重要日期更新!新增报告专家|新加坡南洋理工大学|2024年第二届电力电子与电力系统大会(PEPSC 2024)邀您投稿!

文摘   2024-07-08 16:31   中国香港  

PEPSC 2024

第二届电力电子与电力系统大会



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新加坡南洋理工大学|2024/11/06-09




About PEPSC

2024年第二届电力电子与电力系统大会(PEPSC 2024)由电子科技大学和香港机械工程师学会主办,IEEE PES Singapore chapter技术协办,新加坡南洋理工大学电力工程中心、上海交通大学和杭州电子科技大学支持,《中国电机工程学报》、CSEE Journal of Power and Energy Systems(CSEE JPES)、《电力系统自动化》《新型电力系统》《电网技术》、High Voltage、《高电压技术》《发电技术》《电力系统保护与控制》《电机与控制学报》《电力信息与通信技术》《电力工程技术》、CPSS Transactions on Power Electronics and Applications(CPSS TPEA)、《电源学报》《南方能源建设》《内蒙古电力技术》《智慧电力与能源安全(英文)》、Journal of Computational and Cognitive Engineering和《中国电力》提供媒体支持,将于2024年11月6日至9日在新加坡南洋理工大学举办。

重要日期

投稿截止日期:2024年9月10日
录用通知日期:2024年9月25日
注册截止日期:2024年10月10日


组织单位


出版检索信息

1. 在符合IEEE Xplore的范围和质量要求的情况下,所有接收且做报告的论文将被提交到IEEE Xplore审核和收录。出版后由出版社提交 Engineering Village, Scopus, Web of Science等机构审核和检索。

2. 优秀且经拓展的文章(录用且宣读)将在会后被推荐至 IET Electric Power Applications (Online ISSN:1751-8679)期刊专刊“Advanced Power Converters, Protection, and Control for Electric Systems”, 出版后的文章将提交给SCIE, Scopus等数据库进行评审及检索。

PEPSC 2023已被Ei Compendex成功检索!



报告专家

Bikash Pal 教授

IEEE Fellow

伦敦帝国理工学院,英国

Bikash Pal是伦敦帝国理工学院电力系统教授。目前,他正在领导一个由六所大学组成的英国-中国可持续能源系统弹性运行研究联盟(ROSES),作为EPSRC-国家自然科学基金可持续能源供应项目的一部分。Bikash Pal教授是《联合国气候变化框架公约》清洁发展机制任命的专家小组的首席技术顾问。因其对电力系统稳定性和控制的贡献而成为IEEE院士。因对该领域的贡献而成为英国皇家工程院院士。他是IEEE配电系统估计与控制杰出讲师。

报告标题:Optimal Voltage Ride-Through of IBR-Dominated Power Systems

摘要:With the increasing penetration of inverter-based resources (IBRs), disconnecting IBRs from the system “at first sign of trouble” could exacerbate system instability under large voltage disturbances (sag, swell and unbalance). Several large blackouts or interruption events in relation to the improper operation of IBRs under voltage disturbances have been reported in recent years. Although a consensus has been reached that IBRs should be able to ride through various voltage disturbances while providing dynamic voltage support (DVS) to the grid, it is still not clear how to achieve the optimal DVS. This talk will share our recent research efforts in improving the DVS performance of IBRs under abnormal voltage conditions. Three critical questions are answered via optimisation. 1) What is the maximum DVS capability of a single IBR? 2) How to implement the maximum DVS without relying on the knowledge of grid model parameters? 3) How do multiple IBRs interact with each other in a network? The optimisation-based methodologies open up an effective way to explore sophisticated control strategies of IBRs under large disturbances, and the research findings complement and even challenge our physical intuition.

胡维昊 教授

IET Fellow

电子科技大学,中国

电子科技大学机械与电气工程学院教授。近年来,曾作为子课题负责人和核心成员承担和完成了由丹麦国家战略研究基金、欧盟地平线2020 战略规划基金、中丹可再生能源合作基金等资助的纵向课题10项。研究方向主要为智慧能源网络、风力发电、新能源系统规划和运行等。

报告标题:Artificial Intelligence and its Application in New-Type Power Systems

摘要:Recent years, renewable energy is experiencing a rapid growth, large number of renewable energy sources have been installed and connected to power systems. In addition to the large centralized wind farms connected to transmission grids, many distributed wind turbines and PV panels are operated as distributed generators in distribution systems. Traditional power system is undergoing a transformation and upgrade towards a new-type power system dominated by renewable energy sources. This presentation discusses several applications of artificial intelligence in new-type power systems, including the European and Chinese experiences. Some of our research at Institute of Smart Power and Energy Systems (ISPES), University of Electronics Science and Technology of China (UESTC) will also be introduced.


