天博在线官网

学术交流
位置: 首页 > 学术交流 > 正文

Advanced Topics in Modern Power Systems II系列报告五则

时间:2022-11-14来源:电气与自动化工程学院

报告平台:腾讯会议 ID:876 6998 6387

举办单位:电气与自动化工程学院

系列报告主题:This 10-hour webinar is the second webinar organized by the University of Hefei, China, the National Technical University (NTUA) of Athens, Greece, and the University of Vaasa (UVA), Finland. It will present advanced topics in modern power systems in fine 2-hour lectures. The increasing penetration of renewable generation at the power systems and distributed energy resources at the distribution networks create new challenges and provide new opportunities for a more efficient and secure system operation. These include power system resilience against extreme natural disasters, the provision of flexibility by DER and the collaboration of TSO/DSO, new requirements for power system estimation, the applications of artificial intelligence techniques, and the role of smart cities and smart citizens.

学术报告(一)

题目:Resilience

报告时间:2022年11月16日(星期三)15:00-17:00

:NIKOLAOS CHATZIARGYRIOU 教授

工作单位:希腊雅典国立技术大学

报告简介:

The effects of climate change are increasing both the frequency and the intensity of natural catastrophic events worldwide, as witnessed by several disastrous phenomena. Power system resilience is defined as the ability of power grids to anticipate, withstand, adapt and recover from high-impact low-probability (HILP) events. There are both long-term and short-term measures that system operators can employ for resilience reinforcement. Longer-term measures include infrastructure hardening and resilient planning, while short-term operational measures are applied in the pre-event, during-event and post-event phase. This lecture will define the basic concepts of resilience, including resilience metrics and will discuss selected measures for resilience enhancement. It will finally explain how Microgrids, when formed efficiently can effectively enhance resilience for both transmission and distribution systems, due to their ability to operate in a controlled, coordinated way, when connected to the main power grid and in islanded mode.

报告人简介:

NIKOLAOS CHATZIARGYRIOU是希腊雅典国立技术大学教授,芬兰瓦萨大学兼职教授。他具有超过十年的电力行业工程实践经验,曾任希腊配电网公司董事长兼首席执行官,公共电力公司执行副主席。他是欧盟能源转型智能网络技术和创新平台(ETIP-SNET)的主席和副主席。他是CIGRE荣誉会员和IEEE Fellow,曾任IEEE Transaction on Power Systems的主编,现任PES主编。他是2017年IEEE/PES Prabha S.Kundur电力系统动力学和控制奖的获得者。他发表期刊300余篇,会议论文600余篇,并被汤森路透列入2016年、2017年和2019年前1%高被引研究人员名单。他是2020年全球能源奖得主。

学术报告(二)

题目:Flexibility Services-TSO/DSO Collaboration

报告时间:2022年11月19日(星期六)15:00-17:00

:ARIS EVANGELOS DIMEAS 研究员

工作单位:希腊雅典国立技术大学

报告简介:

The penetration of DG and RES in the Distribution network is increasing, displacing traditional power stations. As consequence, the necessity of providing ancillary services and flexibility by the DG and RES is generated. An approach to tackle the issue is to create market mechanisms involving TSOs and DSOs that will expand the current market structure. These mechanisms could be centralized and part of the balancing market or decentralized with the introduction of local markets. This presentation will present research activities in the EU focusing on the results of the Coordinet Project. The Coordinet project demonstrated various coordination schemes between TSO and DSO and market services in 3 countries in Europe.

报告人简介:

ARIS EVANGELOS DIMEAS获希腊雅典国立技术大学(NTUA)电气和计算机工程博士学位。目前他是NTUA电气与计算机工程系的研究员。他在与电力系统运营、可再生能源、电力系统人工智能、智能电网和控制软件开发相关的各种应用领域拥有丰富经验,具体包括需求侧管理开发控制软件以及能源管理系统和SCADA之间的通信接口等。2007-2012年,他是公共电力公司(PPC)非互联岛屿部门的顾问。他参与了克里特岛能源市场规范的编制,并开发了系统运行模拟,重点关注混合电站的概念。此外,他还与PPC/HEDNO的其他部门/部门合作,处理电子仪表、智能网络和研究项目。他是希腊技术商会和IEEE 会员。

学术报告(三)

题目:Artificial Intelligence for Advanced Power Systems

报告时间:2022年11月23日(星期三)15:00-17:00

:MARCELO GODOY SIMOES 教授

工作单位:芬兰瓦萨大学

报告简介:

This lecture will initially cover the state-of-the-art in enhanced smart-grid systems, approaching a unified methodology for the analysis and design of power electronics-based design of power systems with real-time control and data science analysis. Then, an introduction to fuzzy logic, neural networks, and deep learning with discussions and applications on how it is possible to design AI-based modeling and control in power systems, power electronics, renewable energy systems, and smart grids. Based on book M. Godoy Sim?es, Artificial Intelligence for Smarter Power Systems: Fuzzy Logic and Neural Networks, The Institution of Engineering and Technology,  Michael Faraday House, Six Hills Way, Stevenage, Hertfordshire, SG1 2AY, UK.

