Research on Bi-level Cooperative Robust Planning of Distributed Renewable Energy in Incremental Distribution Network Considering Demand Response

Research on Bi-level Cooperative Robust Planning of Distributed Renewable Energy in Incremental Distribution Network Considering Demand Response

The paper constructs a two-level collaborative planning model for incremental distribution network considering demand response and distributed renewable energy access. In the upper model, the goal is to minimize the investment cost of the distribution network, and the lower model takes the system�...

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Main Authors: Yi Sui, Jianbin Wu, Huiqing Liu, Chunhui Li, Shuai Zhao, Jin Gao, Yang Bai
Format: Article
Language:English
Published: EDP Sciences 2021-01-01
Series:E3S Web of Conferences
Online Access:https://www.e3s-conferences.org/articles/e3sconf/pdf/2021/47/e3sconf_icepe2021_01014.pdf
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spelling doaj-a1a29c60e49c45b9a07ea0a04c0c86c12021-06-18T08:20:27ZengEDP SciencesE3S Web of Conferences2267-12422021-01-012710101410.1051/e3sconf/202127101014e3sconf_icepe2021_01014Research on Bi-level Cooperative Robust Planning of Distributed Renewable Energy in Incremental Distribution Network Considering Demand ResponseYi Sui0Jianbin Wu1Huiqing Liu2Chunhui Li3Shuai Zhao4Jin Gao5Yang Bai6State Grid Shanxi Electric Power Company Economic and Technical Research InstituteState Grid Shanxi Electric Power Company Economic and Technical Research InstituteState Grid Shanxi Electric Power Company Economic and Technical Research InstituteState Grid Shanxi Electric Power Company Economic and Technical Research InstituteState Grid Shanxi Electric Power Company Economic and Technical Research InstituteState Grid Shanxi Electric Power Company Economic and Technical Research InstituteState Grid Shanxi Electric Power Company Economic and Technical Research InstituteThe paper constructs a two-level collaborative planning model for incremental distribution network considering demand response and distributed renewable energy access. In the upper model, the goal is to minimize the investment cost of the distribution network, and the lower model takes the system's operating cost optimally, fully considers the uncertainty of renewable energy output, and introduces robust optimization to solve it. It can be seen from the simulation results that the consideration of demand response in the distribution network planning is conducive to delaying investment costs, enhancing power user load flexibility, and effectively avoiding load shedding and other problems. The research results lay the foundation for the feasibility of demand response resources participating in power grid planninghttps://www.e3s-conferences.org/articles/e3sconf/pdf/2021/47/e3sconf_icepe2021_01014.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Yi Sui
Jianbin Wu
Huiqing Liu
Chunhui Li
Shuai Zhao
Jin Gao
Yang Bai
spellingShingle Yi Sui
Jianbin Wu
Huiqing Liu
Chunhui Li
Shuai Zhao
Jin Gao
Yang Bai
Research on Bi-level Cooperative Robust Planning of Distributed Renewable Energy in Incremental Distribution Network Considering Demand Response
E3S Web of Conferences
author_facet Yi Sui
Jianbin Wu
Huiqing Liu
Chunhui Li
Shuai Zhao
Jin Gao
Yang Bai
author_sort Yi Sui
title Research on Bi-level Cooperative Robust Planning of Distributed Renewable Energy in Incremental Distribution Network Considering Demand Response
title_short Research on Bi-level Cooperative Robust Planning of Distributed Renewable Energy in Incremental Distribution Network Considering Demand Response
title_full Research on Bi-level Cooperative Robust Planning of Distributed Renewable Energy in Incremental Distribution Network Considering Demand Response
title_fullStr Research on Bi-level Cooperative Robust Planning of Distributed Renewable Energy in Incremental Distribution Network Considering Demand Response
title_full_unstemmed Research on Bi-level Cooperative Robust Planning of Distributed Renewable Energy in Incremental Distribution Network Considering Demand Response
title_sort research on bi-level cooperative robust planning of distributed renewable energy in incremental distribution network considering demand response
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2021-01-01
description The paper constructs a two-level collaborative planning model for incremental distribution network considering demand response and distributed renewable energy access. In the upper model, the goal is to minimize the investment cost of the distribution network, and the lower model takes the system's operating cost optimally, fully considers the uncertainty of renewable energy output, and introduces robust optimization to solve it. It can be seen from the simulation results that the consideration of demand response in the distribution network planning is conducive to delaying investment costs, enhancing power user load flexibility, and effectively avoiding load shedding and other problems. The research results lay the foundation for the feasibility of demand response resources participating in power grid planning
url https://www.e3s-conferences.org/articles/e3sconf/pdf/2021/47/e3sconf_icepe2021_01014.pdf
work_keys_str_mv AT yisui researchonbilevelcooperativerobustplanningofdistributedrenewableenergyinincrementaldistributionnetworkconsideringdemandresponse
AT jianbinwu researchonbilevelcooperativerobustplanningofdistributedrenewableenergyinincrementaldistributionnetworkconsideringdemandresponse
AT huiqingliu researchonbilevelcooperativerobustplanningofdistributedrenewableenergyinincrementaldistributionnetworkconsideringdemandresponse
AT chunhuili researchonbilevelcooperativerobustplanningofdistributedrenewableenergyinincrementaldistributionnetworkconsideringdemandresponse
AT shuaizhao researchonbilevelcooperativerobustplanningofdistributedrenewableenergyinincrementaldistributionnetworkconsideringdemandresponse
AT jingao researchonbilevelcooperativerobustplanningofdistributedrenewableenergyinincrementaldistributionnetworkconsideringdemandresponse
AT yangbai researchonbilevelcooperativerobustplanningofdistributedrenewableenergyinincrementaldistributionnetworkconsideringdemandresponse
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