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Assessment of Decentralized Electricity Production from Hybrid Renewable Energy Sources for Sustainable Energy Development in Nigeria

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Zeitschriftentitel: Open Engineering
Personen und Körperschaften: Oyedepo, Sunday Olayinka, Uwoghiren, Theophilus, Babalola, Philip Olufemi, Nwanya, Stephen C., Kilanko, Oluwaseun, Leramo, Richard Olufemi, Aworinde, Abraham K, Adekeye, Tunde, Oyebanji, Joseph A., Abidakun, Olatunde A.
In: Open Engineering, 9, 2019, 1, S. 72-89
Format: E-Article
Sprache: Englisch
veröffentlicht:
Walter de Gruyter GmbH
Schlagwörter:
Electrical and Electronic Engineering
Mechanical Engineering
Aerospace Engineering
General Materials Science
Civil and Structural Engineering
Environmental Engineering
author_facet Oyedepo, Sunday Olayinka
Uwoghiren, Theophilus
Babalola, Philip Olufemi
Nwanya, Stephen C.
Kilanko, Oluwaseun
Leramo, Richard Olufemi
Aworinde, Abraham K
Adekeye, Tunde
Oyebanji, Joseph A.
Abidakun, Olatunde A.
Oyedepo, Sunday Olayinka
Uwoghiren, Theophilus
Babalola, Philip Olufemi
Nwanya, Stephen C.
Kilanko, Oluwaseun
Leramo, Richard Olufemi
Aworinde, Abraham K
Adekeye, Tunde
Oyebanji, Joseph A.
Abidakun, Olatunde A.
author Oyedepo, Sunday Olayinka
Uwoghiren, Theophilus
Babalola, Philip Olufemi
Nwanya, Stephen C.
Kilanko, Oluwaseun
Leramo, Richard Olufemi
Aworinde, Abraham K
Adekeye, Tunde
Oyebanji, Joseph A.
Abidakun, Olatunde A.
spellingShingle Oyedepo, Sunday Olayinka
Uwoghiren, Theophilus
Babalola, Philip Olufemi
Nwanya, Stephen C.
Kilanko, Oluwaseun
Leramo, Richard Olufemi
Aworinde, Abraham K
Adekeye, Tunde
Oyebanji, Joseph A.
Abidakun, Olatunde A.
Open Engineering
Assessment of Decentralized Electricity Production from Hybrid Renewable Energy Sources for Sustainable Energy Development in Nigeria
Electrical and Electronic Engineering
Mechanical Engineering
Aerospace Engineering
General Materials Science
Civil and Structural Engineering
Environmental Engineering
author_sort oyedepo, sunday olayinka
spelling Oyedepo, Sunday Olayinka Uwoghiren, Theophilus Babalola, Philip Olufemi Nwanya, Stephen C. Kilanko, Oluwaseun Leramo, Richard Olufemi Aworinde, Abraham K Adekeye, Tunde Oyebanji, Joseph A. Abidakun, Olatunde A. 2391-5439 Walter de Gruyter GmbH Electrical and Electronic Engineering Mechanical Engineering Aerospace Engineering General Materials Science Civil and Structural Engineering Environmental Engineering http://dx.doi.org/10.1515/eng-2019-0009 <jats:title>Abstract</jats:title> <jats:p>This paper presents technical and economic assessment of a hybrid energy system for electricity generation in rural communities in the six geopolitical zones of Nigeria. The study was based on a 500 rural household model having an electric load of 493 kWh per day. To simulate long-term continuous implementation of the hybrid system, 21 years (1992 – 2012) hourly mean global solar radiation and wind speed data for the selected sites were used. The mean annual wind speed and solar radiation for the locations ranged from 2.31 m/s for Warri to 3.52 m/ s for Maiduguri and 4.53 kWh/m<jats:sup>2</jats:sup> for Warri to 5.92 kWh/m<jats:sup>2</jats:sup> for Maiduguri, respectively. These weather data were used for simulation with the Micro-power Optimization Model software HOMER. From the optimum results of the hybrid system,Warri has the highest NPC and COE of $2,441,222 and $0.721/kWh, respectively while Maiduguri has the least NPC and COE of $2,225,387 and $0.658/kWh, respectively for the 21 years project lifespan. The high value of COE for Warri is due to its low renewable energy resource while low COE for Maiduguri is due to its high renewable energy resource. The Northern part of the country has ample renewable energy resource availability and with a strong political will, optimal utilization of these renewable resources (solar and wind) can be actualized. Researchers, Industrialists, Policy Makers and the Nigerian government should therefore seize this opportunity in developing a sustainable energy through utilization of abundant renewable energy resources in the country.</jats:p> Assessment of Decentralized Electricity Production from Hybrid Renewable Energy Sources for Sustainable Energy Development in Nigeria Open Engineering
