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Multi-Objective Finite-Time Control for the Interlinking Converter on Hybrid AC/DC Microgrids
Hybrid AC/DC microgrids are of special interest for energization due to their flexibility, low infrastructure investments, reduced conversion losses, and reliability against failures on the utility grid. In these systems, global economic dispatch needs communication between the AC and DC subgrids to...
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| Published in: | IEEE access 2021, Vol.9, p.116183-116193 |
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| creator | Martinez-Gomez, Manuel Navas, Alex Orchard, Marcos E. Bozhko, Serhiy Burgos-Mellado, Claudio Cardenas, Roberto |
| description | Hybrid AC/DC microgrids are of special interest for energization due to their flexibility, low infrastructure investments, reduced conversion losses, and reliability against failures on the utility grid. In these systems, global economic dispatch needs communication between the AC and DC subgrids to achieve a near-optimal solution since the incremental costs of all generators need to be equalized. Hence, this paper proposes a distributed coordination between generators by means of a finite-time controller for the microgrid's interlinking converter, which ensures an economic operation while taking care of the microgrid power utilization. The latter implies that a multi-objective control is performed by the interlinking converter, which uses shared variables of incremental costs and average powers from distributed generators in AC and DC sides. Also, an adaptive weighting method is proposed to adjust the control effort regarding the average power utilization of a side microgrid. The controller's performance is verified through simulations and experimental setups. Results show that the proposed strategy is able to perform a trade-off between the two control objectives while achieving a finite-time convergence even though communication delays exist. |
| doi_str_mv | 10.1109/ACCESS.2021.3105649 |
| format | article |
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In these systems, global economic dispatch needs communication between the AC and DC subgrids to achieve a near-optimal solution since the incremental costs of all generators need to be equalized. Hence, this paper proposes a distributed coordination between generators by means of a finite-time controller for the microgrid's interlinking converter, which ensures an economic operation while taking care of the microgrid power utilization. The latter implies that a multi-objective control is performed by the interlinking converter, which uses shared variables of incremental costs and average powers from distributed generators in AC and DC sides. Also, an adaptive weighting method is proposed to adjust the control effort regarding the average power utilization of a side microgrid. The controller's performance is verified through simulations and experimental setups. 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| subjects | Adaptive control Controllers Convergence Converters Costs Decentralized control distributed control Distributed generation Economic dispatch Economics finite-time control Generators hybrid AC/DC microgrid Hybrid power systems Integrated circuits Microgrids multi-objective control Multiple objective analysis Power dispatch Protocols Reliability engineering Weighting methods |
| title | Multi-Objective Finite-Time Control for the Interlinking Converter on Hybrid AC/DC Microgrids |
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