Pengaruh Proses dan Variasi Fraksi Perekat Briket Antrasit Terhadap Nilai Kuat Tekan
DOI:
https://doi.org/10.33504/jitt.v3i2.272Keywords:
anthracite briquette, dolomite lime, compressive strenghtAbstract
The transition away from reliance on fossil fuels is critical to fostering the development of renewable energy sources, with briquettes emerging as a particularly popular alternative. This study evaluates the effects of drying processes and variations in binder fractions on the compressive strength of anthracite briquettes. The briquettes were produced using binder fractions (water: dolomite lime) of 4:10, 4:12, 5:10, and 5:12 and subjected to mechanical pressures of 8, 9, and 10 tons with drying durations of 2, 4, and 6 days. The findings indicate that the 5:12 binder fraction achieved the highest compressive strength of 544 kPa after 6 days of drying, reflecting enhanced mechanical strength due to increased dolomite lime content. Conversely, an optimal drying time of 4 days was identified, balancing moisture reduction and briquette structural stability. This research provides valuable insights for developing high-quality briquettes as efficient and environmentally friendly renewable energy sources.
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References
Y. Chen, Y. Fan, Y. Huang, X. Liao, W. Xu, dan T. Zhang, “A comprehensive review of toxicity of coal fly ash and its leachate in the ecosystem”, Ecotoxicology dan Environmental Safety, vol. 269, hal. 115905, Jan. 2024.
E. Usaka dan Ibrahim, “Effect of Process Parameters on the Quality of Bio-Coal Briquette Produced from Prosopis Africana Pods”, European Journal of Science, Innovation and Technology, vol. 3 no. 6, hal. 264-275, Mei 2024.
G. Pari et al., “Initial Ignition Time and Calorific Value Enhancement of Briquette with Added Pine Resin,” Journal of the Korean Wood Science and Technology, vol. 51, no. 3, pp. 207–221, Mei 2023.
S. Suryaningsih dan A. Zaka Nurusysyifa, “Pengaruh Tekanan Pembriketan Terhadap Karakteristik Mekanik Dan Karakteristik Pembakaran Pada Briket Campuran Sekam Padi Dan Bonggol Jagung”, JIIF (Jurnal Ilmu dan Inovasi Fisika), vol. 04, no. 1, hal 23-28, 2020.
J. I. Orisaleye, S. O. Jekayinfa, A. A. Ogundare, M. R. Shittu, O. O. Akinola, dan K. O. Odesanya, "Effects of process variables on physico-mechanical properties of Abura (Mitrogyna ciliata) sawdust briquettes," Biomass, vol. 4, hal. 671–686, Jul. 2024.
K. Wasfy dan A. Awny, “Production of High-Quality Charcoal Briquettes from Recycled Biomass Residues,” Journal of Soil Sciences and Agricultural Engineering, vol. 11, no. 12, hal. 779–785, Des. 2020.
J. Nikiema et al., “Impact of material composition and food waste decomposition on characteristics of fuel briquettes,” Resources, Conservation and Recycling Advances, vol. 15, Nov. 2022.
R. Puspita Dewi, T. Jaya Saputra, dan S. Joko Purnomo, “Analisis Karakteristik Briket Arang Dengan Variasi Tekanan Kempa Pembriketan,” Jurnal Media Mesin, vol. 23, no. 1, hal. 13-19, Nov. 2022.
D. K. Mustofa, Y. Wibisono, dan M. Lutfi, "Studi Analisis Pengaruh Tekanan dan Komposisi Bahan Terhadap Kualitas Briket Arang dari Tempurung Kemiri dan Tempurung Keluak," Journal of Agricultural and Biosystem Engineering Research, vol. 1, no. 1, hal. 23–34, May 2020.
T. Olugbade, O. Ojo, dan T. Mohammed, “Influence of Binders on Combustion Properties of Biomass Briquettes: A Recent Review,” Bioenergy Res, vol. 12, no. 2, hal. 241–259, Jun. 2019.
A. Brunerová, T. Ivanova, and M. Brožek, "Mechanical durability of digestate briquettes mixed with mineral additives", in Engineering for Rural Development, hal. 971–976, Mei 2016.
M. Muhrim Tamrin, S. Dunggio, dan S. Abdussamad, “Peran Briket Limbah Batok Kelapa dalam Meningkatkan Kesejahteraan Ekonomi Masyarakat Desa”, Jurnal Teknik Mesin, vol. 2, no. 1, hal. 8–18, Apr. 2024.
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