メタヒューリスティクスを用いた蓄電池・蓄熱槽・熱源の統合的最適運用手法の開発

  • 池田 伸太郎
    東京大学大学院工学系研究科建築学専攻 修士課程
  • 大岡 龍三
    東京大学生産技術研究所 教授・博士(工学)

書誌事項

タイトル別名
  • DEVELOPMENT OF METAHEURISTIC OPTIMIZATION METHODS FOR OPERATING ENERGY SYSTEMS INCLUDING RESIDUAL BATTERY AND THERMAL STORAGE TANK
  • メタヒューリスティクス オ モチイタ チクデンチ ・ チクネツソウ ・ ネツゲン ノ トウゴウテキ サイテキ ウンヨウ シュホウ ノ カイハツ

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抄録

Recently, a residual battery and a thermal storage tank (TST) have become increasingly important for controlling a power system frequency because they enhance the amount of energy generated from renewable resources. Although there are many studies about system optimization without storage systems, they are included in few optimization studies. Some mathematical programming methods have been used to optimize an operation schedule for these systems. Although they can theoretically derive results, their execution time is overly long. Therefore, the authors have used metaheuristics to develop an optimization method for operating a residual battery, a TST, and output of heat sources. This method is faster than mathematical programming methods for deriving a semi-optimal solution for an energy system including a residual battery and a TST.

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