Performa motor bakar silinder tunggal dengan variasi angka oktan bahan bakar dan tekanan kompresi
Abstract
In recent times, automobile and motorcycle manufacturers have been focusing on producing powerful and efficient engines. These engines are designed with high compression pressure to achieve better performance and fuel economy when using gasoline. However, it's not widely known that high-compression engines require gasoline with a high octane number. The purpose of this study was to investigate the impact of different compression pressures on the power and torsion output of a single-cylinder combustion engine, using RON 92, RON 95 and RON 100 gasoline. To modify the compression pressure, different numbers of gaskets are used on the cylinder head. Each with a quantity of 1 gasket, 2 gaskets, and 3 gaskets. This is done to manipulate the combustion chamber volume of the motorcycle engine, resulting in changes in the compression pressure values. The researchers conducted dynamometer tests to measure the performance differences, including power and torque output. The findings revealed that the engine with the highest compression pressure (11.8 kg/cm2), fueled with Pertamax racing gasoline (RON 100), delivered the highest power output of 7.8 kW, with the highest torsion output of 10 Nm. On the other hand, the engine with the lowest compression pressure (10 kg/cm2), fueled with Pertamax gasoline (RON 92), produced the lowest power output of 4.2 kW, with the lowest torsion output of 3.8 Nm.
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Ariawan, I., Kusuma, W., Adnyana, I., Pengaruh penggunaan bahan bakar pertalite terhadap unjuk kerja daya, torsi dan konsumsi bahan bakar pada sepeda motor bertransmisi otomatis, Jurnal Mettek, 2(1), 51-58, 2016.
Direktorat Jendral Minyak dan Gas Bumi, Statistik minyak gas dan bumi semester 1, Kementerian Energi dan Sumber Daya Mineral, 2021.
Ferguson, C., Kirkpatrick, A., Internal combustion engines: applied thermosciences, John Wiley & Sons, 2015.
Heywood, J. B., Internal combustion engine fundamentals, Penerbit McGraw-Hill Education, New York, 1988.
Jiang, C., Huang, G., Liu, G., Qian, Y., Lu, X., Optimizing gasoline compression ignition engine performance and emissions: Combined effects of exhaust gas recirculation and fuel octane number, Applied Thermal Engineering, 153, 669-677, 2019.
Kalghatgi, G., Knock onset, knock intensity, superknock and preignition in spark ignition engines, International Journal Engine Research, 1(19), 7-20, 2017.
Keputusan Direktur Jendral Minyak dan Gas Bumi, Nomor: 0177K/10/DJM.T/2018. tentang standar dan mutu (spesifikasi) bahan bakar minyak jenis bensin yang dipasarkan di dalam negeri, Direktur Jendral Minyak dan Gas Bumi, 2018.
Kristanto, P., Motor bakar torak-teori & aplikasinya, edisi 1, Penerbit Andi offset, Yogyakarta, 2015.
Laduni, M., Pengaruh angka oktan terhadap performa dan emisi gas buang honda new mega pro 150 cc, Jurnal Teknik Mesin, 18(2), 152-158, 2022.
Mara, I.M., Nuarsa, I.M., Alit, I.B., Susana, I.G.B., Pemanfaatan medan magnet pada saluran bahan bakar sepeda motor untuk penghematan konsumsi bahan bakar dan penurunan emisi gas buang, Dinamika Teknik Mesin 12(1), 45-51, 2022.
Maurya, R., Agarwal, A., Experimental study of combustion and emission characteristics of ethanol fuelled port injected homogeneous charge compression ignition combustion engine, Applied Energy, 1169-1180, 2011.
Muku, I., Sukadana, I., Pengaruh rasio kompresi terhadap unjuk kerja mesin empat langkah menggunakan arak bali sebagai bahan bakar, Jurnal Ilmiah Teknik Mesin Cakra M, 3(1), 26-32, 2009.
Octa, A., Literature review: Meningkatkan kepuasan pelanggan di bengkel resmi menggunakan sistem manajemen pelanggan elektronik, Informatik Jurnal Ilmu Komputer, 15(1), 2019.
Pulkrabek, W., Engineering fundamentals of the internal combustion engine. Wisconsin: Prentice-Hall, 1997.
Rahmat, B., Wijaya, M.B.R., Performance comparison of one cylinder combustion engine with variations of compression pressure and octane number gasoline, Sintek Jurnal: Jurnal Ilmiah Teknik Mesin, 17(1), 31-37, 2023.
Rodríguez-Fernández, J., Ramos, A., Barba, J., Cárdenas, D., Delgado, J., Improving fuel economy and engine performance through gasoline fuel octane rating, Energies, 13(13), p.3499, 2020.
Saifudin, M., Susila, I., Uji performa dan uji emisi gas buang mesin sepeda motor berbahan bakar bioethanol dari tetes tebu, Jurnal Teknik Mesin, 6(2), 2018.
Setiawan, N.D.C., Prasetiyo, D.H.T., Wahyudi, D., Pengaruh generator HHO dan ethanol terhadap performa dan emisi gas buang mesin bensin, Dinamika Teknik Mesin, 12(2), 144-154, 2022.
Stradling, R., Williams, J., Hamje, H., Rickeard, D., Effect of octane on performance, energy consumption and emissions of two euro 4 passenger cars, Transportation Reserach Procedia, 1(14), 3159-3168, 2016.
Taylor, C.F., The internal combustion engine in theory and practice, Penerbit MIT Press, Cambridge, 1985.
Wardhana, M., Ilminnafik, N., Sumarji, S., Pengaruh panjang pipa katalis annulus konsentris pada hcs (hydrocarbon cracking system) terhadap torsi motor bakar 4-langkah, Stator: Jurnal Ilmiah Mahasiswa Teknik Mesin, 1(1), 82-84, 2018.
DOI: https://doi.org/10.29303/dtm.v14i1.677
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