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Advanced Protection of Microgrids - Challenges, Solutions and Benefits.

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Advanced Protection of Microgrids - Challenges, Solutions and Benefits./
作者:	Yin, Yujie.
出版者:	Ann Arbor : ProQuest Dissertations & Theses, : 2020,
面頁冊數:	116 p.
附註:	Source: Dissertations Abstracts International, Volume: 82-06, Section: B.
Contained By:	Dissertations Abstracts International82-06B.
標題:	Electrical engineering. -
電子資源:	http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=28155389
ISBN:	9798698591689

Advanced Protection of Microgrids - Challenges, Solutions and Benefits.
Yin, Yujie.

Advanced Protection of Microgrids - Challenges, Solutions and Benefits. - Ann Arbor : ProQuest Dissertations & Theses, 2020 - 116 p.

Source: Dissertations Abstracts International, Volume: 82-06, Section: B.

Thesis (Ph.D.)--Mississippi State University, 2020.

This item must not be sold to any third party vendors.

Microgrids form small-scale power grids with distributed energy resources such as wind generators, photovoltaic panels, fuel cells, energy storage systems, and controllable loads. The characteristics of a microgrid include bi-directional power flows, flexible modes of operation, as well as variable short circuit currents. Due to the weak injection of fault current and short period nature, the connection of microgrids to the distribution systems or sub-transmission systems creates serious challenges to existing over-current based protection systems. The protection of microgrids is gaining substantial attentions in recent years because of large-scale deployment of microgrids and its impacts to existing electricity infrastructures. New protection methodologies and solutions applicable for microgrids are studied and presented in this dissertation.To effectively protect the microgrids, three areas of study are conducted based on the latest technologies in the protection systems, computing platforms, and communication networks. Firstly, the Point of Interconnection protection using distance protection with residual voltage compensation method for an ungrounded microgrid network is presented. This study resolves the challenging issues of detecting single-phase-to-ground fault at the interconnection line of microgrid. It can correctly identify the fault, properly measure the fault location, and timely isolate the fault without jeopardizing the stability of downstream microgrid system and/or causing dangerous overvoltage and arcing conditions. Secondly, the distribution substation busbar protection using the synchrophasor data is studied to realize fast and reliable bus differential protection. Comparing with other busbar protection schemes, this method has the advantages of low cost, easy configuration, fast expansion, and no circuit limitation. Lastly, an adaptive protection solution for distribution feeders with microgrids is developed and tested using RTDS. This study focuses on providing a framework for microgrid over-current coordination to improve the reliability and dependability of the protected network. Overall, the research studies presented in this dissertation will provide the power industries with new insights and methodologies on microgrid protection. Together with other protection functions, the proposed methods can provide effective microgrid protection against dangerous faults, reduce arcing condition, increase the possibility of seamless islanding, and consequently improve the reliability and resilience of microgrids.

ISBN: 9798698591689Subjects--Topical Terms:

649834
Electrical engineering.
Subjects--Index Terms:

Adaptive protection

Advanced Protection of Microgrids - Challenges, Solutions and Benefits.
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520 $a Microgrids form small-scale power grids with distributed energy resources such as wind generators, photovoltaic panels, fuel cells, energy storage systems, and controllable loads. The characteristics of a microgrid include bi-directional power flows, flexible modes of operation, as well as variable short circuit currents. Due to the weak injection of fault current and short period nature, the connection of microgrids to the distribution systems or sub-transmission systems creates serious challenges to existing over-current based protection systems. The protection of microgrids is gaining substantial attentions in recent years because of large-scale deployment of microgrids and its impacts to existing electricity infrastructures. New protection methodologies and solutions applicable for microgrids are studied and presented in this dissertation.To effectively protect the microgrids, three areas of study are conducted based on the latest technologies in the protection systems, computing platforms, and communication networks. Firstly, the Point of Interconnection protection using distance protection with residual voltage compensation method for an ungrounded microgrid network is presented. This study resolves the challenging issues of detecting single-phase-to-ground fault at the interconnection line of microgrid. It can correctly identify the fault, properly measure the fault location, and timely isolate the fault without jeopardizing the stability of downstream microgrid system and/or causing dangerous overvoltage and arcing conditions. Secondly, the distribution substation busbar protection using the synchrophasor data is studied to realize fast and reliable bus differential protection. Comparing with other busbar protection schemes, this method has the advantages of low cost, easy configuration, fast expansion, and no circuit limitation. Lastly, an adaptive protection solution for distribution feeders with microgrids is developed and tested using RTDS. This study focuses on providing a framework for microgrid over-current coordination to improve the reliability and dependability of the protected network. Overall, the research studies presented in this dissertation will provide the power industries with new insights and methodologies on microgrid protection. Together with other protection functions, the proposed methods can provide effective microgrid protection against dangerous faults, reduce arcing condition, increase the possibility of seamless islanding, and consequently improve the reliability and resilience of microgrids.
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