Potential Alternatif Sources of Financing in Biofuel Development in Indonesia
(1) Geography Educational Study Program, Almuslim University, Bireuen
(2) Geography Educational Study Program, Almuslim University, Bireuen
Abstract
Biofuels have been developed in many countries including Indonesia, which is an effort to reduce dependence on fossil energy sources. As one of the countries with a high population, has a large agricultural area and forest area, making Indonesia has the potential to become the highest biofuel producing country in the world. Since the government launched its energy policy in 2006 it seems interesting that, biofuel progress in Indonesia has not progressed well. The obstacles in the development of biofuels in Indonesia are government policies and infrastructure development funding systems. The target of the biofuel program in Indonesia seems very ambitious, therefore it needs alternative financing support outside the State Budget that can support the development of biofuels in Indonesia, which is the focus of this study. The research method is descriptive qualitative with a study that is, the potential for alternative sources of financing in the development of biofuels in Indonesia. The alternative financing taken is PINA (Government Non-Budget Investment Financing) which can contribute to financing the development of national strategic infrastructure projects with commercial value that has an impact on improving the economy in Indonesia.
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Abbaszaadeh, A. et al. (2012). Current biodiesel production technologies: A comparative review. Energy Conversion and Management, 63, 138–148. Available at: https://doi.org/10.1016/j.enconman.2012.02.027.
Alaswad, A. et al. (2015). Technologies and developments of third generation biofuel production. Renewable and Sustainable Energy Reviews, 51, 1446–1460. Available at: https://doi.org/10.1016/j.rser.2015.07.058.
Ananda, C. F. (2018). Pembiayaan Alternatif Proyek Pemerintah – Fakultas Ekonomi dan Bisnis Universitas Brawijaya. Available at: https://feb.ub.ac.id/id/pembiayaan-alternatif-proyek-pemerintah.html (Accessed: 5 November 2022).
BAPPENAS (2017). Infografis - Pembiayaan Investasi Non Anggaran Pemerintah (PINA). Pemkab Manggarai, 13 April. Available at: https://www.manggaraikab.go.id/infografis-pembiayaan-investasi-non-anggaran-pemerintah-pina/ (Accessed: 4 November 2022).
Biernat, K., Grzelak, P. L., Biernat, K., Grzelak, P. L. (2015). Biorefinery Systems as an Element of Sustainable Development, in: Biofuels - Status and Perspective. IntechOpen. https://doi.org/10.5772/60448
Caroko, W. et al. (2011) Policy and institutional frameworks for the development of palm oil-based biodiesel in Indonesia, CIFOR. Center for International Forestry Research (CIFOR). Available at: https://www.cifor.org/knowledge/publication/3660/ (Accessed: 4 November 2022).
Chew, T. L. & Bhatia, S. (2008). Catalytic processes towards the production of biofuels in a palm oil and oil palm biomass-based biorefinery. Bioresource Technology, 99(17), 7911–7922. Available at: https://doi.org/10.1016/j.biortech.2008.03.009.
Databoks.katadata. (2022). 65% Minyak Sawit RI untuk Ekspor, Sisanya Konsumsi Lokal | Databoks [WWW Document], n.d. URL https://databoks.katadata.co.id/datapublish/2022/04/25/65-minyak-sawit-ri-untuk-ekspor-sisanya-konsumsi-lokal (accessed 9.21.23).
Demirbas, A. (2011). Competitive liquid biofuels from biomass. Applied Energy, 88(1), 17–28.
Direktorat Jenderal Energi Baru Terbarukan dan Konservasi Energi (2019a) (no date) Direktorat Jenderal EBTKE - Kementerian ESDM. Available at: https://ebtke.esdm.go.id/post/2019/12/19/2434/faq.program.mandatori.biodiesel.30.b30 (Accessed: 4 November 2022).
Fatih D. M., Balat, M. & Balat, H. (2011). Biowastes-to-biofuels. Energy Conversion and Management, 52(4), 1815–1828. Available at: https://doi.org/10.1016/j.enconman.2010.10.041.
German, L. et al. (2017). Sine Qua Nons of sustainable biofuels: Distilling implications of under-performance for national biofuel programs. Energy Policy, 108, 806–817. Available at: https://doi.org/10.1016/j.enpol.2017.04.01.
Harahap, F., Silveira, S., & Khatiwada, D. (2019). Cost competitiveness of palm oil biodiesel production in Indonesia. Energy, 170, 62–72. Available at: https://doi.org/10.1016/j.energy.2018.12.115.
Harsono, S., & Subronto, B. (2013). Land-Use Implications to Energy Balances and Greenhouse Gas Emissions on Biodiesel from Palm Oil Production in Indonesia. Journal of Central European Agriculture, 14(2), 513–524. Available at: https://doi.org/10.5513/JCEA01/14.2.1231.
Hunsberger, C., German, L. and Goetz, A. (2017). “Unbundling” the biofuel promise: Querying the ability of liquid biofuels to deliver on socio-economic policy expectations. Energy Policy, 108, 791–805. Available at: https://doi.org/10.1016/j.enpol.2017.04.01.
Indonesia.go.id. (2021, n.d.). Indonesia.go.id Agar Penyaluran Biodiesel Meningkat dan Terus Meningkat [WWW Document]. URL https://indonesia.go.id/kategori/feature/2511/agar-penyaluran-biodiesel-meningkat-dan-terus-meningkat?lang=1 (accessed 9.21.23).
