陈皓勇科研成果
发布日期:2024-05-03 专利申请、商标注册、软件著作权、资质办理快速响应 微信:543646
姓名 | 陈皓勇 | 性别 | 男 |
学校 | 华南理工大学 | 部门 | 电力学院 |
学位 | 教授 | 学历 | 教授 |
职称 | 教授 | 联系方式 | 五山路华南理工大学电力学院电力实验楼 |
邮箱 | eehychen@scut.edu.cn | ||
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更新日期:2024年4月3日 姓 名 陈皓勇 性 别 男 出生年月 1975年10月 籍贯 民 族 汉族 政治面貌 群众 最后学历 博士研究生 最后学位 工学博士 技术职称 教授 导师类别 博、硕导 行政职务 所长 Email eehychen@scut.edu.cn 工作单位 电力学院 邮政编码 510641 通讯地址 五山路华南理工大学电力学院电力实验楼 单位电话 020-22236671 个人简介 【陈皓勇】陈皓勇,华南理工大学电力学院教授、博士生导师,风电控制与并网技术国家地方联合工程实验室、广东省绿色能源技术重点实验室、广东省风电控制与并网工程实验室常务副主任、电力经济与电力市场研究所所长。国家优秀青年科学基金获得者、教育部新世纪优秀人才、广东电力科学技术杰出贡献奖获得者、广东省高层次人才、IEEE Senior Member。担任中国电工技术学会理事,担任中国自动化学会智能分布式能源专业委员会副主任,担任中国电机工程学会新能源并网与运行专委会、中国电工技术学会电力系统控制与保护专业委员会、中国能源研究会能源互联网专委会、中国指挥与控制学会集群智能与协同控制专委会和中国自动化学会能源互联网专委会等全国性学术组织的专家委员会委员,以及贵州电网公司、海南电网公司等重点企业专家委员会委员,担任国家科学技术奖励评审专家、教育部人才计划评审专家/学科评估专家/工程研究中心评估专家等社会兼职。长期以来,陈皓勇围绕复杂(大规模、随机性、混杂性、分布式、网络化)电力(能源)系统建模、分析、优化与控制的核心学术领域,主要研究方向包括新能源发电与智能电网技术,综合能源系统与能源物联网,电力经济与电力市场等。始终坚持“从0到1”的核心基础理论与方法的原始创新,在电力(能源)系统的多学科交叉研究(涉及电力系统、电力电子、热能动力、优化与控制、信息与通信、经济管理、人工智能等学科)方面开展了卓有成效的工作,并且同工程应用紧密结合,在国内外学术界和电力工业界具有广泛和持久的影响力。近年来主持了包括国家优秀青年科学基金项目、国家自然科学基金重点项目在内的一系列国家和省部级重点项目。在国内外权威期刊和国际会议发表论文300余篇,其中SCI收录论文50余篇,EI收录论文150余篇,在国际权威出版社John Wiley & Sons - IEEE Press出版英文专著1部,出版中文专著3部。所发表论文被国内外电力系统、电力电子、信息控制、人工智能、经济管理等不同领域的科研人员广泛引用。此外,还在《经济日报》、《中国能源报》等上发表一系列电力市场政策研究文章,得到中央决策部门的关注和采用,促进了电力行业的改革发展。近年来聚焦“可再生能源发电控制及并网运行关键技术”进行深入研究,在可再生能源发电控制及仿真建模、新能源发电短期和超短期功率预测、含高渗透率可再生能源的电力系统/微电网绿色调度、可再生能源电力系统的无功/电压控制、可再生能源电力系统的有功/频率控制5个方面取得多项理论和关键技术创新成果,研发了系列产品并实现了批量推广,建设了海南全国唯一省域智能电网示范区。科研成果在我国不同地区特别是海南电网得到应用,不但支撑了中国(海南)自由贸易试验区及中国特色自由贸易港的绿色电力保障,也为我国间歇性能源并网难题的解决提供了重要技术手段。获2008年度教育部高等学校科学研究优秀成果奖自然科学一等奖、2017年度海南省科技进步奖一等奖、2017年度中国电力科学技术进步奖二等奖、2017年度中国电力创新奖二等奖、2020年度中国电力科学技术进步奖三等奖、2019年度广东电力科学技术奖一等奖及南方电网公司、海南电网公司等的多项企业科技进步奖。任《电力自动化设备》、《Protection and Control of Modern Power Systems》(PCMP)、《智慧电力》、《电力大数据》、《分布式能源》和《电力需求侧管理》等多家重要期刊杂志编委。发起成立的电力与能源行业国际学术组织(GCPES)是联合国框架下的世界工程组织联合会(World Federation of Engineering Organizations, WFEO)会员。【Prof. Haoyong Chen】Professor and Doctoral Supervisor of the School of Electric Power Engineering, South China University of Technology, Executive Deputy Director of National and Local Joint Engineering Laboratory of Wind Power Control and Grid Technology / Guangdong Key Laboratory of Green Energy Technology / Guangdong Wind Power Control and Grid Engineering Laboratory, Director of the Institute of Power Economics and Electricity Markets, Winner of National Exellent Youth Science Fund / New Century Excellent Talents of the Ministry of Education / Guangdong Electric Power Science and Technology Outstanding Contribution Award / High-level Talents of Guangdong Province, IEEE Senior Member. He serves as a director of the China Electrotechnical Society and the deputy director of the Intelligent Distributed Energy Committee of the Chinese Society of Automation. He is member of Committee on Renewable Energy Generation and Integration/Chinese Society of Electrical Engineering, Power System Control and Protection/China Electrotechnical Society, Committee on Energy Internet/China Energy Research Association (CERA), Task Force on Integrated Energy and Re-Electrification/ CERA, Committee on Energy Internet/Chinese Society of Automation, Committee on Intelligent Energy System/Chinese Association for Artificial Intelligence. He is the editorial board member of Protection and Control of Modern Power Systems (PCMP) (in English), Power Automation Equipment (in Chinese), Distributed Energy (in Chinese), Power Systems and Big Data (in Chinese). He is also member of expert committees of some key enterprises such as Guizhou Power Grid Corporation and Hainan Power Grid Corporation, and serves as the national science and technology award review expert, talent plan review expert/discipline evaluation expert/engineering research center evaluation expert of the Ministry of Education. For a long time, Prof. Chen Haoyong has focused on the key academic fields of complex (large-scale, stochastic, hybrid, distributed, networked) power (energy) system modeling, analysis, optimization and control. His main research directions include new energy power generation and Smart Grids, Integrated Energy System and Energy Internet of Things, power economics and electricity markets, etc. He always adhere to the original innovation of the key basic theories and methods of "from 0 to 1" and the interdisciplinary research of power (energy) systems (involving power systems, power electronics, thermodynamics, optimization & control, information & communications, economics & management , artificial intelligence and other disciplines), which has carried out sigificant achievements and is closely integrated with engineering applications, and has a wide and lasting influence in academia and power industry in China and abroad. In recent years, he has served as PI of a series of national, provincial and ministerial key projects including the National Exellent Youth Science Fund and key project of the National Natural Science Foundation of China, published more than 300 papers in Chinese and international authoritative journals and international conferences, including more than 50 papers included in SCI and more than 150 papers included in EI. He published 1 English monograph in the international authoritative publishing house John Wiley & Sons-IEEE Press, and published 3 Chinese monographs. The published papers are widely cited by scientific researchers in different fields such as power systems, power electronics, information & control, artificial intelligence, economics & management, etc. In addition, a series of electricity market policy research articles have been published in "Economic Daily" and "China Energy News", which have attracted the attention and been adopted by Chinese central government, and promoted the reform and development of China's power industry. In recent years, he has conducted in-depth research on “key technologies for renewable energy power generation control and grid-connected operation”, which includes renewable energy power generation control and simulation modeling, short-term and ultra-short-term power prediction of new energy power generation, green dispatch of power systems/microgrids with high penetration of renewable energy, reactive power/voltage control of renewable energy power systems, and active power/frequency control of renewable energy power systems. A number of theoretical and key technological innovations have been achieved, and a series of products have been developed and applied in industry. His research achievements have been applied in different regions of China, especially the Hainan Power Grid, which not only supports the green power supply of the China (Hainan) Free Trade Port, but also provides important technologies for solving the problem of intermittent energy grid integration. He won the First Prize of Excellent Natural Science Research of the Ministry of Education of China (2009), the First Prize of Hainan Provincial Science and Technology Progress Award (2017), the Second Prize of China Electric Power Innovation Award of CSEE (2017), the Second Prize of China Electric Power Science and Technology Award of China Electricity Council (2017), the Third Prize of Science and Technology Progress Award of China Southern Power Grid Co. (2017), the First Prize of Science and Technology Progress Award of Hainan Power Grid Co. (2017), the Second Prize of Science and Technology Progress Award of Hainan Power Grid Co. (2017). He is in the editorial board member of Protection and Control of Modern Power Systems (PCMP) (in English), Power Automation Equipment (in Chinese), Distributed Energy (in Chinese), Power Systems and Big Data (in Chinese). He is the founder and current president of Global Chinese Power & Energy Society (GCPES, headquartered in Hong Kong), which is a global professional organization complimentary to IEEE Power and Energy Society, and specially for Chinese. GCPES is a member of the World Federation of Engineering Organizations. 