Analisis Pemanfaatan Sampah Organik Untuk Briket Arang Ramah Lingkungan Untuk Meningkatkan Ketahanan Energi : Studi Kasus Di Perlis, Malaysia
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Published:
Aug 14, 2025
Keywords:
Organic waste, environmentally friendly charcoal briquettes, and energy security.
Section
Articles
Statistics Article
Article View : 165 Times
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Raja Harahap
Universitas Sumatera Utara
Luthfi Parinduri
Universitas Islam Sumatera Utara
Helma Widya
Universitas LP3I Medan
Ronald HT Simbolon,
Universitas Islam Sumatera Utara
Suhela Putri Nasution
Universitas Prima Indonesia
Abstract
This article presents an innovative approach to addressing energy security through the production of environmentally friendly charcoal briquettes derived from organic waste. Held on February 18, 2025, at the UniMAP Rectorate Building in Perlis, Malaysia, the event aimed to explore sustainable energy alternatives by utilizing organic waste materials to produce environmentally friendly and energy-efficient charcoal briquettes. This study evaluated the technical feasibility, environmental impact, and potential benefits of utilizing organic waste as a renewable energy source. Through a series of interactive discussions and practical demonstrations, the event highlighted the importance of circular economy practices and sustainable energy solutions to mitigate the global energy crisis and environmental challenges.
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How to Cite
Harahap, R., Parinduri, L., Widya, H., Simbolon, R. H., & Nasution, S. P. (2025). Analisis Pemanfaatan Sampah Organik Untuk Briket Arang Ramah Lingkungan Untuk Meningkatkan Ketahanan Energi : Studi Kasus Di Perlis, Malaysia. Jurnal Masyarakat Indonesia (Jumas), 4(02), 313–321. https://doi.org/10.54209/jumas.v4i02.293
References
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5) Asibuo, E. N., & Akowuah, J. O. (2020). Assessment of briquette fuel from agro-waste biomass in developing countries. Energy for Sustainable Development, 55, 162–170. https://doi.org/10.1016/j.esd.2020.01.004
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7) González-Arias, C., dkk. (2022). Pengelolaan limbah makanan dan pemanfaatan limbah menjadi energi berkelanjutan: Upaya terkini, pencernaan anaerobik, insinerator, dan karbonisasi hidrotermal dengan fokus di Malaysia. ScienceDirect. Tersedia di:https://www.sciencedirect.com/science/article/abs/pii/S09596 52624009053[Diakses 30 April 2025].
8) Idris, A., dkk. (2021). Briket Arang Hijau Berkelanjutan dari Limbah Pangan melalui Teknik Pirolisis Gelombang Mikro: Pengaruh Jenis dan Konsentrasi Pengikat terhadap Karakteristik Kimia dan Fisika. Jurnal Internasional Pengembangan Energi Terbarukan, 10(1), hlm. 1–10. Tersedia di:https://ejournal.undip.ac.id/index.php/ ijred/article/view/33101/ 0[Diakses 30 April 2025]
9) Saharudin, DM, Jeswani, HK, & Azapagic, A. (2024). Biochar dari limbah pertanian: Keberlanjutan lingkungan, kelayakan ekonomi, dan potensi sebagai teknologi emisi negatif di Malaysia. The Science of the Total Environment, 919, 170266. Tersedia di:https://doi.org/10.1016/j.scitotenv.2024.170266 [Diakses 30 Apr. 2025].
10) Tang, KM, Ibrahim, WA, & Kadir, WR (2016). Menuju Keberlanjutan Lingkungan dan Ekonomi melalui Industri Biomassa: Studi Kasus Malaysia. Dalam: Bruckman, VJ, Apaydın Varol, E., Uzun, BB, dan Liu, J., eds. Biochar. Cambridge: Cambridge University Press, hlm. 1017–1027. Tersedia di: https://doi.org/10.1017/9781316337974.009 [Diakses 30 April 2025].
