Combined Control of DFIG-Based Wind Turbine and Battery Energy Storage System for Frequency Response in Microgrids
This paper presents a novel methodology for frequency control of a microgrid through doubly fed induction generator (DFIG) employing battery energy storage system (BESS) and droop control. The proposed microgrid frequency control is the result of the active power injection from the droop control imp...
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MDPI AG
2020-02-01
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| Series: | Energies |
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| Online Access: | https://www.mdpi.com/1996-1073/13/4/894 |
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doaj-050e5bd3907c4dfcbb17dae053cf699d2020-11-25T00:36:20ZengMDPI AGEnergies1996-10732020-02-0113489410.3390/en13040894en13040894Combined Control of DFIG-Based Wind Turbine and Battery Energy Storage System for Frequency Response in MicrogridsLuis. A. G. Gomez0Ahda P. Grilo1M. B. C. Salles2A. J. Sguarezi Filho3Laboratory of Advanced Electric Grids-LGrid, Polytechnic School, University of São Paulo - USP, São Paulo CO 05508-010, BrazilCenter for Engineering, Modeling and Applied Social Sciences (CECS), Federal University of ABC (UFABC), Santo Andre CO 09210-580, BrazilLaboratory of Advanced Electric Grids-LGrid, Polytechnic School, University of São Paulo - USP, São Paulo CO 05508-010, BrazilCenter for Engineering, Modeling and Applied Social Sciences (CECS), Federal University of ABC (UFABC), Santo Andre CO 09210-580, BrazilThis paper presents a novel methodology for frequency control of a microgrid through doubly fed induction generator (DFIG) employing battery energy storage system (BESS) and droop control. The proposed microgrid frequency control is the result of the active power injection from the droop control implemented in the grid side converter (GSC) of the DFIG, and the BESS implemented in the DC link of the back-to-back converter also in the DFIG. This methodology guarantees the battery system charge during operation of the connected DFIG in the network, and the frequency control in microgrid operation after an intentional disturbance. In order for the DFIG to provide frequency support to the microgrid, the best-performing droop gain value is selected. Afterwards its performance is evaluated individually and together with the power injected by the battery. The power used for both battery charging and frequency support is managed and processed by the GSC without affecting the normal operation of the wind system. The simulation tests are performed using Matlab/Simulink toolbox.https://www.mdpi.com/1996-1073/13/4/894battery energy storage system (bess)battery managementdoubly fed induction generator (dfig)droop controlfrequency control |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Luis. A. G. Gomez Ahda P. Grilo M. B. C. Salles A. J. Sguarezi Filho |
| spellingShingle |
Luis. A. G. Gomez Ahda P. Grilo M. B. C. Salles A. J. Sguarezi Filho Combined Control of DFIG-Based Wind Turbine and Battery Energy Storage System for Frequency Response in Microgrids Energies battery energy storage system (bess) battery management doubly fed induction generator (dfig) droop control frequency control |
| author_facet |
Luis. A. G. Gomez Ahda P. Grilo M. B. C. Salles A. J. Sguarezi Filho |
| author_sort |
Luis. A. G. Gomez |
| title |
Combined Control of DFIG-Based Wind Turbine and Battery Energy Storage System for Frequency Response in Microgrids |
| title_short |
Combined Control of DFIG-Based Wind Turbine and Battery Energy Storage System for Frequency Response in Microgrids |
| title_full |
Combined Control of DFIG-Based Wind Turbine and Battery Energy Storage System for Frequency Response in Microgrids |
| title_fullStr |
Combined Control of DFIG-Based Wind Turbine and Battery Energy Storage System for Frequency Response in Microgrids |
| title_full_unstemmed |
Combined Control of DFIG-Based Wind Turbine and Battery Energy Storage System for Frequency Response in Microgrids |
| title_sort |
combined control of dfig-based wind turbine and battery energy storage system for frequency response in microgrids |
| publisher |
MDPI AG |
| series |
Energies |
| issn |
1996-1073 |
| publishDate |
2020-02-01 |
| description |
This paper presents a novel methodology for frequency control of a microgrid through doubly fed induction generator (DFIG) employing battery energy storage system (BESS) and droop control. The proposed microgrid frequency control is the result of the active power injection from the droop control implemented in the grid side converter (GSC) of the DFIG, and the BESS implemented in the DC link of the back-to-back converter also in the DFIG. This methodology guarantees the battery system charge during operation of the connected DFIG in the network, and the frequency control in microgrid operation after an intentional disturbance. In order for the DFIG to provide frequency support to the microgrid, the best-performing droop gain value is selected. Afterwards its performance is evaluated individually and together with the power injected by the battery. The power used for both battery charging and frequency support is managed and processed by the GSC without affecting the normal operation of the wind system. The simulation tests are performed using Matlab/Simulink toolbox. |
| topic |
battery energy storage system (bess) battery management doubly fed induction generator (dfig) droop control frequency control |
| url |
https://www.mdpi.com/1996-1073/13/4/894 |
| work_keys_str_mv |
AT luisaggomez combinedcontrolofdfigbasedwindturbineandbatteryenergystoragesystemforfrequencyresponseinmicrogrids AT ahdapgrilo combinedcontrolofdfigbasedwindturbineandbatteryenergystoragesystemforfrequencyresponseinmicrogrids AT mbcsalles combinedcontrolofdfigbasedwindturbineandbatteryenergystoragesystemforfrequencyresponseinmicrogrids AT ajsguarezifilho combinedcontrolofdfigbasedwindturbineandbatteryenergystoragesystemforfrequencyresponseinmicrogrids |
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