工作经历 • 2008年12月-至今,华南理工大学,电力学院,教授(博士生导师)• 2006年12月-2008年12月,华南理工大学,电力学院,副教授(“百人计划”)• 2000年6月-2006年12月,西安交通大学,电力工程系,任讲师、副教授• 2015年3月-2016年6月,美国圣路易斯华盛顿大学,访问学者• 2012年12月-2013年1月,美国哥伦比亚大学,访问教授• 2008年7月-2008年8月,澳大利亚昆士兰大学,访问教授• 2007年2月-2007年5月,香港理工大学,电机工程学系,访问教授 教育经历 • 1995年9月-2000年6月,西安交通大学,电力系统及其自动化专业,2000年6月获工学博士学位(硕博连读),导师为王锡凡院士• 1992年9月-1995年7月,西安交通大学,电力系统及其自动化专业,1995年7月获工学学士学位,导师为王锡凡院士• 1990年9月-1992年7月,西安交通大学,少年班 获奖、荣誉称号 【荣誉称号】• 发展中世界工程技术院(AETDEW)院士• 2021年广东省高层次人才• 2020年广东电力科学技术杰出贡献奖获得者• 2013年国家优秀青年科学基金获得者• 2008年教育部新世纪优秀人才【科技奖励】• 2022年度教育部高等学校科学研究优秀成果奖二等奖(省部级)• 教育部2008年高等学校科学研究优秀成果奖自然科学一等奖(省部级)• 2017年度海南省科技进步奖一等奖(省部级)• 2017年度中国电力科学技术进步奖二等奖(省部级)• 2017年度中国电力创新奖二等奖(省部级)• 2020年度中国电力科学技术进步三等奖• 2017年度中国南方电网公司科技进步奖三等奖• 2017年度海南电网有限责任公司科技进步奖一等奖• 2017年度海南电网有限责任公司科技进步奖二等奖 社会、学会及学术兼职 • 担任中国电工技术学会理事• 担任中国自动化学会智能分布式能源专业委员会副主任• 担任中国电机工程学会新能源并网与运行专委会、中国电工技术学会电力系统控制与保护专业委员会、中国能源研究会能源互联网专委会、中国自动化学会能源互联网专委会和中国指挥与控制学会集群智能与协同控制专委会等全国性学术组织的专家委员会委员• 担任贵州电网公司、海南电网公司等重点企业专家委员会委员• 担任国家科学技术奖励评审专家、教育部人才计划评审专家/学科评估专家/工程研究中心评估专家• 多次担任IEEE PES Asia-Pacific Power and Energy Engineering Conference、IEEE Conference on Energy Internet and Energy System Integration、International Conference on Power System Technology(POWERCON)和IEEE Innovative Smart Grid Technologies – Asia技术委员会主席或成员• 担任《Protection and Control of Modern Power Systems》(PCMP)、《电力自动化设备》、《智慧电力》、《电力大数据》、《分布式能源》和《电力需求侧管理》等多家重要期刊杂志编委• 创立“华人电力与能源协会”(Global Chinese Power & Energy Society,总部设在中国香港)并担任首任主席 研究领域 陈皓勇教授围绕复杂(大规模、随机性、混杂性、分布式、网络化)电力(能源)系统建模、分 析、优化与控制的核心学术领域,主要研究方向包括新能源发电与智能电网技术、综合能源系统与 能源物联网、电力经济与电力市场等。始终坚持“从 0 到 1”的核心基础理论与方法的原始创新, 在电力(能源)系统的多学科交叉研究(涉及电力系统、电力电子、热能动力、优化与控制、信息 与通信、经济管理、人工智能等学科)方面开展了卓有成效的工作,并且同工程应用紧密结合。近 年来聚焦“可再生能源发电控制及并网运行关键技术”进行深入研究,在可再生能源发电控制及仿 真建模、新能源发电短期和超短期功率预测、含高渗透率可再生能源的电力系统/微电网绿色调度、 可再生能源电力系统的无功/电压控制、可再生能源电力系统的有功/频率控制等方面取得多项理论 和关键技术创新成果并实现了推广应用。在国内外权威期刊和国际会议发表论文300余篇,其中SCI收录论文50余篇,EI收录论文150余篇,在国际权威出版社John Wiley & Sons - IEEE Press出版英文专著1部,出版中文专著3部。申请国家发明专利40余个,目前已授权20余个。英文专著 Power System Optimization: Large-scale Complex Systems Approaches 已于 2016 年 8 月由国际权威出版社 John Wiley & Sons - IEEE Press 出版,是国际上第一部从大规模复杂系 统方法的角度阐述电力系统优化方法的专著。所发表论文被国内外电力系统、电力电子、信息控制、人工智能、经济管理和量子物理等不同领域的科研人员引用。科研成果广泛应用于 智能电网调度与控制、电力市场设计与仿真分析、输/配电网优化规划、电力系统无功优化等诸多领域。此外,还在《经济日报》、《中国能源报》(《人民日报》社主办的我国能源产业经济最权威媒体)等上发表一系列电力市场改革评论文章,得到中央决策部门关注,部分研究成果被国家能源局 等权威部门采纳。获 2013 年度国家优秀青年科学基金、2008 年度教育部新世纪优秀人才、2020 年度广东电力科学技术杰出贡献奖,获 2020 年度中国电力科学技术进步奖三等奖(“可再生能源 发电控制及并网运行关键技术”)、2019 年度广东电力科学技术奖一等奖、2017 年度海南省科技进 步奖一等奖(“多类型新能源发电综合消纳的关键技术研究及应用”)、2017 年度中国电力科学技术 进步奖二等奖、2017 年度中国电力创新奖二等奖、2017 年度海南电网有限责任公司科技进步奖一 等奖及其他多项企业科技成果奖。 陈皓勇教授为 IEEE Senior Member。担任中国电工技术学会理事,担任中国电机工程学会新能 源并网与运行专委会、中国电工技术学会电力系统控制与保护专业委员会、中国能源研究会 能源互联网专委会、中国指挥与控制学会集群智能与协同控制专业委员会、中国能源研究会 电能技术专业委员会综合能源与再电气化学组、中国自动化学会能源互联网专委会、中国人 工智能学会智慧能源系统专委会委员;担任国家科学技术奖励评审专家、教育部人才计划评 审专家/学科评估专家/工程研究中心评估专家、国家自然科学基金项目评审专家、中国博士 后科学基金评审专家、贵州电网公司和海南电网公司专家委员会委员等社会兼职;多次担任 IEEE PES Asia-Pacific Power and Energy Engineering Conference、IEEE Conference on Energy Internet and Energy System Integration、International Conference on Power System Technology (POWERCON)和 IEEE Innovative Smart Grid Technologies – Asia 技 术委员会主席或成员;任《电力自动化设备》、《智慧电力》、《Protection and Control of Modern Power Systems》(PCMP)、《电力大数据》、《分布式能源》和《电力需求侧管理》 等多家重要期刊杂志编委。 陈皓勇教授具有一定的国际影响力,发起成立的电力与能源行业国际学术组织(GCPES)是联 合国框架下的世界工程组织联合会(World Federation of Engineering Organizations, WFEO)会员,积极参加联合国《2030 年可持续发展议程》的相关活动。陈皓勇教授多次在 IEEE PES Asia-Pacific Power and Energy Engineering Conference、International Conference on Power System Technology (POWERCON)等国际学术会议上主持特邀报告会或作特邀报告,每 年均在“中国智能电网学术研讨会”(由中国电工技术学会主办)等重要学术会议上作大会 报告,也受邀多次在国内外知名高校和电力能源行业重点企业作报告。 陈皓勇教授多次受邀担任《电网技术》、《控制理论与应用》、《南方电网技术》、《电力 系统保护与控制》、《广东电力》、《浙江电力》、《Protection and Control of Modern Power Systems》、《分布式能源》等国内外重要期刊专刊/专栏的特约主编,内容包括:可再生能源发电与综合消纳、工程博弈论、集群智能与协同控制、电力(能源)物联网关键技术及应 用、新一代人工智能在电力系统中的应用、电力市场、分布式能源系统规划与运行等多个不 同领域。陈皓勇教授近年来主要学术贡献包括: ● 系统地研究了基于随机混杂系统优化理论及群体智能的可再生能源电力系统/微电网规划、运行模型及算法,得到国内外同行广泛关注,并在电力行业得到应用。 ● 系统地研究了博弈论方法在电力经济和电力系统交叉领域中的应用,形成了基于实验经济学的电力交易博弈分析理论和方法,首次提出基于(微分)博弈理论的电力系统(微电网)频 率/电压分布式协同控制理论及方法。 ● 在综合能源系统、能源物联网与电价等领域的原创性基础理论研究。 陈皓勇教授带领团队研发了间歇式可再生能源高精度功率预测、绿色调度、有功/无功优化控 制系统。研发的间歇式能源功率预测系统已接入海南电网所有风电场和光伏电站,大幅提升了海南电网对新能源的消纳能力,已在多省区推广应用,并在基于电力物联网的企业智慧用能关 键技术方面取得突破。相关研究成果已经通过中国电机工程学会和中国电工技术学会组织的专家鉴定(结论为“国际领先”),在中央电视台科教频道(CCTV10)8月7、8日的《走近科学》 栏目以“电力新能源”为节目名播出。参与建设的中国首个远海岛屿新能源智能微电网被中央电视台(《新 闻联播》)、人民日报、科技日报、中国能源报等多家权威媒体报导。研究成果服务了粤港澳 大湾区发展,为海南自贸区(港)建设提供了坚强的绿色电力保障,也为我国可再生能源并网 消纳难题的解决提供了重要技术手段。 科研项目 【国家和省部级重点项目】• 国家重点研发计划项目,2022YFB2703503,考虑一次能源供给的源荷综合平衡协同优化技术研究,项目金额:536万元,在研,主持• 国家自然科学基金重点项目,51937005,综合能源系统的动力学模型及规划、运行基础理论,2020.1-2024.12,300万元,在研,主持• 国家重点研发计划项目,2016YFB0900100,高比例可再生能源并网的电力系统规划与运行基础理论,2016.7-2020.12,140万元,已结题,参与• 国家自然科学基金委员会优秀青年科学基金项目,51322702,电力系统调度与控制,2014/01-2016/12,100万元,已结题,主持• 国家自然科学基金项目,51177049,基于微分博弈理论的电力系统最优协调电压控制研究,2012/01-2015/12,58万元,已结题,主持 (优秀结题项目)• 国家高技术研究发展计划(863计划),2012AA050201,多类型新能源发电综合消纳的关键技术,2012/01-2014/12,283.2万元,已结题,主持• 广东省自然科学基金项目,2019A1515010689,基于协同进化计算的电力市场仿真理论与算法,2019/10-2021/9,10万元,已结题,主持• 广东省科技计划项目,2012B040303005,智能微电网测试与试验运行系统服务项目,2012/09-2015/09,10万元,已结题,参与• 广东省重大科技专项,2012A032300001,智能微电网集成关键技术研发及其产业化,2012/04-2015/12,30万元,已结题,参与• 广东省重大科技专项,2012A032300013,小数据集下的风电功率预测系统研制及其产业化,2011/03-2012/12,30万元,已结题,参与• 广东省科技计划项目,2010A010200004,大型风电机群接入地区电网的关键技术及智能化调度示范工程,2010/09-2012/18,10万元,已结题,参与• 教育部新世纪优秀人才支持计划资助项目,NCET080207,风电大规模并网条件下电力系统优化调度理论及方法,2009/01-2011/12,50万元,已结题,主持• 教育部科学技术研究重点资助项目,109128,含大型风电场的电力系统安全约束机组组合模型及算法研究,2009/01-2010/12,10万元,已结题,主持• 国家社会科学基金青年基金项目,04CJL012,电力市场交易制度的实验经济学研究,2004/07-2011/03,5.5万元,已结题,主持• 国家自然科学基金面上项目,50207007,电力系统运行方式优化和综合资源规划的协同进化算法,2003/01-2005/12,20万元,已结题,主持 (优秀结题项目)• 国家自然科学基金重点项目,59937150,我国电力市场的电价理论交易机制及其模拟研究,2000/01-2003/12,100万元,已结题,参与【企业横向课题】 此外,完成中国南方电网有限责任公司、广东电网公司、广州电力交易中心有限责任公司、贵州电力交易中心有限责任公司、中国电力科学研究院、南方电网科学研究院、南方电网能源发展研究院、广东电网公司管理科学研究院等企业合作项目30余项。 陈皓勇教授科研经费十分充足,可支持学生完成高水平科研任务。 发表论文 【Publication list of SCI papers by date】Before 2015 >>>>>1.Haoyong Chen, Xifan Wang. Cooperative Coevolutionary Algorithm for Unit Commitment. IEEE Transactions on Power Systems, 17(1): 128~133, 20022.Zechun Hu, Xifan Wang, Haoyong Chen, et al. Volt/Var Control in Distribution Systems Using a Time-Interval Based Approach. IEE Proceedings-Generation Transmission and Distribution, 150(5): 548~554, 20033.Haoyong Chen, Xifan Wang, Xinyu Zhao. Generation Planning Using Lagrangian Relaxation and Probabilistic Production Simulation. International Journal of Electrical Power & Energy Systems, 26: 597~605, 20044.H. Chen, K. P. Wong, D. H. M. Nguyen, C. Y. Chung. Analyzing Oligopolistic Electricity Market Using Coevolutionary Computation. IEEE Transactions on Power Systems, 21(1): 143~152, 20065.H. Chen, K. P. Wong, C. Y. Chung, D. H. M. Nguyen. A Coevolutionary Approach to Analyzing Supply Function Equilibrium Model. IEEE Transactions on Power Systems, 21(3): 1019~1028, 20066.Haoyong Chen, Xifan Wang, Kit Po Wong, Chi-yung Chung. A Framework of Oligopolistic Market Simulation with Coevolutionary Computation. Springer's Lecture Notes in Computer Science (LNCS) 4221: Advances in Natural Computation, 860~869, The 2nd International Conference on Natural Computation, September 24-28, 2006, Xi’an, China (SCI)7.Jianxue Wang, Weichao Wang, Xifan Wang, Haoyong Chen, Xiuli Wang. Cooperative Co-Evolutionary Approach Applied in Reactive Power Optimization of Power System. Springer's Lecture Notes in Computer Science (LNCS) 4221: Advances in Natural Computation, 860~869, The 2nd International Conference on Natural Computation, September 24-28, 2006, Xi’an, China (SCI)8.Haoyong Chen, Xifang Wang. Strategic Behavior and Equilibrium in Experimental