Reconditioning and Testing of the 1984 Toyota Rino Diesel Engine

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Published Dec 31, 2022
https://doi.org/10.37339/e-komtek.v6i2.1074
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Vol. 6 No. 2 (2022)

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Hamid Nasrullah
Politeknik Piksi Ganesha Indonesia
Bahtiar Wilantara
Politeknik Piksi Ganesha Indonesia
Sulitia Aji Tri Budi Utomo
Politeknik Piksi Ganesha Indonesia

Abstract

The purpose of this research is to get a clear picture of the process of reconditioning and testing the 1984 Toyota Rino diesel engine. And to find out which components must be renovated for excellent engine performance. This research was conducted at the Piksi Ganesha Polytechnic Laboratory of Indonesia. The research method used is qualitative. The result of the reconditioning process is that several diesel engine components must be replaced in gaskets, air, and fuel filters. The results of testing the diesel engine Toyota Rino 1984 are: 1) Injector test, all injectors’ functions should run when tested using a pressure nozzle test; namely, the manometer shows 3000 psi when the lever is pressed, the nozzle can spray fuel tightly, and the nozzle does not leak; 2) Compression test, all cylinders are still in good condition when tested using a cylinder pressure tester, namely the manometer shows the number 30 kg/cm2.

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Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

How to Cite
Nasrullah, H., Wilantara, B., & Budi Utomo, S. A. T. (2022). Reconditioning and Testing of the 1984 Toyota Rino Diesel Engine. Jurnal E-Komtek (Elektro-Komputer-Teknik), 6(2), 322-326. https://doi.org/10.37339/e-komtek.v6i2.1074

References

[1] D. A. N. C. Mengatasinya, Trouble Shooting Sistem Injeksi Mesin Diesel Mitsubishi L300», zenb. 09, [Sarean]. Available at: https://media.neliti.com/media/publications/220495-none.pdf.
[2] H. Eka eta J. Mukono, Hubungan Kadar Timbal Dalam Darah Dengan Hipertensi Pekerja Pengecatan Mobil Di Surabaya, J. Kesehat. Lingkung., libk. 9 No.1, or. 66–74, 2017.
[3] A. S. Ginting, M. Hazwi, D. T. Mesin, F. Teknik, eta U. S. Utara, Analisa Performansi Pada Mobil Toyota Fortuner Mesin Diesel Tipe 2Kd-Ftv Vn Turbo Intercooler, zenb. 2, or. 91–100, 2014.
[4] F. Ferdiansyah, Perawatan Sistem Pelumas pada Mesin Diesel Dump Truck Hio 500 FM 260 TI PT. Envitec Multi Indonesia, 2021.
[5] Ariwibowo, Laporan Tugas Akhir Perhitungan Ulang Kinerja Mesin Diesel 4 Langkah 1 Silinder Berpendingin Radiator, or. 1–20, 2018.
[6] T. Tjahjono, Analisis Keausan Pada Dinding Silinder Mesin Diesel», Media Mesin Maj. Tek. Mesin, libk. 6, zenb. 2, or. 78–83, 2015, doi: 10.23917/mesin.v6i2.2894.
[7] I. Aziz, Uji Performance Mesin Diesel Menggunakan Biodiesel Dari Minyak Goreng Bekas», J. Kim. Val., libk. 1, zenb. 6, 2010, doi: 10.15408/jkv.v1i6.241.
[8] W. Wibowo, N. Astriawati, eta Jamaluddin, Optimalisasi Perawatan Sistem Pendingin Tertutup Pada Mesin Diesel Tipe MAK 8M32 Pada KM LIT ENTERPRISE, J. Polimesin, libk. 19, or. 28–34, 2021.
[9] S. Huda, D. Widjanarko, S. Artikel, K. Kunci, S. Penerangan, eta H. Belajar, Journal of Mechanical Engineering a I N F O ARTIKEL, Jmel, libk. 9, zenb. 1, or. 1–7, 2020, [Sarean]. Available at: https://journal.unnes.ac.id/sju/index.php/jmel/article/view/40441.
[10] D. W. Sroyer, M. Zaki, L. Abrori, S. D. P. Sidhi, P. Kelautan, eta P. Sorong, Perawatan Fresh Water Cooler Pada Sistem Pendinginan Mesin Diesel Penggerak Generator Listrik Di Kapal Navigasi Milik Distrik Navigasi Kelas I Ambon Maintenance of Freshwater Cooler in the Cooling System of Diesel Engine As a Electric Generator Driver in, Aurelia J. (Authentic Res. Glob. Fish. Appl. J., libk. 1, zenb. 1, or. 1–11, 2019.

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