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Three-Phase Grid Connected Bi-Directional Charging System to Control Active and Reactive Power with Harmonic Compensation
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Zeitschriftentitel: | International Journal of Emerging Electric Power Systems |
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Personen und Körperschaften: | , |
In: | International Journal of Emerging Electric Power Systems, 20, 2019, 2 |
Format: | E-Article |
Sprache: | Unbestimmt |
veröffentlicht: |
Walter de Gruyter GmbH
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Schlagwörter: |
author_facet |
Behera, Maheswar Prasad Ray, Pravat Kumar Behera, Maheswar Prasad Ray, Pravat Kumar |
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author |
Behera, Maheswar Prasad Ray, Pravat Kumar |
spellingShingle |
Behera, Maheswar Prasad Ray, Pravat Kumar International Journal of Emerging Electric Power Systems Three-Phase Grid Connected Bi-Directional Charging System to Control Active and Reactive Power with Harmonic Compensation Energy Engineering and Power Technology |
author_sort |
behera, maheswar prasad |
spelling |
Behera, Maheswar Prasad Ray, Pravat Kumar 1553-779X Walter de Gruyter GmbH Energy Engineering and Power Technology http://dx.doi.org/10.1515/ijeeps-2018-0259 <jats:title>Abstract</jats:title> <jats:p>The feasibility of integration of Battery Energy Storage System (BESS) with a three-phase AC grid is being investigated in this paper. A converter is an inevitable part of a modern DC generating system. The link between the grid and the BESS is established through a Voltage Source Converter (VSC). Therefore, the converter can be utilized to dispatch the DC generated power to the connected AC grid and at the same time provides reactive power compensation and load harmonic compensation throughout the day. The DC bus voltage control of the converter system is carried out to keep the power factor always at unity, irrespective of the charging state of the battery source. The charging and discharging of the connected battery energy storage system are carried out through a bidirectional DC-DC converter. Adaptive hysteresis band current control (AHCC) scheme is employed to produce the switching signals. Finally, its performance is compared with the traditional hysteresis band control technique.</jats:p> Three-Phase Grid Connected Bi-Directional Charging System to Control Active and Reactive Power with Harmonic Compensation International Journal of Emerging Electric Power Systems |
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10.1515/ijeeps-2018-0259 |
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2019 |
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Walter de Gruyter GmbH |
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International Journal of Emerging Electric Power Systems |
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title |
Three-Phase Grid Connected Bi-Directional Charging System to Control Active and Reactive Power with Harmonic Compensation |
title_unstemmed |
Three-Phase Grid Connected Bi-Directional Charging System to Control Active and Reactive Power with Harmonic Compensation |
title_full |
Three-Phase Grid Connected Bi-Directional Charging System to Control Active and Reactive Power with Harmonic Compensation |
title_fullStr |
Three-Phase Grid Connected Bi-Directional Charging System to Control Active and Reactive Power with Harmonic Compensation |
title_full_unstemmed |
Three-Phase Grid Connected Bi-Directional Charging System to Control Active and Reactive Power with Harmonic Compensation |
title_short |
Three-Phase Grid Connected Bi-Directional Charging System to Control Active and Reactive Power with Harmonic Compensation |
title_sort |
three-phase grid connected bi-directional charging system to control active and reactive power with harmonic compensation |
topic |
Energy Engineering and Power Technology |
url |
http://dx.doi.org/10.1515/ijeeps-2018-0259 |
publishDate |
2019 |
physical |
|
description |
<jats:title>Abstract</jats:title>
<jats:p>The feasibility of integration of Battery Energy Storage System (BESS) with a three-phase AC grid is being investigated in this paper. A converter is an inevitable part of a modern DC generating system. The link between the grid and the BESS is established through a Voltage Source Converter (VSC). Therefore, the converter can be utilized to dispatch the DC generated power to the connected AC grid and at the same time provides reactive power compensation and load harmonic compensation throughout the day. The DC bus voltage control of the converter system is carried out to keep the power factor always at unity, irrespective of the charging state of the battery source. The charging and discharging of the connected battery energy storage system are carried out through a bidirectional DC-DC converter. Adaptive hysteresis band current control (AHCC) scheme is employed to produce the switching signals. Finally, its performance is compared with the traditional hysteresis band control technique.</jats:p> |