Oligopolistic Electricity Markets. IEEE Transactions on Power Systems, 22(4): 1707~1716, 20079.Lin Liu, Xifan Wang, Xiaoying Ding, Haoyong Chen. A Robust Approach to Optimal Power Flow With Discrete Variables. IEEE Transactions on Power Systems, 2009, 24(3): 1182-119010.S. Zhang, C. Y. Chung, K. P. Wong, H. Chen. Analyzing Two-Settlement Electricity Market Equilibrium by Coevolutionary Computation Approach. IEEE Trans. on Power Systems, 2009, 24(3): 1155-116411.Y. Yang, Y. Zhang, F. Li, H. Chen. Computing All Nash Equilibria of Multiplayer Games in Electricity Markets by Solving Polynomial Equations. IEEE Trans. on Power Systems, 2012, 27(1): 81-9112.H. Z. Huang, C. Y. Chung, K. W. Chan, H. Y. Chen. Quasi-Monte Carlo Based Probabilistic Small Signal Stability Analysis for Power Systems with Plug-in Electric Vehicle and Wind Power Integration. IEEE Transaction on Power Systems, 28(3): 3335~3343, 20132015 >>>>>13.Haoyong Chen, Rong Ye, Xiaodong Wang. Cooperative Control of Power System Load and Frequency by Using Differential Games. IEEE Transactions on Control Systems Technology, 23(3): 882-897, 201514.Xueqian Fu, Haoyong Chen. Optimal allocation and adaptive VAR control of PV-DG in distribution networks. Applied Energy, 137(C), pp 173-182, 20152016 >>>>>15.Cong Zhang, Haoyong Chen, Honwing Ngan, Reactive Power Optimisation Considering Wind Farms Based on an Optimal Scenario Method, IET Generation, Transmission & Distribution, 10(15), pp 3736-3744, Nov. 2016. (EI,SCI收录) IF=2.21316.Xueqian Fu, Haoyong Chen, Runqing Cai, Peizheng Xuan. Improved LSF method for loss estimation and its application in DG allocation. IET Generation, Transmission & Distribution, 10(10), pp 2512-2519, 2016.17.Haoyong Chen, Peizheng Xuan, Yongchao Wang. Key Technologies for Integration of Multi-Type Renewable Energy Sources-Research on Multi-Time-Frame Robust Scheduling/Dispatch. IEEE Transactions on Smart Grid, 7(1): 471-480, 2016/1/2518.Haoyong Chen, Pascal Dieu Seul Assala, Yongzhi Cai, Ping Yang. Intelligent Transient Overvoltages Location in Distribution Systems Using Wavelet Packet Decomposition and General Regression Neural Networks. IEEE Transactions on Industrial Informatics, 12(5): 1726-1735, 2016/1/2219.Wang Yongchao ,Chen Haoyong, Robust Unit Commitment with Wind and Pumped-Storage Units Based on the Optimal Scenario Set. Journal of the Balkan Tribological Association, 2016, 22(3A-II), 3446–345520.Cong Liu, Changhyeok Lee, Haoyong Chen, Sanjay Mehrotra. Stochastic Robust Mathematical Programming Model for Power System Optimization. IEEE Transactions on Power Systems. Year: 2016, Volume: 31 , Issue: 1. Page s: 821 - 8222017 >>>>>21.Cong Zhang, Haoyong Chen, Honwing Ngan, Zipeng Liang, Manlan Guo, Dong Hua, Solution of Reactive Power Optimization Including Interval Uncertainty Using Genetic Algorithm, IET Generation, Transmission & Distribution, 11(15), pp 3657-3664, Oct. 2017. (EI,SCI收录) IF=2.21322.Cong Zhang, Haoyong Chen, Honwing Ngan, Ping Yang, Dong Hua, A Mixed Interval Power Flow Analysis Under Rectangular and Polar Coordinate System, IEEE Transactions on Power Systems, 32(2), pp 1422-1429, Mar. 2017. IF=5.6802018 >>>>>23.Cong Zhang, Haoyong Chen, Dong Hua, Canbing Li, Bin Zhou, Zipeng Liang, A Novel Interval Voltage Control Method Considering Interval Power Data and Discrete Control Variables, International Journal of Electrical Power & Energy Systems, 16 Nov. 2018. 已录用 (EI,SCI收录) IF=3.28924.Cong Zhang, Haoyong Chen, Ke Shi, Ming Qiu, Dong Hua, Honwing Ngan, An Interval Power Flow Analysis through Optimizing-Scenarios Method, IEEE Transactions on Smart Grid, vol. 9, no. 5, pp 5217-5226, Sept. 2018. (EI,SCI收录) IF=6.64525.Cong Zhang, Haoyong Chen, Zipeng Liang, Manlan Guo, Dong Hua, Honwing Ngan, Reactive Power Optimization under Interval Uncertainty by the Linear Approximation Method and its Modified Method, IEEE Transactions on Smart Grid, vol. 9, no. 5, pp 4587-4600, Sept. 2018. (EI,SCI收录) IF=6.64526.Cong Zhang, Haoyong Chen, Zipeng Liang, Weike Mo, Xiaodong Zheng, Dong Hua, Interval voltage control method for transmission systems considering interval uncertainties of renewable power generation and load demand, IET Generation, Transmission & Distribution, vol. 12, no. 17, pp. 4016-4025, Sept. 20, 2018. (EI,SCI收录) IF=2.21327.Shi Ke, Wang Bin, Chen Haoyong. Fuzzy Generalised Predictive Control for a Fractional-order Nonlinear Hydro-turbine Regulating System. IET Renewable Power Generation, 2018, 12(14): 1708-171328.Zipeng Liang, Haoyong Chen, Xiaojuan Wang, et al. An Extreme Scenario Method for Robust Transmission Expansion Planning with Wind Power Uncertainty. Energies, 2018, 11(8): 2116-213729.Cong Zhang, Haoyong Chen, Ke Shi, Zipeng Liang, Weike Mo, and Dong Hua, A Multi-Time Reactive Power Optimization under Interval Uncertainty of Renewable Power Generation by an Interval Sequential Quadratic Programming Method. IEEE Transactions on Sustainable Energy, Jul. 21, 2018. 已录用 (EI,SCI收录) IF=3.28930.Cong Zhang, Haoyong Chen, Manlan Guo, Xiaojuan Wang, Yumeng Liu, Dong Hua, DC power flow analysis incorporating interval input data and network parameters through the optimizing-scenarios method. International Journal of Electrical Power & Energy Systems, vol. 96, pp 380-389, Mar. 2018. (EI,SCI收录) IF=3.28931.Weike Mo, Yiping Chen, Haoyong Chen, Yingshang Liu, Yong Zhang, Jun Hou, Qin Gao, Chongtao Li. Analysis and Measures of Ultralow-Frequency Oscillations in a Large-Scale Hydropower Transmission System, IEEE Journal of Emerging and Selected Topics in Power Electronics, 6(3): 1077-1085, 2018.32.Xiaodong Zheng, Yiping Chen, Haoyong Chen, et al. Loss-minimizing generation unit and tie-line scheduling for asynchronous interconnection. IEEE Journal of Emerging and Selected Topics in Power Electronics, 6(3): 1095-1103, 201833.Jun Zeng, Qiaoqiao Wang, Junfeng Liu, Jianlong Chen, Haoyong Chen. A Potential Game Approach to Distributed Operational Optimization for Microgrid Energy Management with Renewable Energy and Demand Response. IEEE Transactions on Industrial Electronics, Early Access, 2018.2019 >>>>>34.Tahir, M. F., Haoyong, C., Khan, A., Javed, M. S., Laraik, N. A., & Mehmood, Optimizing Size of Variable Renewable Energy Sources by Incorporating Energy Storage and Demand Response. IEEE Access, 7(2019): 103115-103126, 2019/07/1635.Tahir, M. F., Haoyong, C., Mehmood, K., Ali, N., & Bhutto, J. A. (2019). Integrated Energy System Modeling of China for 2020 by Incorporating Demand Response, Heat Pump and Thermal Storage. IEEE Access, 7, 40095-40108.36.Tahir, M. F., Chen, H., Javed, M. S., Jameel, I., Khan, A., & Adnan, S. (2019). Integration of Different Individual Heating Scenarios and Energy Storages into Hybrid Energy System Model of China for 2030. Energies, 12(11), 2083.37.Z. J. Lin, H. Chen and X. Yin, "Discussion on “Data-Driven Stochastic Unit Commitment For Integrating Wind Generation”," IEEE Transactions on Power Systems, vol. 34, no. 5, pp. 3983-3983, Sept. 2019.38.X. D. Zheng, H. Y. Chen, Y. Xu, and Z. J. Lin, “A Mixed-Integer SDP Solution Approach to Distributionally Robust Unit Commitment with Second Order Moment Constraints.” CSEE Journal of Power and Energy Systems,Accepted,(EI, SCI收录), 2019.0739.Z.P.liang, H. Y. Chen, S. M. Chen, et.al, “Probability-driven Transmission Expansion Planning with High-penetration Renewable Power Generation: A Case Study in Northwestern China”, Applied Energy, Accepted (EI, SCI收录), 2019.0740.Xiaodong Zheng, Haoyong Chen, Yan Xu, Zipeng Liang, Yiping Chen, A Hierarchical Method for Robust SCUC of Multi-Area Power Systems with Novel Uncertainty Sets, IEEE Transactions on Power Systems, Accepted (EI, SCI收录), 2019.0941.Bifei Tan, Haoyong Chen. Stochastic Multi-objective Optimized Dispatch of Combined Cooling, Heating, and Power Microgrids Based on Hybrid Evolutionary Optimization Algorithm. IEEE Access, 2019.42.Liang, Zipeng, Haoyong Chen, Xiaojuan Wang, Simin Chen, and Cong Zhang. "A Risk-Based Uncertainty Set Optimization Method for the Energy Management of Hybrid AC/DC Microgrids with Uncertain Renewable Generation." IEEE Transactions on Smart Grid (2019).2020 >>>>>43.Lin, Zhenjia, Haoyong Chen, Qiuwei Wu, Weiwei Li, Mengshi Li, and Tianyao Ji. "Mean-tracking model based stochastic economic dispatch for power systems with high penetration of wind power." Energy 193 (2020): 116826.