11) UPM (Universitas Putra Malaysia). (2025). Inovasi BMC menghasilkan biochar yang lebih ramah lingkungan dan meningkatkan kapasitas produk. Tersedia di:https://upm.edu.my/news/bmc_innovation_menghasilkan_biochar_yang_lebih_ramah_lingkungan_meningkatkan_kapasitas_produk-41411[Diakses 30 April 2025].
2) Akinrinlola, R. J., & Sotannde, O. A. (2020). Characterization of briquettes from agro-waste and their potential for sustainable energy supply. Energy Reports, 6, 692–701. https://doi.org/10.1016/j.egyr.2020.02.003
3) Al-Maamary, H. M., Kazem, H. A., & Chaichan, M. T. (2017). The impact of renewable energy on sustainable development in Malaysia. International Journal of Engineering Research and Applications, 7(4), 1–9.
4) Anyanwu, C. N., & Joseph, J. (2021). Thermal performance of briquettes produced from agricultural waste biomass. Heliyon, 7(4), e06771. https://doi.org/10.1016/j.heliyon.2021.e06771
5) Asibuo, E. N., & Akowuah, J. O. (2020). Assessment of briquette fuel from agro-waste biomass in developing countries. Energy for Sustainable Development, 55, 162–170. https://doi.org/10.1016/j.esd.2020.01.004
6) Bevan, R. (2022). Pengelolaan limbah makanan dan pemanfaatan limbah menjadi energi berkelanjutan: Upaya terkini, pencernaan anaerobik, insinerator, dan karbonisasi hidrotermal dengan fokus di Malaysia. ScienceDirect. Tersedia di:https://www.sciencedirect.com/science/article/abs/pii/S0959652624009053[Diakses 30 April 2025].
7) González-Arias, C., dkk. (2022). Pengelolaan limbah makanan dan pemanfaatan limbah menjadi energi berkelanjutan: Upaya terkini, pencernaan anaerobik, insinerator, dan karbonisasi hidrotermal dengan fokus di Malaysia. ScienceDirect. Tersedia di:https://www.sciencedirect.com/science/article/abs/pii/S09596 52624009053[Diakses 30 April 2025].
8) Idris, A., dkk. (2021). Briket Arang Hijau Berkelanjutan dari Limbah Pangan melalui Teknik Pirolisis Gelombang Mikro: Pengaruh Jenis dan Konsentrasi Pengikat terhadap Karakteristik Kimia dan Fisika. Jurnal Internasional Pengembangan Energi Terbarukan, 10(1), hlm. 1–10. Tersedia di:https://ejournal.undip.ac.id/index.php/ ijred/article/view/33101/ 0[Diakses 30 April 2025]
9) Saharudin, DM, Jeswani, HK, & Azapagic, A. (2024). Biochar dari limbah pertanian: Keberlanjutan lingkungan, kelayakan ekonomi, dan potensi sebagai teknologi emisi negatif di Malaysia. The Science of the Total Environment, 919, 170266. Tersedia di:https://doi.org/10.1016/j.scitotenv.2024.170266 [Diakses 30 Apr. 2025].
10) Tang, KM, Ibrahim, WA, & Kadir, WR (2016). Menuju Keberlanjutan Lingkungan dan Ekonomi melalui Industri Biomassa: Studi Kasus Malaysia. Dalam: Bruckman, VJ, Apaydın Varol, E., Uzun, BB, dan Liu, J., eds. Biochar. Cambridge: Cambridge University Press, hlm. 1017–1027. Tersedia di: https://doi.org/10.1017/9781316337974.009 [Diakses 30 April 2025].
11) UPM (Universitas Putra Malaysia). (2025). Inovasi BMC menghasilkan biochar yang lebih ramah lingkungan dan meningkatkan kapasitas produk. Tersedia di:https://upm.edu.my/news/bmc_innovation_menghasilkan_biochar_yang_lebih_ramah_lingkungan_meningkatkan_kapasitas_produk-41411[Diakses 30 April 2025].