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title Assessment of Decentralized Electricity Production from Hybrid Renewable Energy Sources for Sustainable Energy Development in Nigeria
title_unstemmed Assessment of Decentralized Electricity Production from Hybrid Renewable Energy Sources for Sustainable Energy Development in Nigeria
title_full Assessment of Decentralized Electricity Production from Hybrid Renewable Energy Sources for Sustainable Energy Development in Nigeria
title_fullStr Assessment of Decentralized Electricity Production from Hybrid Renewable Energy Sources for Sustainable Energy Development in Nigeria
title_full_unstemmed Assessment of Decentralized Electricity Production from Hybrid Renewable Energy Sources for Sustainable Energy Development in Nigeria
title_short Assessment of Decentralized Electricity Production from Hybrid Renewable Energy Sources for Sustainable Energy Development in Nigeria
title_sort assessment of decentralized electricity production from hybrid renewable energy sources for sustainable energy development in nigeria
topic Electrical and Electronic Engineering
Mechanical Engineering
Aerospace Engineering
General Materials Science
Civil and Structural Engineering
Environmental Engineering
url http://dx.doi.org/10.1515/eng-2019-0009
publishDate 2019
physical 72-89
description <jats:title>Abstract</jats:title> <jats:p>This paper presents technical and economic assessment of a hybrid energy system for electricity generation in rural communities in the six geopolitical zones of Nigeria. The study was based on a 500 rural household model having an electric load of 493 kWh per day. To simulate long-term continuous implementation of the hybrid system, 21 years (1992 – 2012) hourly mean global solar radiation and wind speed data for the selected sites were used. The mean annual wind speed and solar radiation for the locations ranged from 2.31 m/s for Warri to 3.52 m/ s for Maiduguri and 4.53 kWh/m<jats:sup>2</jats:sup> for Warri to 5.92 kWh/m<jats:sup>2</jats:sup> for Maiduguri, respectively. These weather data were used for simulation with the Micro-power Optimization Model software HOMER. From the optimum results of the hybrid system,Warri has the highest NPC and COE of $2,441,222 and $0.721/kWh, respectively while Maiduguri has the least NPC and COE of $2,225,387 and $0.658/kWh, respectively for the 21 years project lifespan. The high value of COE for Warri is due to its low renewable energy resource while low COE for Maiduguri is due to its high renewable energy resource. The Northern part of the country has ample renewable energy resource availability and with a strong political will, optimal utilization of these renewable resources (solar and wind) can be actualized. Researchers, Industrialists, Policy Makers and the Nigerian government should therefore seize this opportunity in developing a sustainable energy through utilization of abundant renewable energy resources in the country.</jats:p>
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author Oyedepo, Sunday Olayinka, Uwoghiren, Theophilus, Babalola, Philip Olufemi, Nwanya, Stephen C., Kilanko, Oluwaseun, Leramo, Richard Olufemi, Aworinde, Abraham K, Adekeye, Tunde, Oyebanji, Joseph A., Abidakun, Olatunde A.
author_facet Oyedepo, Sunday Olayinka, Uwoghiren, Theophilus, Babalola, Philip Olufemi, Nwanya, Stephen C., Kilanko, Oluwaseun, Leramo, Richard Olufemi, Aworinde, Abraham K, Adekeye, Tunde, Oyebanji, Joseph A., Abidakun, Olatunde A., Oyedepo, Sunday Olayinka, Uwoghiren, Theophilus, Babalola, Philip Olufemi, Nwanya, Stephen C., Kilanko, Oluwaseun, Leramo, Richard Olufemi, Aworinde, Abraham K, Adekeye, Tunde, Oyebanji, Joseph A., Abidakun, Olatunde A.