Jupesta, J. (2010). Impact of the Introduction of Biofuel in the Transportation Sector in Indonesia. Sustainability, 2(6), 1831–1848. Available at: https://doi.org/10.3390/su2061831.
Katadata. 2022, n.d. Pemanfaatan Biodiesel Domestik Capai 9,3 Juta Kiloliter pada 2021 | Databoks [WWW Document]. URL https://databoks.katadata.co.id/datapublish/2022/01/24/pemanfaatan-biodiesel-domestik-capai-93-juta-kiloliter-pada-2021 (accessed 9.21.23).
KESDM (2019, no date). Presiden Jokowi Resmikan Implementasi B30, Tekan Impor BBM, migas.esdm.go.id. Available at: https://migas.esdm.go.id/post/read/presiden-jokowi-resmikan-implementasi-b30-mulai-1-januari-2020 (Accessed: 6 November 2022).
LPEM FEB UI (2020). Analisis Risiko Kebijakan Biodiesel B30. Lembaga Penyelidikan Ekonomi dan Masyarakat - Fakultas Ekonomi dan Bisnis - Universitas Indonesia, 16 March. Available at: https://www.lpem.org/id/analisis-risiko-kebijakan-biodiesel-b30/ (Accessed: 4 November 2022).
Nuva, N., Fauzi, A., Dharmawan, A. H., Putri, E. I. K. (2019). Ekonomi politik energi terbarukan dan pengembangan wilayah: Persoalan pengembangan biodiesel di Indonesia. https://doi.org/10.22500/sodality.v7i2.19727
Palmoilina.asia (2023). Biodiesel Indonesia: Produksi, Konsumsi Dan Ekspor (2023). URL https://palmoilina.asia/sawit-hub/biodiesel-indonesia/ (accessed 9.21.23).
Pertiwi, D. S. (2013). Konsep dan Tantangan Pengembangan Biorefinery. Jurnal Itenas Rekayasa 17, 218832.
Putrasari, Y. et al. (2016). Resources, policy, and research activities of biofuel in Indonesia: A review. Energy Reports, 2, 237–245. Available at: https://doi.org/10.1016/j.egyr.2016.08.005.
Putri, E.S., Wisudanto, W. (2017). Struktur Pembiayaan Pembangunan Infrastruktur di Indonesia Penunjang Pertumbuhan Ekonomi. IPTEK Journal of Proceedings Series 3. https://doi.org/10.12962/j23546026.y2017i5.3136
Ruan, R. et al. (2019). Chapter 1 - Biofuels: Introduction. in A. Pandey et al. (eds) Biofuels: Alternative Feedstocks and Conversion Processes for the Production of Liquid and Gaseous Biofuels (Second Edition). Academic Press (Biomass, Biofuels, Biochemicals), 3–43. Available at: https://doi.org/10.1016/B978-0-12-816856-1.00001-4.
Saputra, W., Sulistyanto, S. and Isnaini, K.N. (2021). Analisis Kerentanan Korupsi dalam Kebijakan Subsidi Biodiesel di Indonesia. Integritas : Jurnal Antikorupsi, 7(2), 279–290. Available at: https://doi. org/10.32697/integritas.v7i2.815.
Sikarwar, V.S. et al. (2017). Progress in biofuel production from gasification. Progress in Energy and Combustion Science, 61, 189–248. Available at: https://doi.org/10.1016/j.pecs.2017.04.001.
Sudjoko, C., Laksmono, R., Ukhsan, A. (2022). Pengembangan Biofuel Berbasis Crude Palm Oil (Cpo) Dalam Mendukung Target Ketahanan Energi Nasional Dan Alutsista Pertahanan. Ketahanan Energi 8.
Suganya, T. et al. (2016). Macroalgae and microalgae as a potential source for commercial applications along with biofuels production: A biorefinery approach. Renewable and Sustainable Energy Reviews, 55, 909–941. Available at: https://doi.org/10.1016/j.rser.2015.11.026.
Zhang, Y., Wang, Q., et al. (2018). Is there a general relationship between the exergy and HHV for rice residues?. Renewable Energy, 117, 37–45. Available at: https://doi.org/10.1016/j.renene.2017.10.022.
Zhang, Y., Zhao, W., et al. (2018). Understanding the Sustainability of Fuel from the Viewpoint of Exergy. European Journal of Sustainable Development Research, 2(1), 09. Available at: https://doi.org/10.20897/ejosdr/76935.
Zhang, Y. et al. (2017). Microwave‐Assisted Pyrolysis of Biomass for Bio‐Oil Production. in. Available at: https://doi.org/10.5772/67442.
Zhang, Y. et al. (2016). Exergy characteristics of woody biomass. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 38(16), 2438–2446. Available at: https://doi.org/10.1080/15567036.2015.1075088.
Zhang, Y., Ghaly, A. E. and Li, B. (2013). Comprehensive Investigation into the Exergy Values of Six Rice Husks. American Journal of Engineering and Applied Sciences, 6(2), 216–225. Available at: https://doi.org/10.3844/ajeassp.2013.216.225.
Zhang, Y., Ghaly, A. E. & Li, B. (2012). Availability and Physical Properties of Residues from Major Agricultural Crops for Energy Conversion Through Thermochemical Processes. American Journal of Agricultural and Biological Sciences, 7(3), 312–321. Available at: https://doi.org/10.3844/ajabssp.2012.312.321.
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