Solar, wind and their hybridization integration for multi-machine power system oscillation controllers optimization: a review
Massive growth in global electrical energy demand has necessitated a genuine exploration and integration of solar and wind energy into the electrical power mix. This incorporation goes a long way in improving the cumulative generated power capacity of the power system. However, wind and solar photov...
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sg-ntu-dr.10356-1688322023-06-23T15:40:41Z Solar, wind and their hybridization integration for multi-machine power system oscillation controllers optimization: a review Sabo, Aliyu Kolapo, Bashir Yunus Odoh, Theophilus Ebuka Dyari, Musa Noor Izzri Abdul Wahab Veerasamy, Veerapandiyan School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Phase-Lock Loop Virtual Synchronous Generator Massive growth in global electrical energy demand has necessitated a genuine exploration and integration of solar and wind energy into the electrical power mix. This incorporation goes a long way in improving the cumulative generated power capacity of the power system. However, wind and solar photovoltaic (PV) are intermittent in nature, making the provisioning of a good maximum power tracking (MPPT) scheme necessary. Furthermore, the integration is characterized by synchronization challenges and introduces various modes of power system oscillations as it is converter-driven. This greatly affects the overall stability of the integrated power mix. Consequently, various technological models have been designed to address these challenges ranging from MPPT schemes, phase-lock loop (PLL), virtual synchronous generator (VSG), power system stabilizers (PSS), flexible AC transmission system (FACTS), coordinated control and artificial intelligence (AI). In this work, a multi-machine power system model is reviewed for integration stability studies. Various technical solutions associated with the integration are also reviewed. MPPT, PLL, VSG, PSS, FACTS, coordinated control, and various optimization technique schemes used for damping controller design are discussed. Published version This work was supported by Advanced Lightning and Power Energy System, Universiti Putra Malaysia under UPM Grant No. 9630000. 2023-06-20T02:19:36Z 2023-06-20T02:19:36Z 2023 Journal Article Sabo, A., Kolapo, B. Y., Odoh, T. E., Dyari, M., Noor Izzri Abdul Wahab & Veerasamy, V. (2023). Solar, wind and their hybridization integration for multi-machine power system oscillation controllers optimization: a review. Energies, 16(1), 24-. https://dx.doi.org/10.3390/en16010024 1996-1073 https://hdl.handle.net/10356/168832 10.3390/en16010024 2-s2.0-85145777858 1 16 24 en Energies © 2022 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/). application/pdf |
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Engineering::Electrical and electronic engineering Phase-Lock Loop Virtual Synchronous Generator |
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Engineering::Electrical and electronic engineering Phase-Lock Loop Virtual Synchronous Generator Sabo, Aliyu Kolapo, Bashir Yunus Odoh, Theophilus Ebuka Dyari, Musa Noor Izzri Abdul Wahab Veerasamy, Veerapandiyan Solar, wind and their hybridization integration for multi-machine power system oscillation controllers optimization: a review |
| description |
Massive growth in global electrical energy demand has necessitated a genuine exploration and integration of solar and wind energy into the electrical power mix. This incorporation goes a long way in improving the cumulative generated power capacity of the power system. However, wind and solar photovoltaic (PV) are intermittent in nature, making the provisioning of a good maximum power tracking (MPPT) scheme necessary. Furthermore, the integration is characterized by synchronization challenges and introduces various modes of power system oscillations as it is converter-driven. This greatly affects the overall stability of the integrated power mix. Consequently, various technological models have been designed to address these challenges ranging from MPPT schemes, phase-lock loop (PLL), virtual synchronous generator (VSG), power system stabilizers (PSS), flexible AC transmission system (FACTS), coordinated control and artificial intelligence (AI). In this work, a multi-machine power system model is reviewed for integration stability studies. Various technical solutions associated with the integration are also reviewed. MPPT, PLL, VSG, PSS, FACTS, coordinated control, and various optimization technique schemes used for damping controller design are discussed. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Sabo, Aliyu Kolapo, Bashir Yunus Odoh, Theophilus Ebuka Dyari, Musa Noor Izzri Abdul Wahab Veerasamy, Veerapandiyan |
| format |
Article |
| author |
Sabo, Aliyu Kolapo, Bashir Yunus Odoh, Theophilus Ebuka Dyari, Musa Noor Izzri Abdul Wahab Veerasamy, Veerapandiyan |
| author_sort |
Sabo, Aliyu |
| title |
Solar, wind and their hybridization integration for multi-machine power system oscillation controllers optimization: a review |
| title_short |
Solar, wind and their hybridization integration for multi-machine power system oscillation controllers optimization: a review |
| title_full |
Solar, wind and their hybridization integration for multi-machine power system oscillation controllers optimization: a review |
| title_fullStr |
Solar, wind and their hybridization integration for multi-machine power system oscillation controllers optimization: a review |
| title_full_unstemmed |
Solar, wind and their hybridization integration for multi-machine power system oscillation controllers optimization: a review |
| title_sort |
solar, wind and their hybridization integration for multi-machine power system oscillation controllers optimization: a review |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/168832 |
| _version_ |
1772825112638128128 |