author_sort oyedepo, sunday olayinka
container_issue 1
container_start_page 72
container_title Open Engineering
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description <jats:title>Abstract</jats:title> <jats:p>This paper presents technical and economic assessment of a hybrid energy system for electricity generation in rural communities in the six geopolitical zones of Nigeria. The study was based on a 500 rural household model having an electric load of 493 kWh per day. To simulate long-term continuous implementation of the hybrid system, 21 years (1992 – 2012) hourly mean global solar radiation and wind speed data for the selected sites were used. The mean annual wind speed and solar radiation for the locations ranged from 2.31 m/s for Warri to 3.52 m/ s for Maiduguri and 4.53 kWh/m<jats:sup>2</jats:sup> for Warri to 5.92 kWh/m<jats:sup>2</jats:sup> for Maiduguri, respectively. These weather data were used for simulation with the Micro-power Optimization Model software HOMER. From the optimum results of the hybrid system,Warri has the highest NPC and COE of $2,441,222 and $0.721/kWh, respectively while Maiduguri has the least NPC and COE of $2,225,387 and $0.658/kWh, respectively for the 21 years project lifespan. The high value of COE for Warri is due to its low renewable energy resource while low COE for Maiduguri is due to its high renewable energy resource. The Northern part of the country has ample renewable energy resource availability and with a strong political will, optimal utilization of these renewable resources (solar and wind) can be actualized. Researchers, Industrialists, Policy Makers and the Nigerian government should therefore seize this opportunity in developing a sustainable energy through utilization of abundant renewable energy resources in the country.</jats:p>
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spelling Oyedepo, Sunday Olayinka Uwoghiren, Theophilus Babalola, Philip Olufemi Nwanya, Stephen C. Kilanko, Oluwaseun Leramo, Richard Olufemi Aworinde, Abraham K Adekeye, Tunde Oyebanji, Joseph A. Abidakun, Olatunde A. 2391-5439 Walter de Gruyter GmbH Electrical and Electronic Engineering Mechanical Engineering Aerospace Engineering General Materials Science Civil and Structural Engineering Environmental Engineering http://dx.doi.org/10.1515/eng-2019-0009 <jats:title>Abstract</jats:title> <jats:p>This paper presents technical and economic assessment of a hybrid energy system for electricity generation in rural communities in the six geopolitical zones of Nigeria. The study was based on a 500 rural household model having an electric load of 493 kWh per day. To simulate long-term continuous implementation of the hybrid system, 21 years (1992 – 2012) hourly mean global solar radiation and wind speed data for the selected sites were used. The mean annual wind speed and solar radiation for the locations ranged from 2.31 m/s for Warri to 3.52 m/ s for Maiduguri and 4.53 kWh/m<jats:sup>2</jats:sup> for Warri to 5.92 kWh/m<jats:sup>2</jats:sup> for Maiduguri, respectively. These weather data were used for simulation with the Micro-power Optimization Model software HOMER. From the optimum results of the hybrid system,Warri has the highest NPC and COE of $2,441,222 and $0.721/kWh, respectively while Maiduguri has the least NPC and COE of $2,225,387 and $0.658/kWh, respectively for the 21 years project lifespan. The high value of COE for Warri is due to its low renewable energy resource while low COE for Maiduguri is due to its high renewable energy resource. The Northern part of the country has ample renewable energy resource availability and with a strong political will, optimal utilization of these renewable resources (solar and wind) can be actualized. Researchers, Industrialists, Policy Makers and the Nigerian government should therefore seize this opportunity in developing a sustainable energy through utilization of abundant renewable energy resources in the country.</jats:p> Assessment of Decentralized Electricity Production from Hybrid Renewable Energy Sources for Sustainable Energy Development in Nigeria Open Engineering
spellingShingle Oyedepo, Sunday Olayinka, Uwoghiren, Theophilus, Babalola, Philip Olufemi, Nwanya, Stephen C., Kilanko, Oluwaseun, Leramo, Richard Olufemi, Aworinde, Abraham K, Adekeye, Tunde, Oyebanji, Joseph A., Abidakun, Olatunde A., Open Engineering, Assessment of Decentralized Electricity Production from Hybrid Renewable Energy Sources for Sustainable Energy Development in Nigeria, Electrical and Electronic Engineering, Mechanical Engineering, Aerospace Engineering, General Materials Science, Civil and Structural Engineering, Environmental Engineering
title Assessment of Decentralized Electricity Production from Hybrid Renewable Energy Sources for Sustainable Energy Development in Nigeria
title_full Assessment of Decentralized Electricity Production from Hybrid Renewable Energy Sources for Sustainable Energy Development in Nigeria
title_fullStr Assessment of Decentralized Electricity Production from Hybrid Renewable Energy Sources for Sustainable Energy Development in Nigeria
title_full_unstemmed Assessment of Decentralized Electricity Production from Hybrid Renewable Energy Sources for Sustainable Energy Development in Nigeria
title_short Assessment of Decentralized Electricity Production from Hybrid Renewable Energy Sources for Sustainable Energy Development in Nigeria
title_sort assessment of decentralized electricity production from hybrid renewable energy sources for sustainable energy development in nigeria
title_unstemmed Assessment of Decentralized Electricity Production from Hybrid Renewable Energy Sources for Sustainable Energy Development in Nigeria
topic Electrical and Electronic Engineering, Mechanical Engineering, Aerospace Engineering, General Materials Science, Civil and Structural Engineering, Environmental Engineering
url http://dx.doi.org/10.1515/eng-2019-0009