杨甲甲博士学术报告
上传时间:2020-01-06 浏览次数:842

题目:Localized Energy Transaction Market Mechani** for Future Digital Grid System  未来数字电网的本地化能交易市场机制

单位:澳大利亚 新南威尔士大学 (University of New South Wales)

时间:2020-1-7星期上午930-10:30; 地点:25会议室


摘要:Currently, the energy system is transforming in an unprecedented manner due to decentralization and decarbonisation. A clear development is the so-called sector coupling, which refers to the growing interdependency of the electricity, heat/cooling, and transport sectors caused by overlapping infrastructure and using storable energy sources. Energy system must transform from an industrial age economy to a digital one using a high number of distributed energy resources (DERs) and the integrated operation of different infrastructure and **art/autonomous devices. The challenge is to coordinate and control the responses from a large number of generating and consuming entities without affecting the (local) constraints and general goals of the system, stability, and security of the supply. This requires shifts from passive to active load control and coordination to match demand and supply. The distributed nature of generation and consumption prescribes a decentralized system that enables coordination and optimization. As a result, decentralized intelligent energy transaction mechani**s are required, with the help of complex system theory and the application of state-of-the-art information and communication technology (ICT) to confront this challenge. Dr Jiajia Yang is now working with the UNSW Digital Grid Futures Institute and the ARC Research Hub for Integrated Energy Storage Solutions, to conduct cutting-edge research on the localized energy transaction mechani** for future digital grid system and address critical technical issues associated with the application of these mechani**s in real power systems. This presentation will report the latest research works of Dr Jiajia Yang on the localized electricity transaction market mechani**s in electricity distribution systems.

目前,由于权力下放和脱碳,能源系统正在以前所未有的方式进行转型。一个明显的发展是所谓的“部门耦合”,它指的是由于重叠的基础设施和使用可储存的能源而导致的电力、热力/制冷和运输部门之间日益增长的相互依赖。能源系统必须从工业时代经济转型为数字经济,使用大量的分布式能源(DERs)和不同基础设施和智能/自主设备的集成操作。挑战在于协调和控制来自大量生产和消费实体的响应,而不影响系统的(局部)约束和总体目标、供应的稳定性和安全性。这需要从被动负荷控制转向主动负荷控制和协调,以满足需求和供应。发电和消费的分散性规定了一个分散的系统,使协调和优化成为可能。因此,需要借助复杂系统理论和应用最先进的信息和通信技术(ICT)来应对这一挑战。博士目前正在与新南威尔士大学数字电网期货研究所和电弧研究中心研究综合能源存储解决方案,开展前沿研究局部能源事务的机制未来数字网格系统和解决关键技术问题与这些机制在实际电力系统的应用。本报告将报告杨博士在配电系统本地化交易市场机制方面的最新研究成果。

简介:Dr Jiajia Yangreceived his B.E. degree from Northeast Electric Power University, China, M.E. degree from Zhejiang University, China, and Ph.D. degree from the University of New South Wales, Australia, in 2011, 2014 and 2018 respectively, all in electrical engineering. He conducted PhD research at the University of Newcastle from 2014 to 2016 and the University of Sydney from 2016 to 2017. Dr Yang is currently a research associate in electrical engineering at the University of New South Wales, Australia and the lead investigator of the UNSW-Tsinghua University Collaborative Research Fund - Seed Grants. His research interests include electricity retailing, data mining in **art grid, renewable energy integration, and power markets.

Dr Yang is a reviewer for various international journals, including IEEE Transactions on Power Systems, IEEE Transactions on Smart Grid, IEEE Transactions on Industrial Informatics, etc.




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