【Publication list of EI papers by date】2014 >>>>>1. A model for calculating operation period cost of offshore wind powerChen, Haoyong (School of Electric Power, South China University of Technology, Guangzhou; 510640, China); Tan, Ke; Xi, Songtao; Yang, Xing; Wang, Jiang; Wang, Zhongfu Source: Dianli Xitong Zidonghua/Automation of Electric Power Systems, n 13, p 135-139, July 10, 2014 Language: Chinese2. Power quality comprehensive evaluation method for distributed generationFu, Xueqian (School of Electric Power, South China University of Technology, Guangzhou; Guangdong Province; 510640, China); Chen, Haoyong; Liu, Guote; Jin, Xiaoming Source: Zhongguo Dianji Gongcheng Xuebao/Proceedings of the Chinese Society of Electrical Engineering, v 34, n 25, p 4270-4276, September 5, 2014 Language: Chinese3. Transfer laws and equations of energy networksChen, Haoyong (School of Electric Power, South China University of Technology, Guangzhou; 510640, China); Wen, Junzhong; Wang, Zengyu; Yang, Xin Source: Hsi-An Chiao Tung Ta Hsueh/Journal of Xi’an Jiaotong University, v 48, n 10, p 66-76, October 10, 2014 Language: Chinese4. Cooperative control of STATCOM based on differential game theoryYang, Xin (School of Electric Power, South China University of Technology, Guangzhou; 510640, China); Chen, Haoyong; Lu, Runge; Wen, Junzhong; Xu, Xuanhao Source: Dianli Xitong Zidonghua/Automation of Electric Power Systems, v 38, n 21, p 53-57 and 113, November 10, 2014 Language: Chinese5. Overvoltage identification in electric power distribution networks based on mathematical morphology and feed-forward ANNAssala, Pascal Dieu Seul (South China University of Technology, Guangzhou; 510641, China); Chen, Haoyong; Jl, Tianyao Source: Engineering Intelligent Systems, v 22, n 1, p 49-57, March 1, 20146. Comprehensive power quality evaluation based on TOPSIS approachFu, Xueqian (School of Electric Power, South China University of Technology, Guangzhou 510640, China); Chen, Haoyong Source: Dianli Zidonghua Shebei/Electric Power Automation Equipment, v 34, n 4, p 26-30, April 2014 Language: Chinese7. Cooperative control of interconnected power system load-frequency based on differential gamesChen, Haoyong (School of Electric Power, South China University of Technology, Guangzhou; 510641, China); Jin, Xiaoming; Ye, Rong Source: IEEE Power and Energy Society General Meeting, v 2014-October, n October, October 29, 2014, 2014 IEEE PES General Meeting / Conference and Exposition8. Studies on algorithms of power system probabilistic production simulation considering wind farmsLei, Jia (School of Electric Power, South China University of Technology, Guangzhou; 510640, China); Wan, Chulin; Chen, Haoyong; Ge, Hailin; Wang, Zhongfu Source: Asia-Pacific Power and Energy Engineering Conference, APPEEC, v 2015-March, n March, March 23, 2014, Proceedings of 2014 IEEE PES Asia-Pacific Power and Energy Engineering Conference, APPEEC 20149. Cooperative control of STATCOM based on feedback differential gamesChen, Qing (School of Electric Power, South China University of Technology, Guangzhou; 510641, China); Chen, Haoyong; Yang, Xin Source: Asia-Pacific Power and Energy Engineering Conference, APPEEC, v 2015-March, n March, March 23, 2014, Proceedings of 2014 IEEE PES Asia-Pacific Power and Energy Engineering Conference, APPEEC 201410. Guaranteed state estimation of synchronous generators based on DC programmingCai, Yongzhi (School of Electric Power, South China University of Technology, Guangzhou; 510640, China); Chen, Haoyong; Assala, Pascal Dieu Seul; Guo, Manlan Source: Asia-Pacific Power and Energy Engineering Conference, APPEEC, v 2015-March, n March, March 23, 2014, Proceedings of 2014 IEEE PES Asia-Pacific Power and Energy Engineering Conference, APPEEC 201411. Analysis of island power investment decision models under different market stagesWang, Zhongfu (School of Electric Power, South China University of Technology, Guangzhou; 510641, China); Wang, Hao; Chen, Haoyong; Tan, Ke; Xuan, Peizheng Source: Asia-Pacific Power and Energy Engineering Conference, APPEEC, v 2015-March, n March, March 23, 2014, Proceedings of 2014 IEEE PES Asia-Pacific Power and Energy Engineering Conference, APPEEC 201412. Pareto front of multi-objective optimal reactive power dispatchZhang, Cong (School of Electrical Engineering, South China University of Technology, Guangzhou, China); Chen, Haoyong; Xu, Xuanhao; Cai, Runqing Source: Asia-Pacific Power and Energy Engineering Conference, APPEEC, v 2015-March, n March, March 23, 2014, Proceedings of 2014 IEEE PES Asia-Pacific Power and Energy Engineering Conference, APPEEC 201413. Synchronization effects on power transients in distribution networks with grid connected photovoltaic generationAssala, Pascal Dieu Seul (School of Electric Power, South China University of Technology, Guangzhou; 510641, China); Chen, Haoyong; Yang, Ping; Cai, Yongzhi; Han, Yongxia Source: Asia-Pacific Power and Energy Engineering Conference, APPEEC, v 2015-March, n March, March 23, 2014, Proceedings of 2014 IEEE PES Asia-Pacific Power and Energy Engineering Conference, APPEEC 201414. Dynamic voltage restorer based on active hybrid energy storage systemFu, Xueqian (School of Electric Power, South China University of Technology, Guangzhou; 510641, China); Chen, Haoyong; Mo, Weike Source: Asia-Pacific Power and Energy Engineering Conference, APPEEC, v 2015-March, n March, March 23, 2014, Proceedings of 2014 IEEE PES Asia-Pacific Power and Energy Engineering Conference, APPEEC 201415. A multi-area coordinated voltage control method based on dynamic gamesXu, Xuanhao (School of Electric Power, South China University of Technology, Guangzhou; 510640, China); Chen, Haoyong; Xuan, Peizheng; Zhang, Cong Source: Asia-Pacific Power and Energy Engineering Conference, APPEEC, v 2015-March, n March, March 23, 2014, Proceedings of 2014 IEEE PES Asia-Pacific Power and Energy Engineering Conference, APPEEC 201416. Robust dispatch of power systems with multi-type renewable energy sourcesChen, Haoyong (School of Electric Power, South China University of Technology, Guangzhou; 510641, China); Wei, Guoqing; Xuan, Peizheng; Xu, Xuanhao Source: Asia-Pacific Power and Energy Engineering Conference, APPEEC, v 2015-March, n March, March 23, 2014, Proceedings of 2014 IEEE PES Asia-Pacific Power and Energy Engineering Conference, APPEEC 201417. Catastrophe theory as a tool for DG placement decision makingFu, Xueqian (School of Electric Power, South China University of Technology, Guangzhou, China); Zhang, Xiurong; Chen, Haoyong; Wang, Zhongfu Source: Asia-Pacific Power and Energy Engineering Conference, APPEEC, v 2015-March, n March, March 23, 2014, Proceedings of 2014 IEEE PES Asia-Pacific Power and Energy Engineering Conference, APPEEC 201418. Optimal reactive power dispatch considering wind turbinesJin, Xiaoming (Electric Power Research Institute, China Southern Power Grid, Guangzhou, China); Zhang, Cong; Chen, Haoyong; Xu, Xuanhao Source: Asia-Pacific Power and Energy Engineering Conference, APPEEC, v 2015-March, n March, March 23, 2014, Proceedings of 2014 IEEE PES Asia-Pacific Power and Energy Engineering Conference, APPEEC 201419. State estimation of synchronous generators under model parameter uncertainty