Perancangan Dies dan Roller Pada Mesin Pellet biomassa

Darwin Sugandi

doi:10.47134/jme.v3i1.5138

Authors

Darwin Sugandi Universitas Pamulang

DOI:

https://doi.org/10.47134/jme.v3i1.5138

Keywords:

Biomass, Diesel, Sawdust waste, Pellet machine

Abstract

The problem of fossil energy limitations encourages the development of renewable energy, one of which is biomass. Wood powder waste that has been underutilized has the potential to be processed into biomass pellets as an environmentally friendly alternative fuel. This study aims to design dies and rollers on biomass pellet machines that are capable of processing wood powder waste into cylindrical pellets with a focus on their strength and safety analysis. The methods used to determine strength and safety are simulations using solidworks as well as theoretical calculations to validate the results. The results showed that the design of dies with a hole diameter of 8 mm and a suitable roller can produce biomass pellets with a good level of density and efficiency. Simulations of voltage, strain and safety factors on components indicate a safe and feasible design to implement. This research contributes to the development of biomass pellet machine technology and the use of wood powder waste into renewable and environmentally friendly energy.

References

Anggry A. (2021). Kekuatan Bahan : Tegangan Dan Regangan Pada Batang.

Antaqiya, F. M. A., Budiarto, U., & Jokosisworo, S. (2019). Analisa Pengaruh Variasi Proses Preheating Pada Pengelasan Shielded Metal Arc Welding (SMAW) Terhadap Kekuatan Tarik dan Struktur Mikro Baja ST 60. Jurnal Teknik Perkapalan, 7(4), 334–344.

Avraham Harnoy. (2003). Bearing Design in Machinery_ Engineering Tribology and Lubrication.

Bartolome, G. J. C., De Leon, S. M. C., Polinga, C. A., & Roño, J. M. B. (2021). Design, fabrication, and testing of biomass pelleting machine for coffee wastes. IOP Conference Series: Earth and Environmental Science, 633(1), 012002. https://doi.org/10.1088/1755-1315/633/1/012002

Budynas, & Nisbett. (2006). Shigley’s Mechanical Engineering Design, Eighth Edition. In Analysis.

Febriana Tri Wulandari. (2019). Limbah Industri Penggergajian ; Kajian dan Pemanfaataannyaa. Jurnal Silva Samalas, 2, 75–78.

Hakeem, K. R., Jawaid, M., & Alothman, O. Y. (2015). Agricultural biomass based potential materials. In Agricultural Biomass Based Potential Materials. https://doi.org/10.1007/978-3-319-13847-3

Jeguirim, M., & Khiari, B. (2022). Green pellets production and applications in energy sector. Renewable Energy Production and Distribution: Recent Developments, 139–185. https://doi.org/10.1016/B978-0-323-91892-3.00007-8

Kuntara Hasta, Gunawan Sigit, & Budi Hartono Sigit. (2014). Penentuan Umur Bantalan Luncur Terlumasi Berdasar Laju Keausan Bahan. Jurusan Teknik Mesin – STTNAS Yogyakarta , 14(1), 58–77.

Kusumaningrum, W. B., & Munawar, S. S. (2014). Prospect of bio-pellet as an alternative energy to substitute solid fuel based. Energy Procedia, 47, 303–309. https://doi.org/10.1016/j.egypro.2014.01.229

Lubis, S. (2024). Dampak Proses Pemotongan Pada Side Milling Dan Face Milling. 05(01), 128–135.

Macko, M., & Mrozinski, A. (2019). Work parameters research of wood pellet machine. AIP Conference Proceedings, 2077(March 2017), 020038. https://doi.org/10.1063/1.5091899

Matúš, M., Križan, P., Beniak, J., & Strigáč, S. (2022). Pelleting dies – design , material , geometry of pressing channels. 07(02), 287–295.

Miloš Matúš, Peter Križan, Ľubomír Šooš, & Viliam Veteška. (2021). Design of pressing tools for pelleting machines. World Journal of Advanced Engineering Technology and Sciences, 4(1), 052–062. https://doi.org/10.30574/wjaets.2021.4.1.0086

Pathare, N. R., & Tembhurkar, C. (2016). Fabrication of Pellet Making Machine. International Journal of Innovations in Engineering and Science, 1(1), 28–30.

Pradhan, P., Mahajani, S. M., & Arora, A. (2018). Production and utilization of fuel pellets from biomass : A review. Fuel Processing Technology, 181(September), 215–232. https://doi.org/10.1016/j.fuproc.2018.09.021

Primadanty, R. P. (2024). Potensi Biomassa Dalam Transisi Energi di Indonesia. Parahyangan Economic Development Review, 2(2), 136–143. https://doi.org/10.26593/pedr.v2i2.7707

Rabbani, F. A., Sukarnoto, T., Afiff, J. M., & ... (2022). Rancang Bangun Mesin Pelet Serbuk Kayu Kapasitas 50 kg/jam. Prosiding Seminar …, 1–10.

Riset Perkebunan Nusantara. (2022). Wood Pellet sebagai Alternatif Sumber Energi Terbarukan. 3(1).

Saidah, W. K. & A. (2022). Rancang Bangun Mesin Pemotong Penggosok Logam Dan Non Logam Metal and Non Metal Cutting Machine Design. Jurnal UTA 45 Jakarta, 7, 1–11.

Samodra, D. F. J., Marlina, E., & Robbi, N. (2023). Karakteristik Pembakaran Wood Pellet Campuran Kayu Merbau-Sekam Padi dengan Metode Single Wood Pellet. Jurnal Teknik Mesin, 1, 12–16.

Suwadji, S., & Pebriana, H. (2018). Sifat Wood Pellet dari Limbah Kayu Jati. Jurnal Wana Tropika, 8(2), 47–58.

Tegar Arief Pradana, Bambang Yunianto, M. (2023). Analisis Karakteristik Biopelet Berbahan Dasar Limbah Pertanian Dan Perkebunan Dengan Campuran Zat Perekat Alami. Teknik Mesin S-1, 11(3), 494–499.

Tumuluru, J. S. (2015). High moisture corn stover pelleting in a flat die pellet mill fitted with a 6 mm die: Physical properties and specific energy consumption. Energy Science and Engineering, 3(4), 327–341. https://doi.org/10.1002/ese3.74

Wibowo, S., Arief, K., & Waluyo, T. K. (2021). Characteristics of wood pellets from over-dry sawdust waste. IOP Conference Series: Earth and Environmental Science, 914(1), 012069. https://doi.org/10.1088/1755-1315/914/1/012069