Item type |
デフォルトアイテムタイプ(フル)(1) |
公開日 |
2021-08-12 |
タイトル |
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タイトル |
A Comparative Design of a Campus Microgrid Considering a Multi-Scenario and Multi-Objective Approach |
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言語 |
en |
作成者 |
Huang, Yongyi
Masrur, Hasan
Shigenobu, Ryuto
Hemeida, Ashraf Mohamed
Mikhaylov, Alexey
Senjyu, Tomonobu
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アクセス権 |
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アクセス権 |
open access |
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アクセス権URI |
http://purl.org/coar/access_right/c_abf2 |
権利情報 |
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言語 |
ja |
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権利情報 |
© 2021 by the authors. |
権利情報 |
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言語 |
en |
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権利情報 |
Creative Commons Attribution 4.0 |
権利情報 |
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言語 |
en |
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権利情報 |
https://creativecommons.org/licenses/by/4.0 |
主題 |
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言語 |
en |
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主題Scheme |
Other |
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主題 |
NSGA-II |
主題 |
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言語 |
en |
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主題Scheme |
Other |
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主題 |
multi-objective optimization |
主題 |
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言語 |
en |
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主題Scheme |
Other |
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主題 |
solar/battery/grid |
主題 |
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言語 |
en |
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主題Scheme |
Other |
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主題 |
microgrid |
主題 |
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言語 |
en |
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主題Scheme |
Other |
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主題 |
peak load shifting |
主題 |
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言語 |
en |
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主題Scheme |
Other |
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主題 |
constant power supply |
内容記述 |
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内容記述タイプ |
Other |
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内容記述 |
This article proposes a plan to replace real-time power with constant power from the grid to reduce costs and reduce the impact of the micro-grid on the main grid at the same time. Most of the peak electricity consumption periods of universities or some enterprise institutions are during the daytime. If solar energy can be used reasonably at this time, it can provide a good guarantee of peak power. In this study, a grid-linked solar-plus-storage micro-grid was used to supply power to a university located in Okinawa, Japan. The non-dominated sorting genetic algorithm II (NSGA-II) was used to optimize the model size, and the loss of power supply probability (LPSP), life cycle cost (LCC), and waste of energy (WE) were taken as the optimization indicators. For this study, three scenarios were considered where the first scheme (Case 1) was a comparison scheme, which used a PV battery and real-time power from the infinity bus. Both the second and third cases used constant power. While Case 2 used constant power throughout the year, Case 3 used daily constant power. The optimal solutions for the power supply units were grouped into three cases where Case 1 was found to be the most expensive one. It was found that the costs of Cases 2 and 3 were 62.8% and 63.3% less than Case 1. As a result, the waste of energy was found to be more significant than Case 1: 70 times and 60 times, respectively. On the contrary, Case 1 had 15.2% and 16.7% less carbon emissions than Case 2 and Case 3, respectively. This article put forward the idea of constant power supply growth at the financial markets, which breaks the traditional way in which the power supply side follows the user’s consumption. While reducing costs, it reduces the impact on large-scale power grids and can also ensure the reliability of campus microgrids. |
内容記述 |
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内容記述タイプ |
Other |
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内容記述 |
論文 |
出版者 |
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言語 |
en |
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出版者 |
MDPI |
言語 |
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言語 |
eng |
資源タイプ |
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資源タイプ |
journal article |
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資源タイプ識別子 |
http://purl.org/coar/resource_type/c_6501 |
出版タイプ |
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出版タイプ |
VoR |
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出版タイプResource |
http://purl.org/coar/version/c_970fb48d4fbd8a85 |
識別子 |
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識別子 |
http://hdl.handle.net/20.500.12000/48765 |
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識別子タイプ |
HDL |
関連情報 |
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識別子タイプ |
DOI |
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関連識別子 |
https://doi.org/10.3390/en14112853 |
関連情報 |
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識別子タイプ |
DOI |
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関連識別子 |
https://doi.org/10.3390/en14112853 |
収録物識別子 |
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収録物識別子タイプ |
ISSN |
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収録物識別子 |
1996-1073 |
収録物名 |
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言語 |
en |
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収録物名 |
Energies |
書誌情報 |
巻 14,
号 11,
発行日 2021-05-21
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