Feasibility Study of Using Wave-PV-Wind Hybrid System for AL Hallaniyat Island

¹ Department of Electrical & Computer Engineering, College of Engineering, Sultan Qaboos University, Muscat, Oman
² Department of Petroleum & Natural Gas Engineering, College of Engineering, Sultan Qaboos University, Muscat, Oman
³ Civil Aviation Authority, Directorate General of Meteorology, Oman

^* Corresponding author: albadi@squ.edu.om
email: Majeed.al.Wahaibi20@alumni.colostate.edu

Abstract

Al Hallaniyat Island is located in the southern part of Oman. The island has a low number of population and is currently fed by a number of diesel generators with a capacity of 1568 kW. Decreasing the emission of greenhouse gases is one of the main goals for the country’s vision of 2040 as well as Oman’s commitment to net-zero emissions by 2050, in line with the Paris Agreement of limiting global warming to 1.5°C. The purpose of this paper is to study the feasibility of replacing diesel generators with 100% renewable energy sources. The proposed energy source for the Island will be a hybrid system consisting of the wave energy converter, PV, wind and battery storage system. Real load data was used in the model with measured wind speed and solar radiation. The Hybrid Optimization Model for Electric Renewables software is used in this study. Several systems were proposed but the most economical one is PV-Wind-Wave-Battery system that resulted in levelized cost of energy of US$/kWh 0.1586 and Net Present Cost (NPC) of US$ 5,010,594. Having PV-Wave-Battery will result in levelized cost of energy of US$/kWh 0.174 whereas having Wind-Wave-Battery will increase the energy cost to US$/kWh 0.42.