Analisis Teknis dan Ekonomis Penerapan PLTS Pada Perumahan Karyawan Divisi 1 PT. CVA

Authors

  • Nita Nurdiana Universitas PGRI Palembang, Sumatra Selatan, Indonesia
  • Irine Kartika Febrianti Universitas PGRI Palembang, Sumatra Selatan, Indonesia
  • Ian Kurniawan Universitas PGRI Palembang, Sumatra Selatan, Indonesia
  • Dui Yanto Rahman Universitas PGRI Palembang, Sumatra Selatan, Indonesia
  • Dadang Atari Universitas PGRI Palembang, Sumatra Selatan, Indonesia

DOI:

https://doi.org/10.59175/pujes.v2i2.502

Keywords:

Diesel Generator, Longhouse, Renewable Energy, Solar Power Plant

Abstract

This planning analysis of a solar power generation system (PLTS) as an alternative energy source for longhouse 1, with a total power of 3,180 VA. Based on a daily energy consumption of approximately 38.16 kWh, the calculation of solar panel capacity indicates a requirement of around 48 panels with a capacity of 250 Wp each. The energy storage system is planned using 20 units of 200 Ah, 12 V batteries, with a 5 kWh inverter capacity. The estimated investment cost for the PLTS system is Rp 182,900,000, while the annual operational cost is zero. In comparison, the use of a 3,200 VA generator set (generator diesel) results in an annual cost of Rp 166,800,000. Considering cost and sustainability aspects, PLTS shows long-term advantages despite requiring a higher initial investment. Recommendations are provided for a comprehensive evaluation of energy needs and financial capacity before implementation decisions are made.

References

Barsei, Adhityo Nugraha, Pamungkasih, Estri, Sabtohadi, Joko, Asmoro, Bramantyo Tri, Anindyasari, Yurike, & Saputra, Alhadi. (2024). Community-based centralized solar mini-grid management for rural electrification: Evidence from remote villages. E3S Web of Conferences, 506. https://doi.org/10.1051/e3sconf/202450603001

Dewan Energi Nasional. (2015). Rencana Strategis Dewan Energi Nasional. Jakarta, Indonesia: Kementrian Energi Sumber Daya dan Mineral (ESDM).

Erwin Susanto. (2024). Indonesia’s Readiness to Utilize Renewable Energy Wind Power Plants As Implementation of Sustainable Development Goals. Journal of Management and Energy Business, 4(1), 68–77. https://doi.org/10.54595/jmeb.v4i1.75

Hendry, Timotiyas, Paradongan., Dzikri, Firmansyah, Hakam, Sudarso, Kaderi, Wiryono., I., Prahastono., Indra, A., Aditya, Kevin, M., Banjarnahor., Ngapuli, I., Sinisuka, Ayodele, O., & Asekomeh. (2024). Techno-economic feasibility study of solar photovoltaic power plant using RETScreen to achieve Indonesia energy transition. Heliyon. https://doi.org/10.1016/j.heliyon.2024.e27680

Kurniawan, I., Ichwani, R., Fionasari, R., & Huda, A. (2024). The Implementation of Export-Import (EI) Subsidies Regulation on Rooftop Photovoltaic Plant System in Indonesia Based on Techno-Economic Point of View: A Study Case in Ogan Komering Ulu Region, South Sumatera, Indonesia. International Journal of Sustainable Development & Planning, 19(4).

López-Castrillón, William, Sepúlveda, Héctor H., & Mattar, Cristian. (2021). Off-grid hybrid electrical generation systems in remote communities: Trends and characteristics in sustainability solutions. Sustainability (Switzerland), 13(11). https://doi.org/10.3390/su13115856

Miao, Ying, & Jia, Yu. (2014). Hybrid decentralised energy for remote communities: Case studies and the analysis of the potential integration of rain energy. Journal of Sustainable Development of Energy, Water and Environment Systems, 2(3), 243–258. https://doi.org/10.13044/j.sdewes.2014.02.0020

Nugraha, Agung, Armadan, Rico, & Taryo. (2024). Optimizing Solar Power Generation for Residential Loads in Remote Regions of Indonesia. Malaysian Journal of Science and Advanced Technology, 4(3), 354–359. https://doi.org/10.56532/mjsat.v4i3.355

Tendy, Ferdyansyah, & Arnisa, Stefanie. (2023). Analysis of solar energy potential in the pt. sumedang televisi utama building as an alternative energy source. Teknokom. https://doi.org/10.31943/teknokom.v6i2.159

Sudarmadi, Didik, & Garniwa, Iwa. (2023). Optimal Sizing and Techno-economic Analysis of Hybrid Renewable Energy System for Off-grid Remote Areas in Indonesia. 2023 International Conference on Energy, Power, Environment, Control, and Computing (ICEPECC), 1–6. https://doi.org/10.1109/ICEPECC57281.2023.10209479

Qayyum, Alius, Afifah, Mamun, & K., Chung. (2024). Optimising Solar PV Placement in Indonesia: AHP Multi-Criteria Decision Analysis for Ideal Locations. E3S Web of Conferences. https://doi.org/10.1051/e3sconf/202454502003

Yuliana, Susilowati., Dindamilenia, Choirunnisa, Hardiyasanti., Sinta, Widianingrum., F., Endrasari., D., Wibowo, Djamari., Aditiya, Harjon, Bahar., Jaya, Wahono., Ibham, Veza. (2023). Carbon credit and economic feasibility analysis of biomass-solar PV-battery power plant for application in Indonesia remote area. Renewable Energy. https://doi.org/10.1016/j.renene.2023.119383

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Published

2025-04-17

How to Cite

Nurdiana, N., Febrianti, I. K. ., Kurniawan, . I. ., Rahman, D. Y. ., & Atari, D. . (2025). Analisis Teknis dan Ekonomis Penerapan PLTS Pada Perumahan Karyawan Divisi 1 PT. CVA. PPSDP Undergraduate Journal of Educational Sciences, 2(2), 363–373. https://doi.org/10.59175/pujes.v2i2.502

Issue

Vol. 2 No. 2 (2025): PPSDP Undergraduate Journal of Educational Sciences

Section

Articles

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Copyright (c) 2025 Nita Nurdiana, Irine Kartika Febrianti, Ian Kurniawan, Dui Yanto Rahman, Dadang Atari

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