Research Article
Feasibility Study of Solar and Wind Energy in Remote Islands (Gili Labak Madura)
@INPROCEEDINGS{10.4108/eai.18-7-2019.2288538, author={Mu’alim Mu’alim and Sabarudin Akhmad and Anis Arendra and Khoirul Hidayat and M Adhi Prasnowo}, title={Feasibility Study of Solar and Wind Energy in Remote Islands (Gili Labak Madura)}, proceedings={Proceedings of The 2nd International Conference On Advance And Scientific Innovation, ICASI 2019, 18 July, Banda Aceh, Indonesia}, publisher={EAI}, proceedings_a={ICASI}, year={2019}, month={11}, keywords={gililabak madura electric energy demand solar and wind alternative energy potential shs wind energy system feasibility study economical analysis}, doi={10.4108/eai.18-7-2019.2288538} }
- Mu’alim Mu’alim
Sabarudin Akhmad
Anis Arendra
Khoirul Hidayat
M Adhi Prasnowo
Year: 2019
Feasibility Study of Solar and Wind Energy in Remote Islands (Gili Labak Madura)
ICASI
EAI
DOI: 10.4108/eai.18-7-2019.2288538
Abstract
GiliLabak Island is one of the Madura’s remote islands, actually has the opportunity of utilization of renewable energy source that is available abundantly throughout the year such as solar and wind energy. The utilization of both alternatives energy need feasibility analysis. First stepis collecting datas of electricity daily energy demand inGiliLabak which was gotten aproximatly 61.870 Kwh/day. The next process performs an economical analysis for each type of solar cell package as the most economical option based on NPV and IRR analysis. After knowing the energy generated by each wind power package then will calculate how much wind power system’s needed for all the electricity demand. To find out how many wind power plants (wind power plants) then the energy generated for one year/energy that will be generated from each hydropower package. Finally step was doing comparison of both two alternatives energy which the most economist. Based on economic analysis with NPV and IRR approach from several alternative power plants from solar cell and wind turbine can be concluded that alternative solar cell type 1000 Wp polycrytaline is a very feasible alternative to be realized because it has a value of NPV>0 while from the value of IRR- 27% is the highest of all alternatives that have IRR value above the discount factor value (14%).