based on set membership filterCai, Yongzhi (School of Electric Power, South China University of Technology, Guangzhou; 510641, China); Chen, Haoyong; Assala, Pascal Dieu Seul Source: Asia-Pacific Power and Energy Engineering Conference, APPEEC, v 2015-March, n March, March 23, 2014, Proceedings of 2014 IEEE PES Asia-Pacific Power and Energy Engineering Conference, APPEEC 20142015 >>>>>20. Optimal allocation and adaptive VAR control of PV-DG in distribution networksFu, Xueqian (School of Electric Power, South China University of Technology, China); Chen, Haoyong; Cai, Runqing; Yang, Ping Source: Applied Energy, v 137, p 173-182, January 01, 201521. Comprehensive power quality evaluation based on weighted rank sum ration methodFu, Xueqian (School of Electric Power, South China University of Technology, Guangzhou; 510640, China); Chen, Haoyong Source: Dianli Zidonghua Shebei/Electric Power Automation Equipment, v 35, n 1, p 128-132, January 10, 2015 Language: Chinese22. Cooperative Control of Power System Load and Frequency by Using Differential GamesChen, Haoyong (Department of Electrical Engineering, South China University of Technology, Guangzhou; 510640, China); Ye, Rong; Wang, Xiaodong; Lu, Runge Source: IEEE Transactions on Control Systems Technology, v 23, n 3, p 882-897, May 1, 201523. Energy losses estimation using equivalent time of average current loss methodFu, Xueqian (School of Electric Power, South China University of Technology, Guangzhou; 510640, China); Chen, Haoyong Source: Diangong Jishu Xuebao/Transactions of China Electrotechnical Society, v 30, n 12, p 377-382, June 25, 2015 Language: Chinese24. Integrated Planning of Distribution Systems with Distributed Generation and Demand Side Response (Open Access)Chen, Haoyong (School of Electric Power, South China University of Technology, Wushan RD., Tianhe District,Guangzhou; 510641, China); Wang, Zengyu; Yan, Haifeng; Zou, Haobin; Luo, Bo Source: Energy Procedia, v 75, p 981-986, 2015, Clean, Efficient and Affordable Energy for a Sustainable Future: 7th International Conference on Applied Energy, ICAE 20152016 >>>>>25. Key technologies for integration of multitype renewable energy sources - Research on multi-timeframe robust scheduling/dispatchChen, Haoyong (School of Electric Power, South China University of Technology, Guangzhou; 510641, China); Xuan, Peizheng; Wang, Yongchao; Tan, Ke; Jin, Xiaoming Source: IEEE Transactions on Smart Grid, v 7, n 1, p 471-480, January 201626. Stochastic robust mathematical programming model for power system optimizationLiu, Cong (Argonne National Laboratory, Decision and Information Science, Argonne; IL; 60439, United States); Lee, Changhyeok; Chen, Haoyong; Mehrotra, Sanjay Source: IEEE Transactions on Power Systems, v 31, n 1, p 821-822, January 201627. A robust scheduling with multiple types of power sources based on optimal scenario setWang, Yongchao (School of Electric Power, South China University of Technology, Guangzhou; Guangdong Province; 510640, China); Chen, Haoyong; Xuan, Peizheng; Hua, Dong Source: Dianwang Jishu/Power System Technology, v 40, n 2, p 354-362, February 5, 2016 Language: Chinese28. Distributed dynamic state estimation for power systems based on least square estimation fusionCai, Yongzhi (School of Electric Power, South China University of Technology, Guangzhou; 510640, China); Chen, Haoyong; Wan, Chulin Source: Dianli Xitong Zidonghua/Automation of Electric Power Systems, v 40, n 8, p 29-35 and 113, April 25, 2016 Language: Chinese29. Improved LSF method for loss estimation and its application in DG allocationFu, Xueqian (Department of Electrical Engineering, Tsinghua University, Beijing, China); Chen, Haoyong; Cai, Runqing; Xuan, Peizheng Source: IET Generation, Transmission and Distribution, v 10, n 10, p 2512-2519, July 7, 201630. Cooperative game model for secondary voltage control of power systemsZheng, Xiaodong (College of Electric Power, South China University of Technology, Guangzhou; 510640, China); Chen, Haoyong; Chen, Yiping; Mo, Weike Source: Dianli Xitong Zidonghua/Automation of Electric Power Systems, v 40, n 15, p 32-38, August 10, 2016 Language: Chinese31. Multi-area voltage cooperative control method based on dynamic game theoryXu, Xuanhao (School of Electric Power, South China University of Technology, Guangzhou; 510641, China); Chen, Haoyong; Hua, Dong; Yang, Xin; Mo, Weike Source: Dianli Xitong Zidonghua/Automation of Electric Power Systems, v 40, n 19, p 15-22, October 10, 2016 Language: Chinese32. Reactive power optimisation considering wind farms based on an optimal scenario methodZhang, Cong (School of Electrical Engineering, South China University of Technology, Guangzhou, China); Chen, Haoyong; Ngan, Honwing Source: IET Generation, Transmission and Distribution, v 10, n 15, p 3736-3744, November 17, 201633. Coordinated optimization of district electricity and heating system based on genetic algorithmGe, Hailin (School of Electric Power, South China University of Technology, Guangzhou; 510641, China); Liu, Fei; Chen, Haoyong; Zhang, Cong Source: Asia-Pacific Power and Energy Engineering Conference, APPEEC, v 2016-December, p 1543-1547, December 9, 2016, IEEE PES APPEEC 2016 - 2016 IEEE PES Asia Pacific Power and Energy Engineering Conference34. A mixed interval power flow analysis based on affine arithmeticZhang, Cong (School of Electrical Engineering, South China University of Technology, Guangzhou; 510640, China); Chen, Haoyong; Guo, Manlan; Lei, Jia; Ge, Hailin; Wan, Chulin Source: Asia-Pacific Power and Energy Engineering Conference, APPEEC, v 2016-December, p 758-762, December 9, 2016, IEEE PES APPEEC 2016 - 2016 IEEE PES Asia Pacific Power and Energy Engineering Conference35. Analysis of behavior game between suppliers and their retailers in electricity market by z-TreeGuo, Manlan (School of Electrical Engineering, South China University of Technology, Guangzhou; 510640, China); Chen, Haoyong; Wan, Chulin; Guo, Zhuoling Source: Asia-Pacific Power and Energy Engineering Conference, APPEEC, v 2016-December, p 1067-1071, December 9, 2016, IEEE PES APPEEC 2016 - 2016 IEEE PES Asia Pacific Power and Energy Engineering Conference36. Solution of interval reactive power optimization using genetic algorithmZhang, Cong (School of Electrical Engineering, South China University of Technology, Guangzhou; 510640, China); Chen, Haoyong; Lei, Jia; Liang, Zipeng; Zhong, Yiming Source: Asia-Pacific Power and Energy Engineering Conference, APPEEC, v 2016-December, p 1096-1100, December 9, 2016, IEEE PES APPEEC 2016 - 2016 IEEE PES Asia Pacific Power and Energy Engineering Conference37. Wrong data identification and correction for WAMSWan, Chulin (School of Electrical Engineering, South China University of Technology, Guangzhou; 510640, China); Chen, Haoyong; Guo, Manlan; Zipeng, Liang Source: Asia-Pacific Power and Energy Engineering Conference, APPEEC, v 2016-December, p 1903-1907, December 9, 2016, IEEE PES APPEEC 2016 - 2016 IEEE PES Asia Pacific Power and Energy Engineering Conference38. Aging state assessment of 110kV XLPE cable based on IRC and AEZipeng, Liang (School of Electric Power, South China University of Technology, Guangzhou; 510640, China); Chen, Haoyong; Cong, Zhang; Zijie, Liang; Xuan, Peizheng Source: Asia-Pacific Power and Energy Engineering Conference, APPEEC, v 2016-December, p 2287-2291, December 9, 2016, IEEE PES APPEEC 2016 - 2016 IEEE PES Asia Pacific Power and Energy Engineering Conference39. Intelligent Transient Overvoltages Location in Distribution Systems Using Wavelet Packet Decomposition and General Regression Neural NetworksChen, Haoyong (School of Electric Power, South China University of Technology, Guangzhou, China); Assala, Pascal Dieu Seul; Cai, Yongzhi; Yang, Ping Source: IEEE