TY - JOUR
T1 - Sizing of a Hybrid Energy System for Al Mazyouna Area
AU - Al Wahaibi, Abdulmajeed
AU - Al Badi, Abdullah
N1 - Funding Information:
The author acknowledges the quality support of the Tanweer Company, Oman, for providing load and diesel generator data. They acknowledge also the help received from Abdulaziz Al Hatmi and Ahmed Al Abri in Data collection.
Publisher Copyright:
© 2022, European Association for the Development of Renewable Energy, Environment and Power Quality (EA4EPQ). All rights reserved.
PY - 2022/9
Y1 - 2022/9
N2 - Natural gas and diesel currently are the main fuel for electrical power generation in Oman. Decreasing the dependence on national gas and diesel is one of the main goals for Oman’s vision of 2040. This paper discusses the optimum design of a hybrid stand-alone power generation system for the power station of Al-Mazyouna located west of Dhofar governorate using HOMER Pro Software. Real load data and solar radiation of Al-Mazyouna were utilized in the modelling approach. Different scenarios of power systems were investigated, using mainly, diesel generators, PV solar panels, and storage batteries to reach an optimal solution. The main factors that were considered to decide the wining setup of a power system are the net present cost, cost of energy and the amount of emissions. The optimum scenario resulted in a net present cost of $84.8 M and a cost of energy of $0.161/kWh compared to a net present cost of $99.4M and a cost of energy of $0.188/kWh for the current system. Additionally, the optimum scenario system limits toxic emissions significantly compared to the base system. The results of the winning scenario showed that the emitted quantities of harmful gases are all reduced by about 28% compared to the base system.
AB - Natural gas and diesel currently are the main fuel for electrical power generation in Oman. Decreasing the dependence on national gas and diesel is one of the main goals for Oman’s vision of 2040. This paper discusses the optimum design of a hybrid stand-alone power generation system for the power station of Al-Mazyouna located west of Dhofar governorate using HOMER Pro Software. Real load data and solar radiation of Al-Mazyouna were utilized in the modelling approach. Different scenarios of power systems were investigated, using mainly, diesel generators, PV solar panels, and storage batteries to reach an optimal solution. The main factors that were considered to decide the wining setup of a power system are the net present cost, cost of energy and the amount of emissions. The optimum scenario resulted in a net present cost of $84.8 M and a cost of energy of $0.161/kWh compared to a net present cost of $99.4M and a cost of energy of $0.188/kWh for the current system. Additionally, the optimum scenario system limits toxic emissions significantly compared to the base system. The results of the winning scenario showed that the emitted quantities of harmful gases are all reduced by about 28% compared to the base system.
KW - Cost of Energy
KW - Hybrid energy system
KW - Net present cost
KW - PV
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U2 - 10.24084/repqj20.335
DO - 10.24084/repqj20.335
M3 - Article
AN - SCOPUS:85136166923
SN - 2172-038X
VL - 20
SP - 438
EP - 443
JO - Renewable Energy and Power Quality Journal
JF - Renewable Energy and Power Quality Journal
ER -