THE EFFECT OF BAGASSE WASTE QUALITY AS BIOMASS FUEL ON THE EFFICIENCY OF WATER TUBE-TYPE BOILERS

Hadi Prayitno; Tazzidane Olsen  Ba’albaqi; M Dyan Susila; Harmen

doi:10.23960/analit.v9i01.162

Authors

Hadi Prayitno Mechanical Engineering, University of Lampung
Tazzidane Olsen Ba’albaqi Mechanical Engineering, University of Lampung
M Dyan Susila Mechanical Engineering, University of Lampung
Harmen Mechanical Engineering University of Lampung

DOI:

https://doi.org/10.23960/analit.v9i01.162

Keywords:

Biomassa, Efisiensi boiler, Limbah ampas tebu

Abstract

Bagasse waste, a by-product of the sugar production process, has received attention as a biomass fuel. This bagasse waste can be utilized directly as boiler fuel for industrial needs. The effect of bagasse waste quality on boiler efficiency needs to be investigated to determine its potential as an alternative fuel. Sugarcane bagasse waste used as a boiler is first analyzed for quality such as Calorific Value, and ultimate and proximate analysis. Furthermore, the effect of using bagasse on boiler efficiency was observed. These data are taken from the boiler daily log book and laboratory. Analysis of the data obtained shows the optimal calorific value of the fuel used reaches 2347.48 kcal/kg. then, the most optimal boiler efficiency reaches 70.34%. While the heat losses that have been calculated reach up to 28%. The results of this study contribute to a broader understanding of the interaction of biomass fuel quality and industrial boiler performance, thus providing valuable insights for sustainable sugarcane waste management in the context of renewable energy production and environmental sustainability

References

Barokah, L. (2018). Analisa Kualitas Tebu Menggunakan Metode Hydrolic Press dan Jeffco dengan Dessentegrator. Prosiding Seminar Nasional Teknologi Industri, Lingkungan dan Infrastruktur, 1, B12.1-B12.7. Retrieved from https://prosiding.unitri.ac.id/index.php/sentikuin

BP Energy Outlook 2023 Edition.

Çengel, Y. A., Boles, M. A., & KanoÄŸlu, M. (2023). Thermodynamics An Engineering Approach, Tenth Edition. New York: McGraw-Hill.

Direktorat Jendral Perkebunan. (2018-2020). Statistik Perkebunan Indonesia Komoditas Tebu. Jakarta: Direktorat Jendral Perkebunan.

Fioranelli, A. & Bizzo, W.A. (2023). Generation of surplus electricity in sugarcane mills from sugarcane bagasse and straw: Challenges, failures and opportunities, Renewable and Sustainable Energy Reviews, Volume 186, 2023,113647,ISSN 1364-0321, https://doi.org/10.1016/j.rser.2023.113647.

Hugot, E. (1986). Handbook Of Cane Sugar Engineering. Amsterdam: Elsevier Science Publishers B.V.

Ikonen, E., Liukkonen, M., Hansen, M. A., Edelborg, M., Kjos, O., Selek, I., & Kettunen, A. (2023). Fouling monitoring in a circulating fluidized bed boiler using direct and indirect model-based analytics. Fuel 346 (2023) 128341

Islam, M. K., Khatun, M. S., Arefin, M. A., Islam, M. R., & Hasan, M. (2021). Waste to energy: An experimental study of utilizing the agricultural residue, MSW, and e-waste available in Bangladesh for pyrolysis conversion. Heliyon 7 (2021) e08530.

Jaya, A., Muliadin, A., Darmawan, I., Andriani, T., Aryanto, N., & Hidayatullah, M. (2021). Desain Steam Boiler Pembangkit Listrik Tenaga Biomassa Skala Kecil Menggunakan Software Autodesk Inventor 2017. Jurnal Fisika Flux: Jurnal Ilmiah Fisika FMIPA Universitas Lambung Mangkurat, 18, 93 - 100. https://doi.org/ 10.20527/flux.v18i2.10273

Lee, K. T., Chen, W. H., Sarles, P., Park, Y. K., & Ok, Y. S. (2022). Recover energy and materials from agricultural waste via thermochemical conversion, One Earth, Volume 5, Issue 11.

Lestari, R., Prayitno, P., Novriyanti., Kamandanu, A. K., & Yunia. 2021. Global Potential Market of Forest Biomass Wood Pellets. Advances in Social Science, Education and Humanities Research, volume 628 Universitas Lampung International Conference on Social Sciences (ULICoSS 2021).

Marx, S., Laubscher, A.N.E., Bunt, J.R., Venter, R.J., Uwaoma, R.C., & Strydom, C.A. (2023). Evaluation of sugar cane bagasse hydrothermal liquefaction products for co-gasification with coal as green coal pellet production, Bioresource Technology Reports, Volume 22, 2023,101503, ISSN 2589-014X, https://doi.org/10.1016/j.biteb.2023.101503.

Peraturan Presiden Nomor 14 Tahun 2024.

Pravitasari, Y., Malino, M. B., & Mara, M. N. (2017). Analisis Efisiensi Boiler Menggunakan Metode Langsung. Prisma Fisika, V, 09 - 12.

Prayitno, H., Amrul., Lesrtari, R., & Kurniawansyah, R. (2024). J. Phys.: Conf. Ser. 2739 https://doi.org/10.1088/1742-6596/2739/1/012005.

Sanzana, M.R., Maul, T., Wang, J.Y., Abdulrazic, M.O.M., & Yip, C.C. (2022). Application of deep learning in facility management and maintenance for heating, ventilation, and air conditioning, Automation in Construction : Volume 141, September 2022, 104445.

Sugiharto, A. (2020). Perhitungan Efisiensi Boiler Dengan Metode Secara Langsung pada Boiler Pipa Api. Majalah Ilmiah PPSDM Migas, 10 (2), 51 - 57.