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Comparative analysis of energy efficiency of AC and DC power supply systems in different regions and buildings
编号:401 访问权限:仅限参会人 更新:2022-05-21 16:02:18 浏览:162次 张贴报告

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摘要
With the advantages of high-efficiency access to distributed photovoltaic power sources and energy storage, DC power distribution systems have gradually become one of the key power distribution forms for the development of net-zero energy building structures. This research aims to explore the influencing factors of AC and DC energy efficiency improvement and find a distribution network system that is more in line with future net zero energy buildings under the premise of sustainable development. The energy efficiency and the improvement of AC and DC energy efficiency are compared after the factors that are in line with the characteristics of net zero energy buildings are substituted into various power grids. In terms of energy efficiency, find a more efficient topology of AC and DC systems. In order to better simulate the net zero energy building structure, the energy storage-friendly energy efficiency calculation method and fifteen different regional samples in Beijing, Shanghai and Shenzhen were used in the study. And through correlation analysis and control variable method to verify the advantages of different types of power distribution systems for different environments. Research has discovered a power distribution transmission system with a separate topology structure that is more in line with the efficient energy use of net zero energy buildings. The results provide theoretical support and calculation guidance basis for the future development of net zero energy buildings and the selection of power distribution systems with multi-regional structures.
关键词
Net zero energy building;DC power distribution system;AC and DC energy efficiency improvement;energy storage-friendly algorithm;photovoltaic power supply
报告人
JiangKeteng
清华四川能源互联网研究院

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重要日期

  • 会议日期

    05月27日

    2022

    05月29日

    2022

  • 02月28日 2022

    初稿截稿日期

  • 05月29日 2022

    注册截止日期

  • 06月22日 2022

    报告提交截止日期

主办单位
IEEE Beijing Section
China Electrotechnical Society
Southeast University
协办单位
IEEE Industry Applications Society
IEEE Nanjing Section
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