多数の動揺モードを実現する発電機モデルの構築とロバスト制御を追求した発電機H∞制御設計の検討
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概要
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The modern electric power system of our country is high density, large-scale and complication. The multimode oscillations occurs in the generator connected with this system. It is being mixed to high-and low-frequency oscillations between the power systems and many other oscillations, such as the SSR and cross-compound machine oscillations, which is specific mode oscillations of generator. In this paper, first the generator actual model that realizes the multimode oscillations is constructed. Next, model reduction of this actual model is done, and design model to use for the control design is composed. Then, the H∞ control design in modern control theory is presented by using this design model which derives damping of power system oscillations and robust stabilization of other multimodes. Finally, a goal for control design is verified by simulation on the actual model with H∞ controller.
- 福井工業大学の論文
- 2003-03-20
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- 電力系統の系統安定化とロバスト制御を追及した発電機適応形H∞制御システムの構築
- 多数の動揺モードを実現する発電機モデルの構築とロバスト制御を追求した発電機H∞制御設計の検討
- 多数の動揺モードを実現する発電機モデルの構築とロバスト制御を追及した発電機H∞制御設計の検討