PLANNING STUDY OF HYBRID POWER PLANT SOLAR PV-DIESEL GENERATOR ON KODINGARE ISLAND, SINJAI REGENCY

Muhammad Yusuf Yunus, Lewi Lewi, Andi Saiful Rijal, Nur Huda, Ahmad Ikram

Abstract


Kodingare Island is located in Pulau Sembilan District, Sinjai Regency, one of nine islands. Currently, most people still rely on conventional energy from diesel power plants. The reason is that this island does not yet receive an electricity supply from the electricity grid due to the geographical limitations of the archipelago. It is known that the most potential renewable energy source on Kodingare Island is solar energy, with a potential for solar radiation reaching 5.86 kWh/m2/day. This research aims to analyze an innovation that combines PV and solar, where PV acts as the main electricity generator, while solar functions as a backup and additional energy source. The method used in this research uses simulation methods, layout modeling, and financial analysis using HOMER Pro simulation software to determine the potential and performance of hybrid power plants and SketchUp Pro software to produce three-dimensional layouts and economic and feasibility values obtained through financial analysis. Technical aspects include producing an electrical energy system of 37,029 Wh/year, consisting of PV of 32,981 Wh/year and solar of 4,048 Wh/year with energy consumption of 33,850 Wh/year. The required fuel consumption is 2,086 L/year, with excess electricity of 931 kWh/year and renewable energy penetration of 89.1%. From an economic perspective, planning this hybrid power system requires an investment of 258.290.000 IDR, O&M costs of 19.350.600 IDR, and the cost of energy value of 1,352/kWh IDR. In contrast, from the feasibility aspect of planning a hybrid electric power system, it is said to be feasible because it produces a Net Present Value of 9,870,151 IDR, is more significant than zero, the Profitability Index is 1.03 greater than one, the Internal Rate of Return is 8.90% greater than the credit interest rate of 8.43% and the Payback Period required for return of capital is nine years nine months.


Keywords


Hybrid Power System; HOMER Pro; Solar PV; Diesel Generator

Full Text:

PDF

References


Djamin, M. (2010). Penelitian penerapan pembangkit listrik tenaga surya dan dampaknya terhadap lingkungan. Jurnal Teknologi Lingkungan, 11(2), 221-225.

PLN (2017). Rencana Usaha Penyediaan Tenaga Listrik (RUPTL) PLN.

Usman, U., & Muhammad, U. (2016, August). Perencanaan dan analisis ekonomi PLTS terpusat (Studi kasus: Pulau Kodingareng). In Seminar Nasional Teknik Elektro dan Informatika (SNTEI).

Rice, I. K., Zhu, H., Zhang, C., & Tapa, A. R. (2023). A hybrid photovoltaic/diesel system for off-grid applications in Lubumbashi, DR Congo: A HOMER Pro modeling and optimization study. Sustainability, 15(10), 8162.

Wicaksana, H., Muslim, M. M., Hutapea, S. F., Purwadi, A., & Haroen, Y. (2016, November). Design, implementation and techno-economic analysis of hybrid PV-Diesel for off-grid system in Sebira Island. In 2016 3rd Conference on Power Engineering and Renewable Energy (ICPERE).

Yasin, A., & Alsayed, M. (2020). Optimization with excess electricity management of a PV, energy storage and diesel generator hybrid system using HOMER Pro software. Int. J. Appl. Power Eng.(IJAPE), 9, 267-283.

Riayatsyah, T. M. I., Geumpana, T. A., Fattah, I. R., & Mahlia, T. I. (2022). Techno-economic analysis of hybrid diesel generators and renewable energy for a remote island in the indian ocean using HOMER Pro. Sustainability, 14(16), 9846.

Navies, A. (2021). Analisis teknis dan ekonomi pembangkit listrik tenaga hybrid biomass-biogas [Thesis]. Universitas Islam Negeri Sultan Syarif Kasim.

Bagaskoro, B., Windarta, J., & Denis, D. (2019). Perancangan dan analisis ekonomi teknik pembangkit listrik tenaga surya sistem offgrid menggunakan perangkat lunak Homer di Kawasan Wisata Pantai Pulau Cemara. Transient: Jurnal Ilmiah Teknik Elektro, 8(2), 152-157.

Chandra, Y. (2016). Analisis ekonomi energi perencanaan pembangunan PLTS (Studi kasus Gedung Kuliah Politeknik Negeri Ketapang). Jurnal ELKHA, 8(1).

Sitohang, M. P. (2019). Perancangan pembangkit listrik tenaga surya (PLTS) terpusat off-grid system (Studi kasus: Desa Tanjung Beringin, Kabupaten Kampar, Riau) [Thesis]. Universitas Islam Negeri Sultan Syarif Kasim Riau.

Sudarjo, N. H., Haddin, M., & Suprajitno, A. (2022). Analisa perencanaan pembangkit listrik tenaga surya atap dengan sistem hybrid di PT. Koloni Timur. Elektrika, 14(1), 20-25.

Yonata, K. (2017). Analisis tekno-ekonomi terhadap desain sistem PLTS pada bangunan komersial di Surabaya, Indonesia. Dep. Tek. Fis. Fak. Teknol. Ind. Inst. Teknol. Sepuluh Nop. Surabaya, 51.

Nasution, D. D. (2023). Harga BBM di SPBU Pertamina naik lagi per 1 Agustus 2023. Republika. https://ekonomi.republika.co.id/berita/ryp0qi490/duh-harga-bbm-di-spbu-pertamina-naik-lagi-per-1-agustus-2023

Bank Indonesia (2023). Suku Bunga Bank Indonesia. www.bi.go.id




DOI: http://dx.doi.org/10.22441/ijimeam.v5i2.23245

Refbacks

  • There are currently no refbacks.


Copyright (c) 2023 Muhammad Yusuf Yunus, Lewi Lewi, Andi Saiful Rijal, Nur Huda, Ahmad Ikram

Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

INDEXED IN

 

Publisher Address:
Universitas Mercu Buana
Program Studi S2 Teknik Mesin
Jl. Meruya Selatan No. 1, Jakarta 11650, Indonesia
Phone/Fax. (+6221) 5871335
Email [email protected]
Homepage http://teknikmesin.ft.mercubuana.ac.id/

Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.