Transactions on Industrial Informatics, v 12, n 5, p 1726-1735, October 201640. Power System Optimization: Large-Scale Complex Systems ApproachesChen, Haoyong (South China University of Technology, China); Ngan, Honwing; Zhang, Yongjun Source: Power System Optimization: Large-Scale Complex Systems Approaches, p 1-359, May 25, 20162017 >>>>> 41. Multi-area power system state estimation based on partial information fusion and estimate projectionCai, Yongzhi (School of Electric Power, South China University of Technology, Guangzhou; 510640, China); Chen, Haoyong; Wan, Chulin Source: Diangong Jishu Xuebao/Transactions of China Electrotechnical Society, v 32, n 1, p 69-77, January 10, 2017 Language: Chinese42. A Mixed Interval Power Flow Analysis under Rectangular and Polar Coordinate SystemZhang, Cong (Department of Electrical Engineering, South China University of Technology, Guangzhou; 510640, China); Chen, Haoyong; Ngan, Honwing; Yang, Ping; Hua, Dong Source: IEEE Transactions on Power Systems, v 32, n 2, p 1422-1429, March 201743. Wrong active powerdata identification and correction for WAMS based on pattern recognitionWan, Chulin (College of Electric Power, South China University of Technology, Guangzhou; Guangdong Province; 510640, China); Chen, Haoyong; Guo, Manlan Source: Dianwang Jishu/Power System Technology, v 41, n 3, p 922-930, March 5, 2017 Language: Chinese44. The Application of Energy Network Theory in the Analysis of District Electricity and Heating SystemChen, Haoyong (Department of Electrical Engineering, South China University of Technology, Guangzhou; 510640, China); Qiu, Ming; Ge, Hailin; Li, Ming Source: Proceedings - 1st IEEE International Conference on Energy Internet, ICEI 2017, p 36-41, May 11, 2017, Proceedings - 1st IEEE International Conference on Energy Internet, ICEI 201745. Challenges and Prospects for AC/DC Transmission Expansion Planning Considering High Proportion of Renewable EnergyCheng, Haozhong (School of Electronic Information and Electrical Engineering, Shanghai Jiao Tong University, Shanghai; 200240, China); Li, Jun; Wu, Yaowu; Chen, Haoyong; Zhang, Ning; Liu, Lu Source: Dianli Xitong Zidonghua/Automation of Electric Power Systems, v 41, n 9, p 19-27, May 10, 2017 Language: Chinese46. Distributed energy system analysis based on energy network theoryGe, Hailin (School of Electric Power, South China University of Technology, Guangzhou; 510641, China); Chen, Haoyong; Wen, Junzhong; Zeng, Yonghao; Hua, Dong Source: Dianli Zidonghua Shebei/Electric Power Automation Equipment, v 37, n 6, p 34-40, June 10, 2017 Language: Chinese47. Robust Economic Dispatch of Microgrids Containing Electric VehiclesLiang, Zipeng (School of Electric Power, South China University of Technology, Guangzhou; Guangdong Province; 510641, China); Chen, Haoyong; Wang, Yongchao; Zhang, Cong; Zheng, Xiaodong; Wan, Chulin Source: Dianwang Jishu/Power System Technology, v 41, n 8, p 2647-2656, August 5, 2017 Language: Chinese48. Optimal Marketing Strategy of Retailers Under Energy Deviation PenaltyGuo, Manlan (School of Electric Power, South China University of Technology, Guangzhou; 510641, China); Chen, Haoyong; Zhang, Cong; Wan, Chulin; Shi, Ke; Liang, Zipeng Source: Dianli Xitong Zidonghua/Automation of Electric Power Systems, v 41, n 20, p 17-25, October 25, 2017 Language: Chinese49. Intelligent voltage surge classification in electric power distribution systemsAssala, Pascal Dieu Seul (School of Electrical Engineering, Guangzhou College of South China University of Technology, Guangzhou; 510800, China); Chen, Haoyong; Yang, Ping Source: Engineering Intelligent Systems, v 25, n 1, p 5-11, March 201750. An interval voltage control method using adaptive genetic algorithmZhang, Cong (School of Electrical Engineering, South China University of Technology, Guangzhou; 510640, China); Chen, Haoyong; Liang, Zipeng; Hua, Dong Source: 2017 IEEE Innovative Smart Grid Technologies - Asia: Smart Grid for Smart Community, ISGT-Asia 2017, p 1-5, June 8, 2018, 2017 IEEE Innovative Smart Grid Technologies - Asia: Smart Grid for Smart Community, ISGT-Asia 201751. An interval DC power flow analysis through the optimizing-scenarios methodZhang, Cong (School of Electrical Engineering, South China University of Technology, Guangzhou; 510640, China); Chen, Haoyong; Liang, Zipeng; Hua, Dong Source: 2017 IEEE Innovative Smart Grid Technologies - Asia: Smart Grid for Smart Community, ISGT-Asia 2017, p 1-5, June 8, 2018, 2017 IEEE Innovative Smart Grid Technologies - Asia: Smart Grid for Smart Community, ISGT-Asia 20172018 >>>>> 52. Analysis and Measures of Ultralow-Frequency Oscillations in a Large-Scale Hydropower Transmission SystemMo, Weike (School of Electric Power, South China University of Technology, Guangzhou; 510640, China); Chen, Yiping; Chen, Haoyong; Liu, Yingshang; Zhang, Yong; Hou, Jun; Gao, Qin; Li, Chongtao Source: IEEE Journal of Emerging and Selected Topics in Power Electronics, v 6, n 3, p 1077-1085, September 201853. DC power flow analysis incorporating interval input data and network parameters through the optimizing-scenarios methodZhang, Cong (School of Electric Power, South China University of Technology, China); Chen, Haoyong; Guo, Manlan; Wang, Xiaojuan; Liu, Yumeng; Hua, Dong Source: International Journal of Electrical Power and Energy Systems, v 96, p 380-389, March 201854. Loss-Minimizing Generation Unit and Tie-Line Scheduling for Asynchronous InterconnectionZheng, Xiaodong (School of Electric Power, South China University of Technology, Guangzhou; 510641, China); Chen, Yiping; Chen, Haoyong; Zhang, Yong; Zhu, Jizhong; Chen, Jingpeng; Xuan, Peizheng Source: IEEE Journal of Emerging and Selected Topics in Power Electronics, v 6, n 3, p 1095-1103, September 201855. Analysis of ultra-low frequency oscillation in yunnan asynchronous sending systemChen, Yiping (Power Dispatching and Control Center, China Southern Power Grid, Guangzhou, China); Liu, Yingshang; Tang, Zhuoyao; Hou, Jun; Zhang, Yong; Mo, Weike; Chen, Haoyong Source: IEEE Power and Energy Society General Meeting, v 2018-January, p 1-5, January 29, 2018, 2017 IEEE Power and Energy Society General Meeting, PESGM 201756. An Interval Power Flow Analysis Through Optimizing-Scenarios MethodZhang, Cong (Department of Electrical Engineering, South China University of Technology, Guangzhou; 510640, China); Chen, Haoyong; Shi, Ke; Qiu, Ming; Hua, Dong; Ngan, Honwing Source: IEEE Transactions on Smart Grid, v 9, n 5, p 5217-5226, September 201857. An extreme scenario method for robust transmission expansion planning with wind power uncertainty (Open Access)Liang, Zipeng (School of Electric Power, South China University of Technology, Guangzhou; 510641, China); Chen, Haoyong; Wang, Xiaojuan; Idris, Idris Ibn; Tan, Bifei; Zhang, Cong Source: Energies, v 11, n 8, August 201858. Reactive power optimization under interval uncertainty by the linear approximation method and its modified methodZhang, Cong (Department of Electrical Engineering, South China University of Technology, Guangzhou; 510640, China); Chen, Haoyong; Liang, Zipeng; Guo, Manlan; Hua, Dong; Ngan, Honwing Source: IEEE Transactions on Smart Grid, v 9, n 5, p 4587-4600, September 201859. Interval voltage control method for transmission systems considering interval uncertainties of renewable power generation and load demandZhang, Cong (School of Electrical and Information Engineering, Hunan University, Yuelu district Lushan South road No. 2, Changsha; 410082, China); Chen, Haoyong; Liang, Zipeng; Mo, Weike; Zheng, Xiaodong; Hua, Dong Source: IET Generation, Transmission and Distribution, v 12, n 17, p 4016-4025, September 30, 201860. Fuzzy generalised predictive control for a fractional-order nonlinear hydro-turbine regulating systemShi, Ke (School of Electric