朱荣武 教授

哈尔滨工业大学,中国

朱荣武教授现任中国深圳哈尔滨工业大学电气工程系主任、正教授。他还是中科阳光现代配电系统与智能设备联合实验室主任。他是德国基尔克里斯蒂安·阿尔布雷茨大学电力电子系主任,可再生电网团队负责人。他领导/参与了30多个国际和国家研究项目,他的研究兴趣包括可再生能源集成、电力电子的控制、运营和数字化,以及可再生能源主导的电网。

报告标题:Talkative Power Conversion For Smart Power-Cyber Applications

摘要:The power electronics converters have been widely used in different fields in terms of smart home, industrial automation, electrical transportation, aerospace, and modern power system (wind energy, photovoltaic system, energy storage system and electrical vehicle charging station, HVDC and various flexible equipment). The smart operation and management of the aforementioned systems relies on a reliable communication system, which is used to transmit the operation information and status to intelligent agents to make an optimal decision for the power electronics converters-interfaced resources, due to the flexible control capability of power converters.

The talkative power conversion, which embeds the information into power via either reference or carrier-based modulation with zero extra hardware cost, can transfer the power and information simultaneously to enable wired or wireless smart power-cyber applications, with an acceptable communication bandwidth, thanks to the wide band gap devices. The talkative power conversion is an interdiscipline, bridging different realms of knowledges between the electrical engineering and communication engineering, and will open a new era to rethink the topology, modulation and control for power converters, which enable power-cyber functionalities.


专家信息持续更新中……



征稿主题

包括但不限于:

1. Power Electronics Topology and Control

电力电子拓扑与控制

2. Wind and solar storage power electronics

风光储电力电子

3.Power electronics for power transmission and distribution

输配电电力电子

4. Transportation electrification power electronics

交通电气化电力电子

主席:Kamyar Mehran,英国伦敦玛丽女王大学

5. Data center power electronics

数据中心电力电子

6. Power electronic devices

电力电子器件

7. Control, modeling, simulation

控制、建模、仿真

8. System stability and reliability

系统稳定性和可靠性

主持:李劲松,大连理工大学

9.Renewable energy conversion technology and new energy storage

可再生能源转换技术与新储能

主席:Subhasis Roy,印度加尔各答大学

10. New power system

新型电力系统

主席:刘佳,中国杭州电子科技大学

11. Smart grid and energy

智能电网与能源

主席:刘博,天津大学

12. Microgrids

微电网


更多:https://pepsc.org/cfp.html



征文信息
01

投稿方式

投稿系统:

https://cmt3.research.microsoft.com/PEPSC2024

扫码直达投稿系统

*注:仅全文投稿可出版,摘要投稿仅报告。



02

投稿须知

1)稿件必须用英文书写,图片、表格、公式中不允许有英文以外的其他语言出现;

2)摘要和全文投稿均应按照模板标准编写(模板可点击阅读原文前往会议官网获取),全文投稿的稿件应不少于5页,不超过10页;

3)论文应为原创且从未公开出版的,投稿内容应与主题相关,且有深度性,有创新性;

4)禁止抄袭;

5)禁止一稿多投。



03

其他参会方式

1. 报告者:如果你只想参加会议并作报告,不出版论文,只需要将摘要提交给会务组,经过评审后,将告知结果。注册成功的报告,将列入会议日程。有意者将摘要发送到会议邮箱info@pepsc.org/ambercao@smehk.org

2. 听众:注册成功的听众可以参加会议的所有分会。

3. 审稿人:我们诚挚欢迎相关领域专家参与审稿。



会议地点—新加坡南洋理工大学



新加坡南洋理工大学





联系我们




投稿参会联系方式

曹老师


18200296850

info@pepsc.org

ambercao@smehk.org

https://pepsc.org


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商务合作联系方式

陈老师

19160368706

(微信同号)

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HKSME
致力于前沿学术传播和国际学术交流,秉承“服务广大学者,促进学术交流”的理念,推进科研成果的国际化项目合作。
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