Developing a Hybrid Optimization Algorithm for Optimal Allocation of Renewable DGs in Distribution Network

Developing a Hybrid Optimization Algorithm for Optimal Allocation of Renewable DGs in Distribution Network

Distributed generation (DG) is becoming a prominent key spot for research in recent years because it can be utilized in emergency/reserve plans for power systems and power quality improvement issues, besides its drastic impact on the environment as a greenhouse gas (GHG) reducer. For maximizing the...

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Main Authors: Ayman Awad, Hussein Abdel-Mawgoud, Salah Kamel, Abdalla A. Ibrahim, Francisco Jurado
Format: Article
Language:English
Published: MDPI AG 2021-05-01
Series:Clean Technologies
Subjects:
power losses
power system optimization
PV curves
DG
TSA/SCA
Online Access:https://www.mdpi.com/2571-8797/3/2/23
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spelling doaj-dd8be8d3365248db8142707f0c793acb2021-05-31T23:01:15ZengMDPI AGClean Technologies2571-87972021-05-0132340942310.3390/cleantechnol3020023Developing a Hybrid Optimization Algorithm for Optimal Allocation of Renewable DGs in Distribution NetworkAyman Awad0Hussein Abdel-Mawgoud1Salah Kamel2Abdalla A. Ibrahim3Francisco Jurado4Department of Electrical Engineering, Faculty of Engineering, Aswan University, Aswan 81542, EgyptDepartment of Electrical Engineering, Faculty of Engineering, Aswan University, Aswan 81542, EgyptDepartment of Electrical Engineering, Faculty of Engineering, Aswan University, Aswan 81542, EgyptDepartment of Electrical Engineering, Faculty of Engineering, Aswan University, Aswan 81542, EgyptDepartment of Electrical Engineering, University of Jaen, 23700 EPS Linares, SpainDistributed generation (DG) is becoming a prominent key spot for research in recent years because it can be utilized in emergency/reserve plans for power systems and power quality improvement issues, besides its drastic impact on the environment as a greenhouse gas (GHG) reducer. For maximizing the benefits from such technology, it is crucial to identify the best size and location for DG that achieves the required goal of installing it. This paper presents an investigation of the optimized allocation of DG in different modes using a proposed hybrid technique, the tunicate swarm algorithm/sine-cosine algorithm (TSA/SCA). This investigation is performed on an IEEE-69 Radial Distribution System (RDS), where the impact of such allocation on the system is evaluated by NEPLAN software.https://www.mdpi.com/2571-8797/3/2/23power lossespower system optimizationPV curvesDGTSA/SCA
collection DOAJ
language English
format Article
sources DOAJ
author Ayman Awad
Hussein Abdel-Mawgoud
Salah Kamel
Abdalla A. Ibrahim
Francisco Jurado
spellingShingle Ayman Awad
Hussein Abdel-Mawgoud
Salah Kamel
Abdalla A. Ibrahim
Francisco Jurado
Developing a Hybrid Optimization Algorithm for Optimal Allocation of Renewable DGs in Distribution Network
Clean Technologies
power losses
power system optimization
PV curves
DG
TSA/SCA
author_facet Ayman Awad
Hussein Abdel-Mawgoud
Salah Kamel
Abdalla A. Ibrahim
Francisco Jurado
author_sort Ayman Awad
title Developing a Hybrid Optimization Algorithm for Optimal Allocation of Renewable DGs in Distribution Network
title_short Developing a Hybrid Optimization Algorithm for Optimal Allocation of Renewable DGs in Distribution Network
title_full Developing a Hybrid Optimization Algorithm for Optimal Allocation of Renewable DGs in Distribution Network
title_fullStr Developing a Hybrid Optimization Algorithm for Optimal Allocation of Renewable DGs in Distribution Network
title_full_unstemmed Developing a Hybrid Optimization Algorithm for Optimal Allocation of Renewable DGs in Distribution Network
title_sort developing a hybrid optimization algorithm for optimal allocation of renewable dgs in distribution network
publisher MDPI AG
series Clean Technologies
issn 2571-8797
publishDate 2021-05-01
description Distributed generation (DG) is becoming a prominent key spot for research in recent years because it can be utilized in emergency/reserve plans for power systems and power quality improvement issues, besides its drastic impact on the environment as a greenhouse gas (GHG) reducer. For maximizing the benefits from such technology, it is crucial to identify the best size and location for DG that achieves the required goal of installing it. This paper presents an investigation of the optimized allocation of DG in different modes using a proposed hybrid technique, the tunicate swarm algorithm/sine-cosine algorithm (TSA/SCA). This investigation is performed on an IEEE-69 Radial Distribution System (RDS), where the impact of such allocation on the system is evaluated by NEPLAN software.
topic power losses
power system optimization
PV curves
DG
TSA/SCA
url https://www.mdpi.com/2571-8797/3/2/23
work_keys_str_mv AT aymanawad developingahybridoptimizationalgorithmforoptimalallocationofrenewabledgsindistributionnetwork
AT husseinabdelmawgoud developingahybridoptimizationalgorithmforoptimalallocationofrenewabledgsindistributionnetwork
AT salahkamel developingahybridoptimizationalgorithmforoptimalallocationofrenewabledgsindistributionnetwork
AT abdallaaibrahim developingahybridoptimizationalgorithmforoptimalallocationofrenewabledgsindistributionnetwork
AT franciscojurado developingahybridoptimizationalgorithmforoptimalallocationofrenewabledgsindistributionnetwork
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