuel 2021. 291, 120128 6. Co-hydrothermal carbonization of cellulose, hemicellulose, and protein with aqueous phase recirculation: Insight into the reaction mechanisms on hydrochar formation. Energy 2022. 251, 123965 7. Use of microalgae to recycle nutrients in aqueous phase derived from hydrothermal liquefaction process. Bioresource Technology 2018. 256, 529-542 8. Machine learning-aided prediction of nitrogen heterocycles in bio-oil from the pyrolysis of biomass. Energy 2023. 278, 127967 9. Surfactant assisted upgrading fuel properties of waste cooking oil biodiesel. Journal of Cleaner Production 2019. 210, 1376-1384 10. Machine-learning-aided thermochemical treatment of biomass: a review. Biofuel Research Journal 2023. 10(1),1786-1809 二、分年度统计: 2023年(?) Biofuel Research Journal 2023.10(1):1786-1809 Bioresource Technology 2023.370:128547 Bioresource Technology 2023.369:128417 Energy 2023.278:127967 Fuel 2023.335:126995 Fuel 2023.351:128949 Chemical Engineering Science 2023. accepted 2022年(11) Energy conversion and management 2022.255:115330 Biochar 2022.4:63 Bioresource Technology 2022.362:127791 Bioresource Technology 2022.358:127348 Jounal of Cleaner Production 2022.366:132668 Science of the Total Environment 2022.820:153348 Energy 2022. 251:123965 Fuel 2022.324:124690 Journal of Environmental Chemical Engineering 2022.10:107185 Journal of Analytical and Applied Pyrolysis 2022.166:105610 Journal of Renewable Materials 2022.10(6):1555-1574 2021年(10) Chemical Engineering Journal 2021.425:130649 Bioresource Technology 2021.342:126011 Bioresource Technology 2021.330:125008 Journal of Cleaner Production 2021.294:126238 Science of the Total Environment 2021.756:143679 Science of the Total Environment 2021.763:144204 Journal of Analytical and Applied Pyrolysis 2021.156:105070 Journal of Environmental Chemical Engineering 2021.9:105247 Fuel 2021. 291:120128 Algal research 2021.55:102240 2020年(10) Chemical Engineering Journal 2020. 401:126030 Bioresource Technology 2020. 315:123801 Bioresource Technology 2020. 318:124081 Bioresource Technology 2020. 298:122286 Bioresource Technology 2020. 298:122502 Science of the Total Environment 2020. 748:142383 ACS Sustainable Chem. Eng. 2020. 8:16823-16832 Chemosphere 2020. 238:124680 Energy & Fuels 2020. 34(9):10364-10383 Algal Research 2020.47: 101819 2019年(8) Journal of Cleaner Production 2019. 210: 1376-1384 Journal of Cleaner Production 2019. 238: 117960 Science of the Total Environment 2019. 664: 11–23 Science of the Total Environment 2019. 647: 210-222 Science of the Total Environment 2019. 690: 573–583 Journal of Analytical and Applied Pyrolysis 2019. 142: 104623 Energy Sources A 2019. 41: 829–43 Energy Sources A 2019. 1-10 2018年(8) Energy 2018. 161: 214-232 Energy 2018. 153: 1061–1072 Bioresource Technology 2018. 256: 529-542 Bioresource Technology 2018. 251: 49–56 Bioresource Technology 2018. 259: 156-163 Bioresource Technology 2018. 259: 181-190 Bioresource Technology 2018. 270: 627-642 Energy Sources A 2018. 2648–2659 2017年及以前(11) Energy conversion and management 2015. 101: 364–370 Bioresource Technology 2016. 200: 320-327 Energy 2015. 82: 218–228 Fuel 2016. 182: 502–508 Fuel 2015. 155: 77–85 Fuel 2015. 147: 76–81 Fuel Processing Technology 2015. 129: 8-14 Applied Surface Science 2015. 346: 223–231 Chemosphere 2015. 120: 645–652 Environmental Science Pollution Research International 2015. 22:18945–55 Bioresource Technology 2014. 167: 144-150 教育经历[1] 2006.9-2010.6 长沙理工大学 工学学士学位 | 大学本科毕业 [2] 2010.9-2012.12 湖南大学 工学硕士学位 | 硕士研究生毕业 [3] 2016.4-2017.4 University College London 其他 [4] 2013.9-2017.6 湖南大学 工学博士学位 | 博士研究生毕业 工作经历[1] 2019.12-至今 中南大学 | 能源科学与工程学院 | 特聘教授 | 在岗 [2] 2017.10-2019.12 南昌大学 | 资源环境与化工学院 | 学科方向带头人 社会兼职[1] SCI期刊编委任职:Environmental Technology & Innovation (IF=7.758, JCR Q1)、Journal of Analytical and Applied Pyrolysis (IF=6.437, JCR Q1)、Materials (IF=3.748, JCR Q1/Q2)、Journal of Renewable Materials (IF=2.115, JCR Q3/Q4)(青年/特刊)编辑。 [2] 学术组织任职:可再生能源学会生物质专委会委员、中国化工学会专业会员 [3] SCI期刊审稿人:Applied Energy;Energy Conversion and Management;Chemical Engineering Journal;Energy;Fuel;Bioresource Technology;Science of the Total Environment;Chemosphere;Energy & Fuel等 研究方向[1] 热转化资源化:实验研究生物质/有机固废热转化(水热液化/碳化、热解、气化、燃烧等)多联产固、液、气态新能源、材料、化学品;生物炭(活性炭、功能碳材料)在固/储碳减排、污染控制等方面的应用; [2] 污染控制:实验研究热化学能源化利用相关能源环境问题研究(如物质流,能量流,汞等重金属、磷的迁移转化、回收等); [3] 人工智能(机器学习等)、ReaxFF反应分子动力学模拟(MD)及密度泛函理论(DFT计算)在生物质热转化与资源化、固/储碳减排、污染控制的应用。 其他联系方式[1] 邮箱: 9287f3e5cc3850f81ed29c9f71b19e3a64bcd9dfb913a1e43e96e7e3d4e54fb629a791b1703414350e747ce9cd62931b476390b45677bef51e520da893d978f12a9a3a2b2f7ff97a7ad6ebe7086d88b53257982b9c9a5a9baf6686cee4d0ece16abf4b1838007286168bcedb77c9873145eaf08f34c1c1a070b301a0b7e613b2 [2] 邮箱: b0586a951495f10aa1556632eefd67d8d7422045dd6ec0cde97a217e2994c2ad7c17d3e3dc6fb1db41d99771bdf6d41086a2ae1d3a7ad0185d40181f2549ae482a7ad66bf17a1baf726e0d29c179eb111be68fae672bd73fcc55ef6ff16da062963cc0e951173f1379e628e7fd9f5ebade50f8dfaf4546d4f2137f9cec9a2b4b [5] 通讯/办公地址: 57c20beea043498766c6ea57b32e8523235490ea69eb8a754c6c7ac4edd9af2e731d08b336cf8820e549736b0e8a6e65acada2cc5dbd04d77e3333e026581050e9902e1cfe1cbe7516ced95fa616cb017d4aa42093080dce4471ac9afc040ecebaafd08bc8ca7e7cf16a312517f88afaca550b42f56b9a1645445772f856f111 |
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