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author | Behera, Maheswar Prasad, Ray, Pravat Kumar |
author_facet | Behera, Maheswar Prasad, Ray, Pravat Kumar, Behera, Maheswar Prasad, Ray, Pravat Kumar |
author_sort | behera, maheswar prasad |
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container_title | International Journal of Emerging Electric Power Systems |
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description | <jats:title>Abstract</jats:title> <jats:p>The feasibility of integration of Battery Energy Storage System (BESS) with a three-phase AC grid is being investigated in this paper. A converter is an inevitable part of a modern DC generating system. The link between the grid and the BESS is established through a Voltage Source Converter (VSC). Therefore, the converter can be utilized to dispatch the DC generated power to the connected AC grid and at the same time provides reactive power compensation and load harmonic compensation throughout the day. The DC bus voltage control of the converter system is carried out to keep the power factor always at unity, irrespective of the charging state of the battery source. The charging and discharging of the connected battery energy storage system are carried out through a bidirectional DC-DC converter. Adaptive hysteresis band current control (AHCC) scheme is employed to produce the switching signals. Finally, its performance is compared with the traditional hysteresis band control technique.</jats:p> |
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series | International Journal of Emerging Electric Power Systems |
source_id | 49 |
spelling | Behera, Maheswar Prasad Ray, Pravat Kumar 1553-779X Walter de Gruyter GmbH Energy Engineering and Power Technology http://dx.doi.org/10.1515/ijeeps-2018-0259 <jats:title>Abstract</jats:title> <jats:p>The feasibility of integration of Battery Energy Storage System (BESS) with a three-phase AC grid is being investigated in this paper. A converter is an inevitable part of a modern DC generating system. The link between the grid and the BESS is established through a Voltage Source Converter (VSC). Therefore, the converter can be utilized to dispatch the DC generated power to the connected AC grid and at the same time provides reactive power compensation and load harmonic compensation throughout the day. The DC bus voltage control of the converter system is carried out to keep the power factor always at unity, irrespective of the charging state of the battery source. The charging and discharging of the connected battery energy storage system are carried out through a bidirectional DC-DC converter. Adaptive hysteresis band current control (AHCC) scheme is employed to produce the switching signals. Finally, its performance is compared with the traditional hysteresis band control technique.</jats:p> Three-Phase Grid Connected Bi-Directional Charging System to Control Active and Reactive Power with Harmonic Compensation International Journal of Emerging Electric Power Systems |
spellingShingle | Behera, Maheswar Prasad, Ray, Pravat Kumar, International Journal of Emerging Electric Power Systems, Three-Phase Grid Connected Bi-Directional Charging System to Control Active and Reactive Power with Harmonic Compensation, Energy Engineering and Power Technology |
title | Three-Phase Grid Connected Bi-Directional Charging System to Control Active and Reactive Power with Harmonic Compensation |
title_full | Three-Phase Grid Connected Bi-Directional Charging System to Control Active and Reactive Power with Harmonic Compensation |
title_fullStr | Three-Phase Grid Connected Bi-Directional Charging System to Control Active and Reactive Power with Harmonic Compensation |
title_full_unstemmed | Three-Phase Grid Connected Bi-Directional Charging System to Control Active and Reactive Power with Harmonic Compensation |
title_short | Three-Phase Grid Connected Bi-Directional Charging System to Control Active and Reactive Power with Harmonic Compensation |
title_sort | three-phase grid connected bi-directional charging system to control active and reactive power with harmonic compensation |
title_unstemmed | Three-Phase Grid Connected Bi-Directional Charging System to Control Active and Reactive Power with Harmonic Compensation |
topic | Energy Engineering and Power Technology |
url | http://dx.doi.org/10.1515/ijeeps-2018-0259 |