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@phdthesis{04_distribution_system-0400_reactive_power_control-2023_Yamashita,
pdf = {../20_pdf/04_distribution_system/0400_reactive_power_control/2023_Yamashita.pdf},
title = {{PV出力変動に伴うSVR動作増加を低減するVolt}-var制御を適用した配電線電圧制御の最適化に関する研究},
url = {http://www.scopus.com/inward/record.url?scp=85141328972&partnerID=8YFLogxK},
abstract = {Due to the expansion of the photovoltaic (PV) power generation expected in the future, voltage fluctuations that occur locally in the distribution system are regarded as a problem. As one method of the suppressing this voltage fluctuations, Volt-var function of the smart inverter, that enables more flexible voltage control by reactive power output, is expected. The smart inverter not only just outputs photovoltaic power, but also has grid support functions that helps improve the stability of the grid. Considering new application of Volt-var control by smart inverter, it is necessary to construct a control system that sets appropriate control parameters according to the situation of the distribution line to which it is applied. The motivation of this research is to optimize the voltage control effect when the smart inverter is applied to distribution system with large amount of PV. Volt-var control behavior is defined by the curve point setting. It seems that the Volt-var curve setting could affect the behavior of tap changer control, and the reactive power output of the Volt-var control changes depending on the tap position. In this study, we propose a method for determining the Volt-var control parameters in consideration of the voltage control sharing with the tap changer control. And the effect of the proposed Volt-var control method is quantitatively evaluated by numerical simulation.},
urldate = {2024-12-03},
school = {早稲田大学},
author = {山下裕輔},
year = {2023},
annote = {Publisher Copyright:© 2021 The Institute of Electrical Engineers of Japan.},
keys = {04_distribution_system}
}
@article{04_distribution_system-0401_distribution_line_model-1909_Baran,
pdf = {../20_pdf/04_distribution_system/0401_distribution_line_model/1909_Baran.pdf},
author = {Mesut E. Baran and Felix F. Wu},
journal = {IEEE Transactions on Power Deliverly},
number = {2},
title = {Network Reconfiguration in Distribution systems for loss reduction and load balancing},
volume = {4},
year = {1989},
keys = {04_distribution_system}
}
@misc{04_distribution_system-0401_distribution_line_model-2017_waseda,
pdf = {../20_pdf/04_distribution_system/0401_distribution_line_model/2017_waseda.pdf},
keys = {04_distribution_system},
author = {早稲田大学 スマート社会技術融合研究機構},
howpublished = {\url{https://www.waseda.jp/inst/across/news/2536}},
title = {地域特性を都市規模で捉えた配電系統モデルを国内外で公開},
year = {2017},
note = {アクセス日:2024年12月9日}
}
@misc{04_distribution_system-0402_projects-2023_NEDO,
pdf = {../20_pdf/04_distribution_system/0402_projects/2023_NEDO.pdf},
keys = {04_distribution_system},
author = {NEDO 国立研究開発法人 新エネルギー・産業技術総合開発機構},
howpublished = {\url{https://www.nedo.go.jp/activities/ZZJP_100150.html}},
title = {再生可能エネルギーの大量導入に向けた次世代電力ネットワーク安定化技術開発},
year = {2023},
url = {https://www.nedo.go.jp/activities/ZZJP_100150.html},
note = {アクセス日:2024年12月9日}
}
@article{04_distribution_system-0404_with_macine_learning-2023_Jayanthi,
pdf = {../20_pdf/04_distribution_system/0404_with_macine_learning/2023_Jayanthi.pdf},
keys = {04_distribution_system},
author = {G. Jayanthi and K. Balachander},
journal = {CT&F - Ciencia, Tecnología & Futuro},
number = {2},
title = {Energy management system using artificial fish swarm speed optimized fuzzy controller based on a deep recurrent neural learning classifier},
volume = {13},
year = {2023},
pages = {29--37},
doi = {https://doi.org/10.29047/01225383.677}
}
@techreport{04_distribution_system-0400_reactive_power_control-2013_Hatta_PV_SVC,
pdf = {../20_pdf/04_distribution_system/0400_reactive_power_control/2013_Hatta_PV_SVC.pdf},
keys = {04_distribution_system},
author = {八太啓之},
institution = {電力中央研究所},
title = {PV用PCSの無効電力制御によるSVC容量低減効果のシミュレーション評価},
year = {2013},
volume = {R13019}
}
@article{04_distribution_system-0405_power_factor-2011_denkyo-ken,
pdf = {../20_pdf/04_distribution_system/0405_power_factor/2011_denkyo-ken.pdf},
keys = {04_distribution_system},
author = {配電系統力率問題対応技術専門委員会},
