RANCANG BANGUN MESIN WOOD PELLET BERPENGGERAK MOTOR BENSIN DENGAN KEKUATAN 8 HORSE POWER

FIBRY MAULANA, . (2026) RANCANG BANGUN MESIN WOOD PELLET BERPENGGERAK MOTOR BENSIN DENGAN KEKUATAN 8 HORSE POWER. Sarjana thesis, UNIVERSITAS NEGERI JAKARTA.

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Abstract

Permasalahan limbah organik dari Ruang Terbuka Hijau (RTH), seperti batang dan ranting pohon yang selama ini dihasilkan belum dimanfaatkan secara optimal dan cenderung dibakar secara terbuka yang dapat menimbulkan polusi udara dan dampak negatif terhadap kesehatan, inovasi ini dikembangkan sebagai solusi terhadap penguraian limbah dari ruang terbuka hijau. Penelitian ini bertujuan untuk merancang dan membangun mesin pencetak wood pellet dengan menggunakan motor bensin berkekuatan 8 horse power sebagai penggerak utama. Mesin ini dirancang dengan sistem transmisi mekanis berupa pulley, v-belt, roda gigi, dan poros untuk menyalurkan energi putar dari motor ke unit pencetak, sehingga potongan kayu dapat dipadatkan menjadi wood pellet berbentuk silinder berukuran Ø8 mm x 20 mm. Desain awal dibuat menggunakan perangkat lunak SolidWorks dan divalidasi melalui simulasi uji statis guna mengetahui kekuatan dan kelayakan struktur mesin. Setelah desain dinyatakan layak, proses dilanjutkan dengan fabrikasi dan pengujian mesin yang dilakukan sebanyak empat kali, masing-masing menggunakan 5 kg bahan baku. Analisis dilakukan untuk mengetahui kapasitas produksi dalam satuan kg/jam dan densitas pellet sebagai indikator kualitas. Hasil penelitian menunjukan bahwa mesin wood pellet berhasil direalisasikan melalui tahapan desain dan fabrikasi yang sistematis. Berdasarkan simulasi kekuatan struktur menggunakan Solidworks, rangka mesin dinyatakan aman dengan nilai Safety Factor (FoS) sebesar 8,07, yang jauh melampaui standar beban dinamis. Namun, pada tahap pengujian operasional menggunakan campuran serbuk kayu, mesin belum mampu memproduksi pellet secara optimal. Tidak adanya pelet yang keluar dari cetakan mengindikasikan bahwa mekanisme tekanan pada roller belum bekerja dengan baik dan desain lubang cetakan masih memerlukan penyempurnaan agar dapat menghasilkan kepadatan pelet yang diinginkan. ***** The problem of organic waste generated from Green Open Spaces (GOS), such as tree trunks and branches, has not been optimally managed and is often disposed of through open burning, which can cause air pollution and adverse health impacts. This innovation was developed as a solution for processing organic waste from green open spaces. This study aims to design and construct a wood pellet forming machine powered by an 8 horsepower gasoline engine as the main driving source. The machine is designed with a mechanical transmission system consisting of pulleys, V-belts, gears, and shafts to transmit rotational energy from the engine to the pelletizing unit, enabling wood particles to be compacted into cylindrical wood pellets with dimensions of Ø8 mm × 20 mm. The initial design was developed using SolidWorks software and validated through static simulation analysis to evaluate the structural strength and feasibility of the machine. After the design was confirmed to be feasible, the process continued with fabrication and machine testing, which was conducted four times using 5 kg of raw material in each test. The analysis focused on determining production capacity in terms of kg/hour and pellet density as an indicator of pellet quality. The results show that the wood pellet machine was successfully realized through systematic design and fabrication stages. Based on structural strength simulation using SolidWorks, the machine frame was declared safe with a Safety Factor (FoS) value of 8.07, significantly exceeding the standard requirements for dynamic loads. However, during operational testing using a mixture of wood sawdust, the machine was not yet able to produce pellets optimally. The absence of pellets exiting the die indicates that the roller pressing mechanism did not function properly and that the die hole design requires further refinement to achieve the desired pellet density.

Item Type: Thesis (Sarjana)
Additional Information: 1). Dr. Wardoyo, S.T., M.T.; 2). Dr. Dyah Arum Wulandari, M.T.
Subjects: Teknologi dan Ilmu Terapan > Teknik Mesin, Mekanika Teknik
Teknologi dan Ilmu Terapan > Manufaktur
Divisions: FT > D IV Teknologi Rekayasa Manufaktur
Depositing User: Fibry Maulana .
Date Deposited: 25 Feb 2026 01:19
Last Modified: 25 Feb 2026 01:19
URI: http://repository.unj.ac.id/id/eprint/65712

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