Power, South China University of Technology, Guangzhou, Guangdong; 510641, China); Wang, Bin; Chen, Haoyong Source: IET Renewable Power Generation, v 12, n 14, p 1708-1713, October 29, 201861. A Multi-Source Coordinated Spinning Reserve Model Considering Wind Power UncertaintyLiang, Zipeng (School of Electric Power, South China University of Technology, Guangzhou; Guangdong Province; 510641, China); Chen, Haoyong; Lei, Jia; Zhang, Cong; Zhao, Wenmeng Source: Dianwang Jishu/Power System Technology, v 42, n 7, p 2111-2119, July 5, 2018 Language: Chinese62. Range Analysis of Power Flow in Electric Power Systems Incorporating Uncertain Wind Power GenerationZhang, Cong (School of Electric Power, South China University of Technology, Guangzhou; 510640, China); Chen, Haoyong; Shi, Ke; Liang, Zipeng; Hua, Dong Source: International Conference on Innovative Smart Grid Technologies, ISGT Asia 2018, p 390-395, September 18, 2018, International Conference on Innovative Smart Grid Technologies, ISGT Asia 201863. A Novel Approach for Multi-Area Power System Day-ahead Scheduling under UncertaintiesChen, Yiping (Power Dispatching and Control Center, China Southern Power Grid, Guangzhou; 510663, China); Hou, Jun; Chen, Jingpeng; Zheng, Xiaodong; Chen, Haoyong; Liang, Zipeng Source: IEEE Power and Energy Society General Meeting, v 2018-August, December 21, 2018, 2018 IEEE Power and Energy Society General Meeting, PESGM 201864. Electricity Pricing Theory Based on Continuous Time Commodity ModelChen, Haoyong (School of Electric Power, South China University of Technology, Guangzhou; 510641, China); Han, Lijia Source: IEEE Power and Energy Society General Meeting, v 2018-August, December 21, 2018, 2018 IEEE Power and Energy Society General Meeting, PESGM 201865. Solution of interval reactive power optimization model through defining security limitsZhang, Cong (School of Electric Power, South China University of Technology, Guangzhou; 510640, China); Chen, Haoyong; Hua, Dong; Shi, Ke; Liu, Yumeng; Wang, Xiaojuan; Li, Canbing Source: 2018 International Conference on Power System Technology, POWERCON 2018 - Proceedings, p 1384-1389, July 2, 2018, 2018 International Conference on Power System Technology, POWERCON 2018 - Proceedings66. Influence of Load Curve Slope on Clearing Prices of Continuous-Time Commodity Electricity MarketChen, Haoyong (Department of Electrical Engineering, South China University of Technology, Guangzhou; 510640, China); Han, Lijia Source: 2018 International Conference on Power System Technology, POWERCON 2018 - Proceedings, p 828-834, July 2, 2018, 2018 International Conference on Power System Technology, POWERCON 2018 - Proceedings67. Energy Network Theory for Modeling and Analysis of Integrated Energy SystemsChen, Haoyong (Department of Electrical Engineering, South China University of Technology, Guangzhou; 510640, China); Qiu, Ming; Ngan, Hong-Wing Source: 2018 International Conference on Power System Technology, POWERCON 2018 - Proceedings, p 424-432, July 2, 2018, 2018 International Conference on Power System Technology, POWERCON 2018 - Proceedings68. Research on power grid economic dispatch strategy based on generator and load characteristicsTan, BiFei (School of Electric Power, South China University of Technology Asia-Pacific Research Institute of Smart Grid and Renewable Energy, GuangZhou, China); Chen, HaoYong; Liang, ZiPeng Source: China International Conference on Electricity Distribution, CICED, p 776-783, December 27, 2018, 2018 China International Conference on Electricity Distribution, CICED 2018 - Proceedings69. A Boundary-based Method for Robust Economic Dispatch with Uncertain Wind Power in MicrogridsZipeng Liang (Sch. of Electr. Power, South China Univ. of Technol., Guangzhou, China); Haoyong Chen; Xiaodong Zheng; Gaoxing Sun Source: The 11th IET International Conference on Advances in Power System Control, Operation and Management (APSCOM 2018), p 6 pp., 201870. Risk-aware Robust Economic Dispatch Considering Correlation of Wind PowerLin, Z.J. (Sch. of Electr. Power, South China Univ. of Technol., Guangzhou, China); Haoyong Chen; Xin Yin; Bifei Tan Source: The 11th IET International Conference on Advances in Power System Control, Operation and Management (APSCOM 2018), p 6 pp., 20182019 >>>>>71. A Multi-time Reactive Power Optimization Under Interval Uncertainty of Renewable Power Generation by an Interval Sequential Quadratic Programming MethodZhang, Cong (School of Electrical and Information Engineering, Hunan University, Changsha; 410082, China); Chen, Haoyong; Shi, Ke; Liang, Zipeng; Mo, Weike; Hua, Dong Source: IEEE Transactions on Sustainable Energy, v 10, n 3, p 1086-1097, July 201972. A Potential Game Approach to Distributed Operational Optimization for Microgrid Energy Management with Renewable Energy and Demand ResponseZeng, Jun (School of Electric Power, South China University of Technology, Guangzhou; 510640, China); Wang, Qiaoqiao; Liu, Junfeng; Chen, Jianlong; Chen, Haoyong Source: IEEE Transactions on Industrial Electronics, v 66, n 6, p 4479-4489, June 201973. Modeling and analysis of time-varying energy network ()Chen, Haoyong (Institute of Power Economics and Electricity Markets, South China University of Technology, Guangzhou; 510641, China); Li, Ming; Qiu, Ming; Ge, Hailin; Huang, Long Source: Zhongguo Kexue Jishu Kexue/Scientia Sinica Technologica, v 49, n 3, p 243-254, March 1, 2019 Language: Chinese74. Integrated energy system modeling of China for 2020 by incorporating demand response, heat pump and thermal storage (Open Access)Tahir, Muhammad Faizan (School of Electric Power, South China University of Technology, Guangzhou; 510640, China); Haoyong, Chen; Mehmood, Kashif; Ali, Nauman; Bhutto, Jameel Ahmed Source: IEEE Access, v 7, p 40095-40108, 201975. Integration of different individual heating scenarios and energy storages into hybrid energy system model of China for 2030Tahir, Muhammad Faizan (School of Electric Power, South China University of Technology, Guangzhou; 510640, China); Chen, Haoyong; Javed, Muhammad Sufyan; Jameel, Irfan; Khan, Asad; Adnan, Saifullah Source: Energies, v 12, n 11, 201976. A Novel Uncertainty Budget Optimization Method for Hybrid AC/DC Microgrids with High-penetration Renewable GenerationLiang, Zipeng (School of Electric Power, South China University of Technology, Guangzhou; 510640, China); Chen, Haoyong; Chen, Simin; Liu, Yumeng Source: 2019 IEEE PES GTD Grand International Conference and Exposition Asia, GTD Asia 2019, p 679-684, May 15, 2019, 2019 IEEE PES GTD Grand International Conference and Exposition Asia, GTD Asia 201977. Analysis on Two Kinds of Electricity Market Clearance Mechanism Based on Co-evolutionShi, Ke (School of Electric Power, South China University of Technology, Guangzhou; 510640, China); Chen, Haoyong; Li, Peng; Wang, Xiaojuan; Liu, Yumeng; Sun, Gaoxing Source: Dianli Xitong Zidonghua/Automation of Electric Power Systems, v 43, n 9, p 68-74, May 10, 2019 Language: Chinese78. Discussion on “data-Driven Stochastic Unit Commitment for Integrating Wind Generation”Lin, Z.J. (School of Electric Power, South China University of Technology, Guangzhou; 510641, China); Chen, Haoyong; Yin, Xin Source: IEEE Transactions on Power Systems, v 34, n 5, p 3983, 201979. Robust Expansion Planning of Transmission Network Considering Extreme Scenario of Wind Power Liang, Zipeng (School of Electric Power, South China University of Technology, Guangzhou; 510641, China); Chen, Haoyong; Zheng, Xiaodong; Wang, Xiaojuan; Chen, Simin Source: Dianli Xitong Zidonghua/Automation of Electric Power Systems, v 43, n 16, p 58-67, August 25, 2019 Language: Chinese80. Design and Research on Electricity Market Operation System in Southern RegionWang, Xiaojuan (School of Electric Power, South China