报告人简介:

MARCELO GODOY SIMOES是芬兰瓦萨大学(University of Vaasa)柔性和智能电力系统教授。他出版了12本书,其中最新的一本以高级电力系统为专题,已与IET签订合同并将在2023年正式出版,全书共两卷,包含15个章节。他已发表110多篇期刊论文,145多篇会议论文和专利,拥有25多年的IEEE志愿服务经验。SIMOES教授是在电力电子、电机驱动和可再生能源系统中应用神经网络和:呒南惹。他目前的研究兴趣涉及电力电子、电力系统、电能质量、智能电网和可再生能源系统等领域。

学术报告(四)

题目:Modern Topics in Power System State Estimation

报告时间:2022年11月30日(星期三)15:00-17:00

:GEORGIOS KORRES 教授

工作单位:希腊雅典国立技术大学

报告简介:

This presentation outlines the state-of-the-art research issues in power system state estimation (SE). Centralized and decentralized SE for TSO/DSO coordination, integration of multiple data sources (RTUs/SCADA, PMUs/WAMS, IEDs), challenges for transmission SE (TSE) and distribution SE (DSE), static, dynamic or forecasting-aided SE, missing or/and delayed data consideration, SE for hybrid HVDC/AC systems including LCC and VSC, optimization techniques for allocation of measuring devices with multiple reporting rates, generalized substation level SE, and robust SE solution methods will be presented.

报告人简介:

GEORGIOS KORRES分别于1984年和1988年在希腊雅典国立技术大学(NTUA)获得电气和计算机工程学士学位和博士学位。他目前是NTUA电气与计算机工程学院的教授。他目前的研究兴趣包括电力系统状态估计、电力系统保护和工业自动化。KORRES博士是希腊技术商会的成员,也是国际大型电力系统理事会(CIGRE)研究委员会B5–保护和自动化的成员。

学术报告(五)

题目:Smart Citizens for Future Power Systems

报告时间:2022年12月7日(星期三)15:00-17:00

:MIADREZA SHAFIEKHAH 教授

工作单位:芬兰瓦萨大学

报告简介:

The concept of smart cities is developed to integrate smart technologies and solutions with the foremost goal of improving the citizens’ quality of life. To this end, smart cities enables modern functionalities including smart power systems and integrates emerging information and communication technologies (ICTs) to enhance operation of the future cities. Optimal operation of smart cities has a key impact on social welfare for all citizens, as well as meeting the needs of society. Based on the needs, active citizens can play the pivotal role in development of smart cities and consequently future power systems, thanks to advanced communications tools, energy technologies and Internet of Things (IoT). The decisions of smart citizens, such as active prosumers in energy area, will not be only based on energy cost and comfort level, but also, they will take emission and privacy into account.

报告人简介:

MIADREZA SHAFIEKHAH在伊朗塔比特默德尔斯(TMU)大学获得了第一个电气工程博士学位。他在葡萄牙贝拉内务大学(UBI)获得了第二个机电工程博士学位和第一个博士后学位。他在意大利萨莱诺大学(University of Salerno)获得了第二个博士后学位。他是UBI的助理教授,也是葡萄牙波尔图INESC TEC的副教授/科学家。目前,他是芬兰瓦萨大学(University of Vaasa)的教授(终身教职)。他是《IEEE可持续能源学报》、《IEEE智能交通系统学报》、IEEE系统杂志、IEEE接入、IEEE电力与能源开放接入期刊、IEEE动力工程快报和IET可再生能源发电》的副主编。自2017年以来,他是IEEE高级会员。2017年,他被环球科学教育与研究网络(USERN)授予物理科学领域的四大青年科学家。他是Research.com工程与技术排名中的顶尖科学家,并在IEEE会议上获得了五个最佳论文奖,在ISI科学网中获得了五篇高被引论文。他的研究兴趣包括电力市场、需求响应和电动汽车。

关闭

天博在线官网(中国)股份有限公司