2023.11.14_ATES_Workshop on the energy storage
The ATES Vienna project heating networks with the aim of designing the first pilot ATES project in Austria. In addition, an identification and characterization of existing resources, their economic
7. Conclusion This paper presents an advanced control strategy for a grid-connected Battery Energy Storage System (BESS) using a bidirectional Vienna rectifier. The proposed system effectively manages power flow between the grid and the BESS, significantly enhancing grid stability and reliability.
The use of a specific bidirectional Vienna converter topology enables control of power flow from the AC grid to the BESS in charging mode, and from the BESS to the AC grid in discharging mode. Enhancing battery life and improving efficiency: The system aims to optimize energy conversion and storage efficiency.
Unlike many previous works, the primary objective of the proposed control strategy is to manage power flow between the grid and the battery energy storage systems (BESS) . Under normal conditions, power flows from the grid to the BESS, reversing in the presence of grid perturbations.
High Power Factor: Maintaining a high power factor is critical for reducing reactive power demand from the grid, which is a key advantage of the Vienna converter . This is particularly important in grid-connected applications where reactive power control is crucial for maintaining voltage stability.
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