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データ格付けサービス実現のための数理基盤の構築 (2022)

Fujisawa, Katsuki ; Kaji, Shizuo ; Ishihara, Toru ; [et al.]

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Publication Date: 2023-11-03

Language: Japanese

Type: proceedings , doc-type:Other

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時間集約によるエネルギー供給システムの近似最適設計解の導出および評価 (階層的最適化を援用した近似最適設計) (2022)

Yokoyama, Ryohei ; Shinano, Yuji ; Wakui, Tetsuya

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Publication Date: 2024-04-26

Description: For the purpose of attaining the highest performance of energy supply systems, it is important to design the systems optimally in consideration of their operational strategies for seasonal and hourly variations in energy demands. An ap- proach to efficiently solve such an optimal design problem with a large number of periods for variations in energy de- mands is to derive an approximate optimal design solution by aggregating periods with a clustering method. However, such an approach does not provide any information on the accuracy for the optimal value of the objective function. The purpose of this paper is to propose a time aggregation approach for deriving suitable aprroximate optimal design solutions and evaluting their values of the objective function accurately. This time aggregation approach is realized by combining a robust optimal design method under uncertain energy demands and a hierarchical approach for solving large scale optimal design problems. A case study is conducted for a cogeneration system with a practical configuration, and it turns out that the proposed approach enables one to evaluate effective upper and lower bounds for the optimal value of the objective function as compared with those obtained by a conventional approach.

Language: Japanese

Type: article , doc-type:article

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時間集約によるエネルギー供給システムの近似最適設計解の導出および評価 (階層的最適化を援用した設計解の評価) (2022)

Yokoyama, Ryohei ; Shinano, Yuji ; Wakui, Tetsuya

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Publication Date: 2024-04-26

Description: For the purpose of attaining the highest performance of energy supply systems, it is important to design the systems optimally in consideration of their operational strategies for seasonal and hourly variations in energy demands. An ap- proach to solve such an optimal design problem with a large number of periods efficiently is to derive an approximate optimal design solution by aggregating periods with a clustering method. However, such an approach does not provide any information on the accuracy for the optimal value of the objective function. The purpose of this paper is to provide a time aggregation method for deriving aprroximate optimal design solutions and evaluting their values of the objective function. Especially, a method of evaluating design solutions is presented here using both methods of evaluating the robustness under uncertain energy demands and solving optimal design problems by a hierarchical approach. A case study is conducted for a cogeneration system with a practical configuration, and it turns out that the proposed approach enables one to evaluate effective lower bounds for the optimal value of the objective function as compared with those obtained by a conventional approach.

Language: Japanese

Type: article , doc-type:article

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エネルギー供給システムの設計および運用の階層的関係を考慮した最適化 (蓄エネルギー機器を有するシステムへの適用) (2021)

Yokoyama, Ryohei ; Shinano, Yuji ; Wakui, Tetsuya

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Publication Date: 2023-04-17

Description: Mixed-integer linear programming (MILP) methods have been applied widely to optimal design of energy supply systems. A hierarchical MILP method has been proposed to solve such optimal design problems efficiently. In addition, some strategies have been proposed to enhance the computation efficiency furthermore. As one of the strategies, a method of reducing model by time aggregation has been proposed to search design candidates efficiently in the relaxed optimal design problem at the upper level. In this paper, the hierarchical MILP method with the strategies has been extendedly applied to the optimal design of energy supply systems with storage units. Especially, the method of re- ducing model is extended by aggregating representative days and sampling times differently in consideration of the characteristics of storage units. A case study is conducted on the optimal design of a gas turbine cogeneration system with a thermal storage unit for district energy supply. Through the study, it turns out the hierarchical MILP method is effective to derive the optimal solution as compared with a conventional method. It also turns out that the model reduction with the special time aggregation is effective to shorten the computation time as compared with that without time aggregation in case that the number of candidates for equipment capacities is relatively small.

Language: Japanese

Type: article , doc-type:article

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