journal = {電気協同研究},
number = {1},
title = {配電系統における力率問題とその対応},
volume = {66},
year = {2011}
}
@article{04_distribution_system-0405_power_factor-2011_denkyo-ken-eng,
pdf = {../20_pdf/04_distribution_system/0405_power_factor/2011_denkyo-ken.pdf},
keys = {04_distribution_system},
author = {Electric Technology Research Association},
number = {1},
title = {The problem of power factor in a distribution network (in Japanese)},
volume = {66},
year = {2011}
}
@techreport{04_distribution_system-0406_equipments-2011_denkyo-ken_LRT,
pdf = {../20_pdf/04_distribution_system/0406_equipments/2011_denkyo-ken_LRT.pdf},
keys = {04_distribution_system},
author = {負荷時タップ切換装置の保守・点検高度化専門委員会},
institution = {電気協同研究会},
title = {負荷時タップ切替装置の保守・点検ガイドライン},
volume = {67},
number = {4},
year = {2011}
}
@techreport{04_distribution_system-0403_CALDG-2016_CALDG_jp_CRIEPI_report_2nd,
pdf = {../20_pdf/04_distribution_system/0403_CALDG/2016_CALDG_jp_CRIEPI_report_2nd.pdf},
keys = {04_distribution_system},
author = {上村敏 and 三宅靖彦},
institution = {電力中央研究所},
title = {配電系統総合解析ツールの開発(その2)-PV 連系検討機能の追加と実用性の向上-},
year = {2016}
}
@misc{04_distribution_system-0402_projects-2024_GRID_CODE_faster_QC_battery,
pdf = {../20_pdf/04_distribution_system/0402_projects/2024_GRID_CODE_faster_QC_battery.pdf},
keys = {04_distribution_system},
author = {電力広域的運営推進機関},
howpublished = {\url{https://www.meti.go.jp/shingikai/enecho/shoene_shinene/shin_energy/keito_wg/pdf/051_04_02.pdf}最終確認2025年1月27日},
title = {再エネ大量導入のために必要となるグリッドコードの検討状況について},
year = {2024},
month = {5},
day = {24}
}
@misc{04_distribution_system-0405_power_factor-2021_OCCTO_Qcontrol_condition,
pdf = {../20_pdf/04_distribution_system/0405_power_factor/2021_OCCTO_Qcontrol_condition.pdf},
keys = {04_distribution_system},
author = {電力広域的運営推進機関},
howpublished = {\url{https://www.occto.or.jp/iinkai/gridcode/2021/files/gridcode_07_07.pdf}最終確認2025年1月27日},
title = {個別技術要件検討「電圧変動対策(力率設定)」},
year = {2021},
month = {9},
day = {16}
}
@inproceedings{04_distribution_system-0403_CALDG-2013_CALDG_CIRED,
pdf = {../20_pdf/04_distribution_system/0403_CALDG/2013_CALDG_CIRED.pdf},
keys = {04_distribution_system},
author = {Uemura, Satoshi and Kobayashi, Hiromu},
booktitle = {22nd International Conference and Exhibition on Electricity Distribution (CIRED 2013)},
editor = {},
title = {Development of comprehensive analysis tool for distribution system with distributed generations and customer system},
year = {2013},
pages = {1-4}
}
@techreport{04_distribution_system-0404_with_macine_learning-2002_Yoshimoto,
pdf = {../20_pdf/04_distribution_system/0404_with_macine_learning/2002_Yoshimoto.pdf},
keys = {04_distribution_system},
author = {中野幸夫 and 由本勝久},
institution = {電力中央研究所},
title = {不在家庭への給電再開における安全確認支援手法一電力ベクトル分解法の提案と装置の試作},
vol = {TO152},
year = {2002}
}
@techreport{04_distribution_system-0407_measure-2015_上村,
pdf = {../20_pdf/04_distribution_system/0407_measure/2015_上村.pdf},
keys = {04_distribution_system},
author = {坂口潤一 and 上村敏 and 松田勝弘},
institution = {電力中央研究所},
title = {配電線センサー情報による区間単位での太陽光発電出力推定手法の開発},
vol = {R14012},
year = {2015}
}
@techreport{04_distribution_system-0403_CALDG-2019_Miyake,
pdf = {../20_pdf/04_distribution_system/0403_CALDG/2019_Miyake.pdf},
keys = {04_distribution_system},
author = {三宅靖彦 and 上村敏},
institution = {電力中央研究所},
title = {配電系統用電圧制御機器における整定値算定手法の開発},
year = {2019}
}
@techreport{04_distribution_system-0407_measure-2011_Uemura,
pdf = {../20_pdf/04_distribution_system/0407_measure/2011_Uemura.pdf},
keys = {04_distribution_system},
author = {上村敏 and 竹中清},
institution = {電力中央研究所},
title = {配電系統用三相不平衡潮流計算プログラムと負荷分布推定手法の開発},
vol = {R10028},
year = {2011}
}
@techreport{04_distribution_system-0407_measure-2017_Nakayama,
pdf = {../20_pdf/04_distribution_system/0407_measure/2017_Nakayama.pdf},
keys = {04_distribution_system},
author = {中山陽介 and 上村敏},
institution = {電力中央研究所},
title = {配電線センサ情報による太陽光発電出力推定手法の開発-ベクトル分解法の推定精度向上-},
vol = {R16301},
year = {2017}
}
@techreport{04_distribution_system-0407_measure-2005_Tanaka,
pdf = {../20_pdf/04_distribution_system/0407_measure/2005_Tanaka.pdf},
keys = {04_distribution_system},
author = {田中将 and 上村敏 and 小林広武},
institution = {電力中央研究所},
title = {センサー開閉器情報に基づく配電系統の電圧推定法},
vol = {R040401111},
year = {2005}
}
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