THE EFFICIENT IMPLEMENTATION OF HYBRID POWER PLANTS IN INDONESIA
Keywords:
Electricity, Energy supply, Hybrid power plant, Solar energy, Wind energyAbstract
The energy crisis is a serious issue that all countries around the world are dealing with, particularly the energy sources used to generate electricity. There are numerous alternative energy sources available in nature, such as solar energy, wind energy, and so on. Wind and solar energy as hybrid energy sources are thought to be promising in electric generation technology. Hybrid Power Plants can also be used to address the issue of limited electrical energy supply in Indonesia's remote areas. The purpose of this study is to describe the effectiveness of the hybrid power plants implementation in Indonesia. The study was conducted using the narrative literature review method. It can be inferred that the purpose of developing this hybrid technology, among others, is to obtain more efficient electrical energy generation by combining the advantages of two or more types of power generation systems that work in an integrated manner as a compact system. The produced electric energy can be stored in the battery. In terms of use, the produced direct current (DC) is converted into alternating current (AC) using the inverter system prior to distribution to consumers. Therefore, this hybrid power plant is suitable to be implemented in Indonesia.
Downloads
References
Arafah, W., Nugroho, L., Takaya, R., and Soekapdjo, S. (2018). Marketing strategy for renewable energy development in Indonesia context today. International Journal of Energy Economics and Policy, 8(5), 181-186.
Atilgan, B., and Azapagic, A. (2016). An integrated life cycle sustainability assessment of electricity generation in Turkey. Energy Policy, 93, 168-186.
Bedi, J., and Toshniwal, D. (2019). Deep learning framework to forecast electricity demand. Applied energy, 238, 1312-1326.
Caraka, R. E. (2016). Simulasi Kalkulator Energi Baru Terbarukan (EBT) Guna Memenuhi Ketahanan Energi di Indonesia. Statistika, 16(2), 77-88.
Dai, S., and Finkelman, R. B. (2018). Coal as a promising source of critical elements: Progress and future prospects. International Journal of Coal Geology, 186, 155-164.
Engeland, K., Borga, M., Creutin, J. D., François, B., Ramos, M. H., and Vidal, J. P. (2017). Space- time variability of climate variables and intermittent renewable electricity production–A review. Renewable and Sustainable Energy Reviews, 79, 600-617.
Ferrari, R. (2015). Writing narrative style literature reviews. Medical Writing, 24(4), 230-235.
Guo, S., Liu, Q., Sun, J., and Jin, H. (2018). A review on the utilization of hybrid renewable energy. Renewable and Sustainable Energy Reviews, 91, 1121-1147.
Hardianto, H. (2019). Utilization of solar power plant in indonesia: A Review. International Journal of Environment, Engineering and Education, 1(3), 1-8.
Hidayanti, D., and Dewangga, G. (2020). Rancang bangun pembangkit hybrid tenaga angin dan surya dengan penggerak otomatis pada panel surya. Eksergi, 15(3), 93-101.
Ibnu Hajar, M. H., Dani, A. W., and Miharno, S. (2018). Monitoring of electrical system using internet of things with smart current electric sensors. SINERGI, 22(3), 211-218.
Jenkins, P., Elmnifi, M., Younis, A., and Emhamed, A. (2019). Hybrid power generation by using solar and wind energy: Case study. World Journal of Mechanics, 09(04), 81–93
Kåberger, T. (2018). Progress of renewable electricity replacing fossil fuels. Global Energy Interconnection, 1(1), 48-52.
Khan, S., Siddique, R., Sajjad, W., Nabi, G., Hayat, K. M., Duan, P., and Yao, L. (2017). Biodiesel production from algae to overcome the energy crisis. HAYATI Journal of Biosciences, 24(4), 163-167.
Lin, B., and Zhu, J. (2020). Chinese electricity demand and electricity consumption efficiency: Do the structural changes matter?. Applied Energy, 262, 114505.
Mubarok, H., and Farid, M. (2019). Hybrid power plant system analysis in seruni beach, Bantaeng district, South Sulawesi. Journal of Physics: Conference Series, 1413(1), 1-7.
Noviani, L. (2019). Assessment of the application of wind power in Indonesia. Indonesian Journal of Physics and Nuclear Applications, 4(3), 78-85.
Pae, M. G., Prasetyo, R. B., Suharyanto, S., and Haryono, T. (2017). Performance analysis of hybrid power plant (Wind and Solar) in Baron Techno Park Gunung Kidul Yogyakarta. Jurnal Ilmu Teknik Elektro Komputer dan Informatika (JITEKI), 3(2), 110-117.
Pambudi, G., and Nananukul, N. (2019). Wind turbine site selection in Indonesia, based on a hierarchical dual data envelopment analysis model. Energy Procedia, 158, 3290-3295.
Rehman, S. (2021). Hybrid power systems – Sizes, efficiencies, and economics. Energy Exploration and Exploitation, 39(1), 3–43.
Sahu, B. K. (2018). Wind energy developments and policies in China: A short review. Renewable and Sustainable Energy Reviews, 81, 1393-1405.
Saodah, S., and Hariyanto, N. (2019). Perancangan sistem pembangkit listrik hybrid dengan kapasitas 3 kva. Proceedings of National Colloquium Research and Community, 3, 187-190.
Tezer, T., Yaman, R., and Yaman, G. (2017). Evaluation of approaches used for optimization of stand-alone hybrid renewable energy systems. Renewable and Sustainable Energy Reviews, 73, 840-853.
Tharo, Z. (2019). Hybrid power plant solar and wind power as an alternative source in facing the fossil energy crisis in Sumatera. International Halal Conference and Exhibition 2019 (IHCE), 1(1), 15-21.
Wagh, S., and Walke, P. V. (2017). Review on wind-solar hybrid power system. International Journal of Research in Science and Engineering, 3(2), 71-76.
Downloads
Published
Issue
Section
License
Copyright (c) 2021 Universitas Pendidikan Indonesia
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