University of Technology, Guangzhou; 510640, China); Chen, Haoyong; Huang, Long Source: 2019 IEEE PES Innovative Smart Grid Technologies Asia, ISGT 2019, p 3080-3084, May 2019, 2019 IEEE PES Innovative Smart Grid Technologies Asia, ISGT 201981. Construction and Enlightenment of Japan’s New Electricity MarketLiu, Yumeng (School of Electric Power, South China University of Technology, Guangzhou; 510641, China); Chen, Haoyong Source: 2019 IEEE PES Innovative Smart Grid Technologies Asia, ISGT 2019, p 3020-3025, May 2019, 2019 IEEE PES Innovative Smart Grid Technologies Asia, ISGT 201982. Simulation and Analysis of Centralized Bidding Market Clearing Method Based on Intelligent AlgorithmHuang, Long (School of Electric Power, South China University of Technology, Guangzhou; 510640, China); Chen, Haoyong Source: 2019 IEEE PES Innovative Smart Grid Technologies Asia, ISGT 2019, p 2963-2967, May 2019, 2019 IEEE PES Innovative Smart Grid Technologies Asia, ISGT 201983. Stochastic Multi-Objective Optimized Dispatch of Combined Cooling, Heating, and Power Microgrids Based on Hybrid Evolutionary Optimization AlgorithmBifei Tan (Sch. of Electr. Power Eng., South China Univ. of Technol., Guangzhou, China); Haoyong Chen Source: IEEE Access, v 7, p 176218-32, 201984. Experimental Analysis of Equilibrium of Long-term Market Clearing Mechanism in ChinaJingyi, Shang (School of Electrical Engineering, Zhengzhou University, Zhengzhou, China); Xin, Jiang; Jinfeng, Gao; Haoyong, Chen; Ke, Shi Source: 2019 IEEE PES Innovative Smart Grid Technologies Asia, ISGT 2019, p 2986-2990, May 2019, 2019 IEEE PES Innovative Smart Grid Technologies Asia, ISGT 2019 出版专著和教材 1. 英文专著Power System Optimization: Large-scale Complex Systems Approaches已于2016年8月由国际权威出版社John Wiley & Sons - IEEE Press出版,是国际上第一部从大规模复杂系统方法的角度阐述电力系统优化方法的专著2. 中文专著《高比例可再生能源接入的输电网规划方法与应用》,2021年已由科学出版社出版3. 中文专著《新能源电力系统调度与控制》,2021年将由科学出版社出版4. 教材《电力市场基础》,2003年3月由西安交通大学出版社出版5. 参与《现代电力系统分析》部分章节的撰写,2003年3月已由科学出版社出版6. 撰写研究报告《电力市场交易制度的实验经济学研究》,2006年3月印刷 科研创新 申请国家发明专利40余个,目前已授权20余个,部分代表性专利如下:1. 基于协同进化算法的调频反馈纳什均衡控制方法,国家发明专利,2016年2月授权,专利号 ZL201310134921.22. 一种含多类型新能源的电力系统日内滚动计划编制方法,国家发明专利,2021年1月授权,专利号 ZL201510250844.63. 一种间歇式发电并网条件下的电力系统日前鲁棒调度系统,国家发明专利,2021年1月授权,专利号ZL201510250822.X4. 一种多时间尺度的电力系统鲁棒调度系统设计方法,国家发明专利,2015年5月公开,申请号 CN201510279038.15. 基于遗传算法的区间无功优化方法,国家发明专利,2019年12月授权,专利号ZL201710290431.X6. 区间无功优化模型的线性化求解方法,国家发明专利,2020年4月授权,专利号ZL201710290432.47. 基于线性规划的直角坐标形式的区间潮流计算方法,国家发明专利,2020年6月授权,专利号ZL201710059967.08. 一种考虑风险成本的大电网自适应鲁棒备用优化方法,国家发明专利,2020年6月授权,专利号ZL201810369413.59. 基于协同进化算法的调频反馈纳什均衡控制方法,国家发明专利,2016年2月授权,专利号ZL201310134921.210.以综合成本最小为目标的电力系统鲁棒调度不确定集构建方法,国家发明专利,2020年3月授权,专利号ZL201710437669.0 教学活动 【基本情况】 陈皓勇教授围绕“坚定理想信念、厚植爱国主义情怀、加强品德修养、增长知识见识、培养奋斗精神、增强综合素质”育人目标,结合自身专业及学校所在地域条件,在科研诚信建设、作风和学风建设、电力体制改革、海南自由贸易港建设、粤港澳大湾区发展以及“碳达峰、碳中和”目标实现等方面坚定不移地支持中央重大决策部署,并有机结合到科研和教学中,身体力行地实践党和国家的重大决策部署。 陈皓勇教授注重“课程—教学—教材—实践”育人体系创新,打造“理论—实践—前沿—国际”四位一体课程体系和教学体系,打造与时俱进、国际前瞻、中国特色的经典教材体系,秉承科研教学融合、理论实践结合理念,将最新科研成果融入教学,培养学生的探究式学习能力。基于陈皓勇教授课题组的明确研究方向,面向国家重大战略需求,以培养学生创新精神和实践能力为主要目标,尊重学生的差异和自身兴趣,使每个学生在思想道德、文化知识、社会实践等方面得到充分的发展。【将立德树人融入教育实践的具体措施】1)融入思想道德教育——注重课堂一线传授,弘扬奉献报国的使命意识 陈皓勇教授结合党和国家的党和国家的路线、方针、政策,注重在课堂一线开展思想道德教育。在《现代电力系统前沿技术》等课程教学中,生动地介绍国际国内电力前沿技术和我国电力系统“落后-追赶-超越”的发展过程,归纳总结当前电力系统存在的技术瓶颈,列举老一辈科技工作者和行业知名校友在重要岗位上的突出贡献,引导学生掌握扎实的学科知识,肩负起科技兴国、民族复兴的时代重任。在《新能源发电中的电力电子技术》、《电力经济与管理导论》课程的教学中,宣传中共十八届三中全会提出的《中共中央关于全面深化改革若干重大问题的决定》中关于国有资本继续控股经营的自然垄断行业改革的决策部署,以及中共中央、国务院《关于进一步深化电力体制改革的若干意见》(中发〔2015〕9号文)、《关于深化国有企业改革的指导意见》(中发〔2015〕22号)、《关于推进价格机制改革的若干意见》(中发〔2015〕28号)、《关于新时代加快完善社会主义市场经济体制的意见》等文件的精神,并将中央精神与个人的电力市场教学、科研紧密融合,使学生深入理解党和国家有关电力体制改革的方针政策。在《新能源发电中的电力电子技术》课程的教学中,向学生普及习近平总书记提出的“2030年前碳达峰、2060年前碳中和”目标的的基本思路和主要举措,以及中央财经委员会第九次会议提出的“实施可再生能源替代行动,深化电力体制改革,构建以新能源为主体的新型电力系统”的基本知识。陈皓勇教授积极倡导科研诚信建设、作风和学风建设,以身作则,并经常教育学生加强品德修养,诚信对待学习和科研。所培养的学生学术水平高,多名毕业博士生在“双一流”高校任教并获得国家自然科学基金青年科学基金,其余学生大多进入国家电网、南方电网等世界500强企业和其他国家重点行业工作。2)融入文化知识教育——理论结合实际,弘扬严谨求实的科学精神 陈皓勇教授围绕复杂(大规模、随机性、混杂性、分布式、网络化)电力(能源)系统建模、分析、优化与控制的核心学术领域,始终坚持核心基础理论与方法的原始创新,在电力(能源)系统的多学科交叉研究(涉及电力系统、电力电子、热能动力、优化与控制、信息与通信、经济管理、人工智能等学科)方面开展了卓有成效的工作,并且同工程应用紧密结合,为创新人才的培养提供了良好的平台。基于多学科交叉研究的背景,将电力系统与经济管理相结合,创造性地开设了《电力经济与管理导论》、《电力市场运营与企业管理》等一系列新课程;将电力系统与电力电子相结合,开设和承担了《新能源发电中的电力电子技术》、《可再生能源与系统接入技术》、《先进电力系统控制工程》等课程的教学任务。将自然科学(工程科学)的实验方法引入电力市场研究与教学,以仿真实验的方法创造与实际电力市场相似的实验室环境。通过国家重点项目培养学生的科研创新能力,鼓励研究生积极参与国家自然科学基金重点/面上项目、国家重点研发计划项目、国家863计划课题等国家重点项目的研究工作,培养解决实际问题的能力。3)融入社会实践教育——立足社会实践,开辟国际化育人路径 陈皓勇教授积极支持研究生去中国南方电网电力调度控制中心、南方电网科学研究院等单位实习,将理论与实践相结合培养学生的综合素质和创新能力。为海南电网智能电网建设和新能源消纳、多省区(南方区域、贵州、河南、湖南、江西等)电力市场设计和交易策略制定、云南异步联网后由高比例水电机组调速系统引发的超低频振荡等问题的解决提供了重要手段。积极支持和指导学生参与大学生创新创业训练计划、全国大学生创新方法应用大赛、中国国际“互联网+”大学生创新创业大赛、华南理工大学学生研究计划(SRP)等实践项目,取得了良好的成绩。积极支持和参与国际化的人才培养,在国家留学基金管理委员会(CSC)、广州市“菁英计划”等留学项目的支持下,先后推荐博士生到美国哥伦比亚大学、美国田纳西大大学、加拿大曼尼托巴大学、新加坡南洋理工大学、丹麦科技大学等国际著名大学联合培养,在国际化环境中培养学生的国际视野和创新能力。陈皓勇教授是所在学院比较受国外留学生欢迎的导师,先后为喀麦隆、刚果、尼日利亚、巴基斯坦、沙特阿拉伯等国家(特别是“一带一路”沿线国家)培养了一批博士生和硕士生,扩大了中国高等教育的国际影响力。【在课程体系、教学体系、教材体系、实践育人体系建设中的创新举措及取得的主要成果】1)打造“理论—实践—前沿—国际”四位一体课程体系 陈皓勇教授学术视野开阔,教学经验丰富,以电力系统工程为基础开展多学科交叉的研究和教学。2000年在西安交通大学留校后担任本科生专业主干课《电力系统分析》等的教学任务,2007年后在华南理工大学后担任专业主干课《电力系统分析》和选修课《电力经济与管理概论》、《新能源发电中的电力电子技术》等课程的主讲任务。设立并主讲工程技术领军人才(工程博士)《先进电力系统控制工程》、《可再生能源与系统接入技术》等课程,为硕士生、博士生开设《电力企业管理与市场运营》、《电力经济与管理导论》、《现代电力系统前沿技术》等课程。在课堂教学方面,课程内容新颖,理论结合实际,颇受学生好评。近五年,陈皓勇教授为研究生讲授6门课程,总共380学时,共有817人次选学。2)积极参与教学改革与教材建设 陈皓勇教授参与教材《电力市场基础》的编写,主编《电力经济与管理导论》教材,已被中国电力教育协会电气工程学科教学委员会列入首批“三新教材”(将电力行业新理念、新技术、新装备写入高校教材),并获评2020年度中国电力教育协会高校电气类专业精品教材(唯一获奖人)。开创性地将实验经济学的方法引入电力市场教学,突破单纯书本知识传授的局限,增强学生的实际市场交易体验。英文专著《Power System Optimization: Large-scale Complex Systems Approaches》从一种全新的、系统化的视角来阐述电力系统优化的大规模复杂系统方法,融汇了来自不同学科的理论方法(包括系统工程、运筹学、数学优化、微观经济学等),适合于电力工程专业研究生和高年级本科生的双语或全英课程教材。3)面向社会开展科普、教学活动和专业知识讲座,为社会培养实践人才 此外,陈皓勇教授还积极参加面向全社会的科普活动,中央电视台科教频道(CCTV10)2019年8月7、8日的《走近科学》栏目以“电力新能源”为节目名播出了陈皓勇教授在高比例可再生能源接入条件下的电力系统优化调度(鲁棒调度)研究成果及在海南电网的实际应用,向社会公众普及风光等可再生能源的特性(间歇性、随机性、波动性)及电力系统的应对策略。2015年新一轮电力体制改革启动后,陈皓勇教授受国内外相关企业、高等院校及行业组织的邀请,开展了超过50场的电力市场基础知识介绍和学术讲座,培养了大批电力市场实践人才。在2020年疫情期间,利用线上教学(采用“腾讯课堂”)的机会,将研究生《电力经济与管理导论》课程面向全社会开放,宣讲国家电力体制改革形势并为社会培养电力市场人才,取得了良好的效果。此外,在电力物联网、综合能源系统方面也受邀开展了一系列学术讲座(如陈皓勇教授为唯一受邀为中国能源建设集团广东省电力设计研究院“GEDI学术大讲堂”进行过2次不同学术领域讲座的专家),受到各方面的欢迎。 指导学生情况 【指导思想】 围绕复杂电力(能源)系统建模、分析、优化与控制的核心学术领域,主要研究方向包括新能源发电与智能电网技术、综合能源系统与能源物联网、电力经济与电力市场等。始终坚持“从 0 到 1”的核心基础理论与方法的原始创新,在电力(能源)系统的多学科交叉研究方面开展了卓有成效的工作,并且同工程应用紧密结合。近年来聚焦“可再生能源发电控制及并网运行关键技术”进行深入研究,取得了多项理论和关键技术创新成果,研发了系列产品并实现了批量推广,建设了海南全国唯一省域智能电网示范区,并为我国间歇性能源并网难题的解决提供了重要技术手段。此外,陈皓勇教授还积极参与全国电力市场改革的相关讨论,并参与多省区电力市场设计。通过带领学生参与这些科研工作,培养了学生运用专业知识解决实际问题的能力和动手能力。【指导学生的方法与特色】1)注重基础研究,培养学生的科学家精神 当前我国面临的很多“卡脖子”技术问题,根子是基础理论研究跟不上。陈皓勇教授深刻认识到高校在基础研究中的优势和重要职责,一方面遵循科学发现自身规律,尊重学生探索未知事物的好奇心;另一方面面向国家重大战略需求,在电力(能源)领域的重大应用研究中抽象出理论问题,进而探索科学规律,在电力系统优化规划与优化运行、电力系统协同控制、综合能源系统、电价理论等方面作出了一系列开创性的贡献。组织学生认真学习中共中央办公厅、国务院《关于进一步弘扬科学家精神加强作风和学风建设的意见》,培养他们的科学家精神,特别是创造性思辨的能力、严格求证的方法。2)在完成国家和省部级重点项目的过程中提高学生的科研能力 近年来,陈皓勇教授先后主持国家自然科学基金重点项目“综合能源系统的动力学模型及规划、运行基础理论研究”、国家自然科学基金委员会优秀青年科学基金项目“电力系统调度与控制”、国家自然科学基金面上项目“基于微分博弈理论的电力系统最优协调电压控制研究”、国家重点研发计划(子课题任务)“考虑高比例可再生能源时空分布特性的交直流输电网多目标协同规划方法”和广东省自然科学基金项目“基于协同进化计算的电力市场仿真理论与算法”,并参与广东省科技计划项目“广东省绿色能源技术重点实验室开放运行”。在完成这些项目的过程中,研究生发挥了重要作用,接受了学术训练,培养了科研能力,取得了一系列原创性科研成果,发表了一系列高水平论文。3)国内与国外相融合,开辟国际化的研究生培养 陈皓勇教授积极支持研究生出国交流,同时也是非常受外国留学生青睐的导师。在国家留学基金管理委员会(CSC)、广州市“菁英计划”等留学项目的支持下,先后推荐博士生到美国哥伦比亚大学、美国田纳西大大学、加拿大曼尼托巴大学、新加坡南洋理工大学、丹麦科技大学等国际著名大学联合培养,在国际化环境中培养学生的国际视野和创新能力。另一方面,陈皓勇教授是所在学院比较受国外留学生欢迎的导师,先后为喀麦隆、刚果、尼日利亚、巴基斯坦、沙特阿拉伯等国家培养了一批博士生和硕士生。不但促进了我国与外国在电气领域的学术交流,也为研究生提供了拓宽视野、接触不同背景学生的机会。【指导学生的成效】 近5年所指导博士生已毕业7人,在读6人;所指导硕士生已毕业42人,在读23人。学生科研成果质量高,近5年所培养的硕博士生中,2人获得“国家研究生奖学金”、2人获得“校长奖学金”、1人获得“广东省优秀学生”;在读博士研究生近五年共发表23篇SCI高水平论文,高水平论文发表成果量一直处于所在学院前列。学生岗位竞争力强:1名博士毕业生发表SCI/EI论文16篇,包括国际顶级SCI期刊论文6篇,博士毕业后被聘为湖南大学“岳麓学者”(助理教授);1名博士毕业生发表20篇SCI/EI论文并进入中国农业大学(985高校)任副教授、博导;毕业后在高校任教学生均已获得国家自然科学基金青年科学基金项目的支持。学生综合能力强:多名进入电网公司工作的学生在岗位上获得快速提拔。多名研究生毕业后赴清华大学等国内顶级高校和澳大利亚等国家攻读博士或从事博士后工作。 我的团队 新能源电力系统研究团队 内容来自集群智慧云企服 软件著作权666元代写全部资料全国受理