A power ramp rate control strategy with reduced energy storage utilization for grid-connected photovoltaic systems
Fluctuations in photovoltaic (PV) power generation are inevitable due to intermittent irradiance transients. These power fluctuations, when injected into the grid in grid-connected PV systems, can have a negative impact on grid stability. This issue becomes more prominent in grids with high PV penet...
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sg-ntu-dr.10356-1729752024-01-12T15:40:40Z A power ramp rate control strategy with reduced energy storage utilization for grid-connected photovoltaic systems Yan, Hein Wai Beniwal, Neha Farivar, Glen G. Pou, Josep School of Electrical and Electronic Engineering 2023 IEEE Energy Conversion Congress and Exposition (ECCE) Engineering::Electrical and electronic engineering::Power electronics Engineering::Electrical and electronic engineering::Electric power::Production, transmission and distribution Power Ramp Rate Control Photovoltaic Energy Storage Fluctuations in photovoltaic (PV) power generation are inevitable due to intermittent irradiance transients. These power fluctuations, when injected into the grid in grid-connected PV systems, can have a negative impact on grid stability. This issue becomes more prominent in grids with high PV penetration. Therefore, this article proposes a hybrid power ramp rate control (PRRC) strategy that mitigates the fluctuating PV power at the dc-side before transmitting it to the grid during positive and negative irradiance changes. The proposed hybrid PRRC aims to reduce the energy storage system (ESS) utilization and its required capacity by employing a flexible power point tracking control, which limits the increment in PV power generation during positive irradiance fluctuations. A supercapacitor (SC)-based ESS is only used to smoothen the power reductions during negative irradiance fluctuations, and the SC state-of-charge is regulated afterwards to prevent saturation. The transient performance and efficacy of the proposed hybrid PRRC are investigated using simulations in MATLAB/Simulink. Submitted/Accepted version 2024-01-08T01:40:41Z 2024-01-08T01:40:41Z 2023 Conference Paper Yan, H. W., Beniwal, N., Farivar, G. G. & Pou, J. (2023). A power ramp rate control strategy with reduced energy storage utilization for grid-connected photovoltaic systems. 2023 IEEE Energy Conversion Congress and Exposition (ECCE), 657-662. https://dx.doi.org/10.1109/ECCE53617.2023.10362085 979-8-3503-1644-5 2329-3748 https://hdl.handle.net/10356/172975 10.1109/ECCE53617.2023.10362085 657 662 en © 2023 IEEE. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1109/ECCE53617.2023.10362085. application/pdf |
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Engineering::Electrical and electronic engineering::Power electronics Engineering::Electrical and electronic engineering::Electric power::Production, transmission and distribution Power Ramp Rate Control Photovoltaic Energy Storage |
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Engineering::Electrical and electronic engineering::Power electronics Engineering::Electrical and electronic engineering::Electric power::Production, transmission and distribution Power Ramp Rate Control Photovoltaic Energy Storage Yan, Hein Wai Beniwal, Neha Farivar, Glen G. Pou, Josep A power ramp rate control strategy with reduced energy storage utilization for grid-connected photovoltaic systems |
| description |
Fluctuations in photovoltaic (PV) power generation are inevitable due to intermittent irradiance transients. These power fluctuations, when injected into the grid in grid-connected PV systems, can have a negative impact on grid stability. This issue becomes more prominent in grids with high PV penetration. Therefore, this article proposes a hybrid power ramp rate control (PRRC) strategy that mitigates the fluctuating PV power at the dc-side before transmitting it to the grid during positive and negative irradiance changes. The proposed hybrid PRRC aims to reduce the energy storage system (ESS) utilization and its required capacity by employing a flexible power point tracking control, which limits the increment in PV power generation during positive irradiance fluctuations. A supercapacitor (SC)-based ESS is only used to smoothen the power reductions during negative irradiance fluctuations, and the SC state-of-charge is regulated afterwards to prevent saturation. The transient performance and efficacy of the proposed hybrid PRRC are investigated using simulations in MATLAB/Simulink. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Yan, Hein Wai Beniwal, Neha Farivar, Glen G. Pou, Josep |
| format |
Conference or Workshop Item |
| author |
Yan, Hein Wai Beniwal, Neha Farivar, Glen G. Pou, Josep |
| author_sort |
Yan, Hein Wai |
| title |
A power ramp rate control strategy with reduced energy storage utilization for grid-connected photovoltaic systems |
| title_short |
A power ramp rate control strategy with reduced energy storage utilization for grid-connected photovoltaic systems |
| title_full |
A power ramp rate control strategy with reduced energy storage utilization for grid-connected photovoltaic systems |
| title_fullStr |
A power ramp rate control strategy with reduced energy storage utilization for grid-connected photovoltaic systems |
| title_full_unstemmed |
A power ramp rate control strategy with reduced energy storage utilization for grid-connected photovoltaic systems |
| title_sort |
power ramp rate control strategy with reduced energy storage utilization for grid-connected photovoltaic systems |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/172975 |
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1789482995644628992 |