个人简介
陈良勇 能源工程系(能源转换及其过程测控教育部重点实验室)研究员
个人简介 教学课程 科研、教改项目 论文&专著 专利申请 荣誉、奖励 指导学生
陈良勇,1977年出生,现为东南大学能源与环境学院研究员。分别于山东大学能源与动力工程学院、东南大学能环学院攻读学士、博士学位,并先后于山东电力集团公司菏泽发电厂(助理工程师)、南京工业大学能源科学与工程学院(讲师)、美国肯塔基大学应用能源研究中心(Center for Applied Energy Research, University of Kentucky,博士后、副研究员和高级研究员)和东南大学能源与环境学院任职(研究员)。
主要从事能源清洁利用方向的教学与科研。2009年至今,作为项目负责人或项目合作负责人获得国家自然科学基金委、美国能源部(US-DOE)、肯塔基州政府和美国企业联盟的多个研发项目资助,经费总额分别达到¥140万和$400万(在美项目)。其中,以第一负责人承担国家自然科学基金青年基金1项(¥25万),美国能源部项目1项 ($60万);以合作负责人从事美国能源部资助项目3项 (共$251万);美国能源部项目和企业联盟项目负责课题2项(共约$85万)。入职东南大学(2017.09)后在研项目金额约¥300万。已在国内外核心发表学术论文30余篇,其中以第一作者发表SCI收录论文10篇,EI收录论文8篇,参与Handbook of Chemical Looping Technology(化学链技术手册,Wiley 出版社)的编写,中国和美国专利各1项,在申请中国发明专利3项。讲授过《工程热力学》《锅炉原理》《燃烧学》《汽轮机原理》《锅炉课程设计》等课程。
教学课程
本科生课程: 《汽轮机原理》
科研 教改项目
东南大学(在研项目)
(1)基于化学链的能源与化工产品转化技术研究,2018年江苏省“双创人才”项目,¥100万.
(2)煤-载氧体化学链燃烧反应促进与抑制机理,国家重点研发计划“煤的化学链燃烧和气化技术”子课题, 2018.07-2021.06. 2018YFB0605401-04,¥23万,项目负责人.
(3)基于化学链的高含水中药渣高效气化制备合成气技术,2019-2020,2242019K3DZ08,¥30万,项目负责人.
(4)木质素热催化解聚制备酚类单体、二聚体,国家重点研发计划“纤维素类生物质催化制备生物航油技术研究与示范”子课题,2019.02-2023.01,2018YFB1501503-02,¥120万,项目负责人.
(5)尖晶石及钙钛矿型载氧体在化学链工艺中的稳定性及快速失效机理研究(引进人才自由选题资助项目),3203008203,¥30万,项目负责人。
美国肯塔基大学应用能源研究中心项目
(1) Application of Chemical Looping with Spouting Fluidized Bed for Hydrogen-rich Syngas Production from Catalytic Coal Gasification, supported by U.S. DOE and NETL (DE-FE-0024000, $602,128; 2014-2016; Principal Investigator).
(2) Application of Spouting Fluidized Bed to Coal-fueled Pressurized Chemical Looping Combustion to Improve Plant Efficiency and Reduce Process Complexity, supported by U.S. DOE and NETL (2015-2017, DE-FE0025098, $875,779; Co-Investigator).
(3) US-China Clean Energy Research CenterAdvanced Coal Technologies, “CERC 2.0 CLC Development” Phase II Planning, “Systematic Study of Coal-fueled Chemical Looping Combustion”2015–2020, supported by U.S. DOE and NETL (2015-2020, DE-PI0000017, 10-733-UKRF-2; $1,102,500; Co-Investigator).
(4) Coal-fueled PCLC combined cycle for power generation and CO2 capture, supported by Kentucky Energy and Environment Cabinet, Department for Energy Development & Independence (2013/07-2016/06,PON2 127 1300002874 1 &PON2 127 1400003262 1; $534,977; Co-Investigator).
(5) Solid-Fueled Pressurized Chemical Looping with Flue-Gas Turbine Combined Cycle for Improved Plant Efficiency and CO2 Capture, supported by U.S. DOE (2012-2013, DE-FOA-0000636, $755,300; Task Leader).
