Hidrogen Hijau Berbasis Biomassa Sebagai Strategi Transisi Menuju Kemandirian Energi dan Pembangunan Berkelanjutan di Indonesia
Biomass-Based Green Hydrogen As A Transition Strategy Towards Energy Independence And Sustainable Development In Indonesia
DOI:
https://doi.org/10.53866/jimi.v5i6.1141Keywords:
Green Hydrogen, Biomass, Energy Transition, Energy Independence, Sustainable DevelopmentAbstract
Indonesia’s heavy reliance on fossil fuels where renewable energy contributes only about 13–14% of the national energy mix in 2024 continues to accelerate carbon emissions and expose the economy to global price volatility. Transitioning toward clean energy has therefore become a strategic necessity for national sustainability. This study aims to analyze Indonesia’s biomass potential, assess its contribution to sustainable development, and formulate policy directions and cross-sector collaboration to accelerate an inclusive and sustainable green energy transition. The research employs a semi-systematic literature review of more than 40 scientific publications, policy reports, and national datasets (ESDM, IRENA, BPS) using the Triple Bottom Line framework (People, Planet, Profit). Findings reveal that Indonesia’s biomass potential exceeds 146 million tons per year, capable of producing 50–60 million tons of green hydrogen substituting approximately 35% of national primary energy demand. CaO–Ni-based gasification technology demonstrates 70–85% conversion efficiency and up to 90% emission reduction compared to fossil fuels. Moreover, green hydrogen development can generate green jobs, strengthen local economies, and support the 2060 Net Zero Emission target. This study underscores the importance of pentahelix collaboration, green fiscal policies, and technological innovation to establish an inclusive, competitive, and sustainable green hydrogen ecosystem in Indonesia.
References
Fandi, S. R., & Latif, A. (2024). Analisis Permasalahan Pertumbuhan Ekonomi Di Negara Indonesia. Jurnal Ilmiah Global Education, 5(1), 740–749. Https://Doi.Org/10.55681/Jige.V5i1.2505
Ghasemi, A., Nikafshan Rad, H., & Akrami, M. (2024). Biomass-To-Green Hydrogen: A Review Of Techno-Economic-Enviro Assessment Of Various Production Methods. Hydrogen, 5(3), 474–493. Https://Doi.Org/10.3390/Hydrogen5030027
Hoang, A. T., Pandey, A., Lichtfouse, E., Bui, V. G., Veza, I., Nguyen, H. L., & Nguyen, X. P. (2023). Green Hydrogen Economy: Prospects And Policies In Vietnam. International Journal Of Hydrogen Energy, 48(80), 31049–31062. Https://Doi.Org/10.1016/J.Ijhydene.2023.05.306
INDONESIA HIDROGEN ROADMAP Diterbitkan Atas Kerjasama Dengan: Indonesia Fuel Cell And Hydrogen Energy (IFHE). (N.D.).
Kharisma, A., Pinandita, S., & Jayanti, A. E. (2024). Literature Review: Kajian Potensi Energi Surya Alternatif Energi Listrik. Jurnal Energi Baru Dan Terbarukan, 5(2), 145–154. Https://Doi.Org/10.14710/Jebt.2024.23956
Kristanto, G. A., & Koven, W. (2019). Estimating Greenhouse Gas Emissions From Municipal Solid Waste Management In Depok, Indonesia. City And Environment Interactions, 4. Https://Doi.Org/10.1016/J.Cacint.2020.100027
Oktaviani, K., Suntoro, D., Fauzia Ladiba, A., Tiara Sasti, H., Anggono, T., Gusti Ngurah Agung Surya Pradipta Negara, I., Litbang ESDM Jl Ciledug Raya Kav, B., Selatan, J., & Panjang Sebuah Perjuangan, J. (21 C.E.). Biodiesel, Jejak Panjang Sebuah Perjuangan. Www.Litbang.Esdm.Go.Id
Putung, R. Y. & N. D. (2021). Analisis Efisiensi Penggunaan Energi Listrik Dengan Audit Energi Shalahuddin Miqrad. Journal Of Electrical Engineering, Energy, And Information Technology, 1(1), 1–7.
Rezzonico, A., Baxter, C., & Sikorsky, E. (2025). Indonesia’s Climate Security And Renewable Energy Nexus A Landscape Assessment. Www.Councilonstrategicrisks.Org
Sari; Setyo ; Annisa. (2023). Green Economy, Sebagai Strategi Penanganan Masalah Multilateral Dan Ekonomi. Indonesia Proceedings And Annual Conference Of Islamic Law And Sharia Economic (IPACILSE), 111–118.
Shu, D. Y., Deutz, S., Winter, B. A., Baumgärtner, N., Leenders, L., & Bardow, A. (2023). The Role Of Carbon Capture And Storage To Achieve Net-Zero Energy Systems: Trade-Offs Between Economics And The Environment. Renewable And Sustainable Energy Reviews, 178(113246), 1–10. Https://Doi.Org/10.1016/J.Rser.2023.113246
Sidiq, A. N. (2022). Pengaruh Co-Firing Biomassa Terhadap Efisiensi Boiler PLTU Batubara. KILAT, 11(1), 21–31. Https://Doi.Org/10.33322/Kilat.V11i1.1553
Tleubergenova, A., Han, B. C., & Meng, X. Z. (2024). Assessment Of Biomass-Based Green Hydrogen Production Potential In Kazakhstan. International Journal Of Hydrogen Energy, 49, 349–355. Https://Doi.Org/10.1016/J.Ijhydene.2023.08.197
Yana, S., Nizar, M., Irhamni, & Mulyati, D. (2022). Biomass Waste As A Renewable Energy In Developing Bio-Based Economies In Indonesia: A Review. In Renewable And Sustainable Energy Reviews (Vol. 160). Elsevier Ltd. Https://Doi.Org/10.1016/J.Rser.2022.112268
Zhao, H., Lu, D., Wang, J., Tu, W., Wu, D., Koh, S. W., Gao, P., Xu, Z. J., Deng, S., Zhou, Y., You, B., & Li, H. (2021). Raw Biomass Electroreforming Coupled To Green Hydrogen Generation. Nature Communications, 12(1). Https://Doi.Org/10.1038/S41467-021-22250-9
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