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Multi-objective Control of Solar PV-BES Microgrid
https://orcid.org/http://orcid.org/0000-0003-4180-6628
A solar PV-BES-based microgrid, which operates seamlessly from an islanded mode to the grid-connected mode and vice versa, is presented. The mode transfer from an islanded mode to the grid-connected mode is performed without any transient. A second-order adaptive filter-based control technique is utilized in the grid-connected mode to operate the load-connected voltage source converter. It is utilized to estimate the power frequency component of the load current, which is utilized in power quality improvement of the grid. A bidirectional converter is controlled to minimize the battery current transients present during mode change from the grid-connected mode to an islanded mode and vice versa. The system performance is validated on a laboratory prototype under changing solar irradiance, load switching and mode transfer.
Multi-objective Control of Solar PV-BES Microgrid
https://orcid.org/http://orcid.org/0000-0003-4180-6628
A solar PV-BES-based microgrid, which operates seamlessly from an islanded mode to the grid-connected mode and vice versa, is presented. The mode transfer from an islanded mode to the grid-connected mode is performed without any transient. A second-order adaptive filter-based control technique is utilized in the grid-connected mode to operate the load-connected voltage source converter. It is utilized to estimate the power frequency component of the load current, which is utilized in power quality improvement of the grid. A bidirectional converter is controlled to minimize the battery current transients present during mode change from the grid-connected mode to an islanded mode and vice versa. The system performance is validated on a laboratory prototype under changing solar irradiance, load switching and mode transfer.
Multi-objective Control of Solar PV-BES Microgrid
https://orcid.org/http://orcid.org/0000-0003-4180-6628
A solar PV-BES-based microgrid, which operates seamlessly from an islanded mode to the grid-connected mode and vice versa, is presented. The mode transfer from an islanded mode to the grid-connected mode is performed without any transient. A second-order adaptive filter-based control technique is utilized in the grid-connected mode to operate the load-connected voltage source converter. It is utilized to estimate the power frequency component of the load current, which is utilized in power quality improvement of the grid. A bidirectional converter is controlled to minimize the battery current transients present during mode change from the grid-connected mode to an islanded mode and vice versa. The system performance is validated on a laboratory prototype under changing solar irradiance, load switching and mode transfer.
Multi-objective Control of Solar PV-BES Microgrid
J. Inst. Eng. India Ser. B
Gupta, Tripurari Nath (author) / Singh, Bhim (author) / Naqvi, Syed Bilal Qaiser (author)
Journal of The Institution of Engineers (India): Series B ; 103 ; 153-161
2022-02-01
9 pages
Article (Journal)
Electronic Resource
English
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