Effective utilization of distributed power sources under power mismatch conditions in islanded distribution networks
The integration of distributed generation (DG) into a power distribution network allows the establishment of a microgrid (MG) system when the main grid experiences a malfunction or is undergoing maintenance. In this case, the power-generating capacity of distributed generators may be less than the l...
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my.utm.1067042024-07-15T06:51:36Z http://eprints.utm.my/106704/ Effective utilization of distributed power sources under power mismatch conditions in islanded distribution networks Leghari, Zohaib Hussain Hassan, Mohammad Yusri Mat Said, Dalila Kumar, Laveet Kumar, Mahesh Tran, Quynh T. Sanseverino, Eleonora Riva TK Electrical engineering. Electronics Nuclear engineering The integration of distributed generation (DG) into a power distribution network allows the establishment of a microgrid (MG) system when the main grid experiences a malfunction or is undergoing maintenance. In this case, the power-generating capacity of distributed generators may be less than the load demand. This study presents a strategy for the effective utilization of deployed active and reactive power sources under power mismatch conditions in the islanded distribution networks. Initially, the DGs’ and capacitors’ optimal placement and capacity were identified using the Jaya algorithm (JA) with the aim to reduce power losses in the grid-connected mode. Later, the DG and capacitor combination’s optimal power factor was determined to withstand the islanded distribution network’s highest possible power demand in the event of a power mismatch. To assess the optimal value of the DG–capacitor pair’s operating power factor ((Formula presented.)) for the islanded operation, an analytical approach has been proposed that determines the best trade-off between power losses and the under-utilization of accessible generation. The test results on 33-bus and 69-bus IEEE distribution networks demonstrate that holding the islanded network’s load power factor ((Formula presented.)) equal to (Formula presented.) during the power imbalance conditions allows the installed distributed sources to effectively operate at full capacity. As expected, the proposed strategy will assist the utility companies in designing efficient energy management or load shedding schemes to effectively cope with the power mismatch conditions. MDPI 2023 Article PeerReviewed application/pdf en http://eprints.utm.my/106704/1/MohammadYusriHassan2023_EffectiveUtilizationofDistributedPowerSources.pdf Leghari, Zohaib Hussain and Hassan, Mohammad Yusri and Mat Said, Dalila and Kumar, Laveet and Kumar, Mahesh and Tran, Quynh T. and Sanseverino, Eleonora Riva (2023) Effective utilization of distributed power sources under power mismatch conditions in islanded distribution networks. Energies, 16 (6). pp. 1-21. ISSN 1996-1073 http://dx.doi.org/10.3390/en16062659 DOI : 10.3390/en16062659 |
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TK Electrical engineering. Electronics Nuclear engineering Leghari, Zohaib Hussain Hassan, Mohammad Yusri Mat Said, Dalila Kumar, Laveet Kumar, Mahesh Tran, Quynh T. Sanseverino, Eleonora Riva Effective utilization of distributed power sources under power mismatch conditions in islanded distribution networks |
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The integration of distributed generation (DG) into a power distribution network allows the establishment of a microgrid (MG) system when the main grid experiences a malfunction or is undergoing maintenance. In this case, the power-generating capacity of distributed generators may be less than the load demand. This study presents a strategy for the effective utilization of deployed active and reactive power sources under power mismatch conditions in the islanded distribution networks. Initially, the DGs’ and capacitors’ optimal placement and capacity were identified using the Jaya algorithm (JA) with the aim to reduce power losses in the grid-connected mode. Later, the DG and capacitor combination’s optimal power factor was determined to withstand the islanded distribution network’s highest possible power demand in the event of a power mismatch. To assess the optimal value of the DG–capacitor pair’s operating power factor ((Formula presented.)) for the islanded operation, an analytical approach has been proposed that determines the best trade-off between power losses and the under-utilization of accessible generation. The test results on 33-bus and 69-bus IEEE distribution networks demonstrate that holding the islanded network’s load power factor ((Formula presented.)) equal to (Formula presented.) during the power imbalance conditions allows the installed distributed sources to effectively operate at full capacity. As expected, the proposed strategy will assist the utility companies in designing efficient energy management or load shedding schemes to effectively cope with the power mismatch conditions. |
format |
Article |
author |
Leghari, Zohaib Hussain Hassan, Mohammad Yusri Mat Said, Dalila Kumar, Laveet Kumar, Mahesh Tran, Quynh T. Sanseverino, Eleonora Riva |
author_facet |
Leghari, Zohaib Hussain Hassan, Mohammad Yusri Mat Said, Dalila Kumar, Laveet Kumar, Mahesh Tran, Quynh T. Sanseverino, Eleonora Riva |
author_sort |
Leghari, Zohaib Hussain |
title |
Effective utilization of distributed power sources under power mismatch conditions in islanded distribution networks |
title_short |
Effective utilization of distributed power sources under power mismatch conditions in islanded distribution networks |
title_full |
Effective utilization of distributed power sources under power mismatch conditions in islanded distribution networks |
title_fullStr |
Effective utilization of distributed power sources under power mismatch conditions in islanded distribution networks |
title_full_unstemmed |
Effective utilization of distributed power sources under power mismatch conditions in islanded distribution networks |
title_sort |
effective utilization of distributed power sources under power mismatch conditions in islanded distribution networks |
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MDPI |
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2023 |
url |
http://eprints.utm.my/106704/1/MohammadYusriHassan2023_EffectiveUtilizationofDistributedPowerSources.pdf http://eprints.utm.my/106704/ http://dx.doi.org/10.3390/en16062659 |
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