(6) Energy Research Carbon Management Research Group consortium at Uky-CAER (American Electric Power, Duke Energy, East Kentucky Power COOP, Electric Power Research Institute, L&GE and KU Service Company and Kentucky Department of Energy Development and Independence, for cost share, Co-Investigator).
南京工业大学
(1)高硫石油焦催化气化制氢耦合脱碳、脱硫的机理研究 (自然科学基金青年基金, 51106069,2012-2014, ¥25万, 项目负责人).
(2)高硫石油焦催化气化制氢-脱碳-脱硫系统特性研究(江苏省科技厅资助, 11KJB480002, 2012-2013, ¥3万, 项目负责人).
(3)用于低品位热源的有机蒸汽发电系统的换热器/冷凝器/ 蒸发器系列化设计 (2011-2012, ¥12万,参与).
(4)应用于动车牵引变流器的热交换器设计、测试与开发 (2011-2012, 参与,¥50万).
(5)低温多效海水淡化火力发电厂余热利用可行性研究 (2012-2013, 参与,¥49万).
专著:
Liangyong Chen, Zhen Fan, Rui Xiao, Kunlei, Liu, Chapter 5. Pressurized Chemical Looping Combustion for Solid Fuel, Handbook of Chemical Looping Technology. Wiley Press, 2018.
研究领域
1、能源清洁利用,包括:燃料的热化学转化;化学链燃烧发电与气化技术;
2、固体废弃物资源化利用;
3、大型能源系统的设计与开发;
4、固体燃料气化与流化床技术;
5、用于燃料转化和污染物控制的固体吸收剂、催化剂开发。
近期论文
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[1]Liangyong Chen, Neng Qian. The effects of water vapor and coal ash on the carbonation behavior of CaO-sorbent supported by γ-Al2O3 for CO2 capture. Fuel Processing Technology. 2018, 177: 200-209.
[2]Liangyong Chen, Liang Kong, Jinhua Bao, Megan Combs, Heather S Nikolic, Zhen Fan, Kunlei Liu. Experimental Evaluations of Solid-fueled Pressurized Chemical Looping Combustion- The effects of pressure, solid fuel and iron-based oxygen carriers. Applied Energy. 2017, 195: 1012–1022.
[3]Liangyong Chen, Jinhua Bao, Liang Kong, Megan Combs, Heather S Nikolic, Zhen Fan, and Kunlei Liu. Activation of Ilmenite as an Oxygen Carrier for Solid-fueled Chemical Looping Combustion. Applied Energy. 2017,197:40–51.
[4]Liangyong Chen, Li Yang, Fang Liu, Heather S Nikolic, Zhen Fan, Kunlei Liu. Evaluation of multi-functional iron-based carrier from bauxite residual for H2-rich syngas production via chemical-looping gasification. Fuel Processing Technology, 2017, 156: 185-194.
[5]Liangyong Chen, Jinhua Bao, Liang Kong, Megan Combs, Heather S. Nikolic, Zhen Fan, Kunlei Liu. The direct solid-solid reaction between coal char and iron-based oxygen carrier and its contribution to solid-fueled chemical looping combustion. Applied Energy, 2016, 184 (15): 9-18.
[6]Liangyong Chen, Yi Zhang, Fang Liu, Kunlei Liu. Development of a Cost-Effective Oxygen Carrier from Red Mud for Coal-Fueled Chemical-Looping Combustion. Energy Fuels, 2015, 29 (1), 305–313.
[7]Rui. X, Liangyong Chen, Chiranjib Saha. Pressurized chemical-looping combustion of coal using an iron ore as oxygen carrier in a pilot-scale unit. International Journal of Greenhouse Gas Control., 2012, 10: 363–373.
[8]Liangyong Chen, Duan Yufeng, Huang Zhijun, Jiao Yonggang, Meng Suli, Changsui Zhao. Slip flow of coal water slurries in pipelines. Fuel, 2010, 89(5): 1119-1126.
[9]Liangyong Chen, Yufeng Duan, Changsui Zhao, Liguo Yang. Rheological behavior and wall slip of concentrated coal water slurry in pipe flows. Chemical Engineering and Processing, 2009, 48: 1241-1248.
[10]Liangyong Chen, Yufeng Duan, Wenhao Pu, Changsui Zhao. CFD simulation of coal-water slurry flowing in Horizontal Pipelines. Korean J. Chem. Eng., 2009, 26(4): 1144-1154.