Studi Eksperimental Unjuk Kerja Campuran Solar-Biodiesel Minyak Jelantah Pada Mesin Diesel

Ade Setiawan, Joko Winarno, Mochamad Syamsiro

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In this study, biodiesel fuel produced from waste cooking oil was blended in 20%, 30%, 40% and 50% with the commercial diesel fuel. The biodiesel was collected from a company near Yogyakarta city. It was produced from transesterification process in a commercial scale reactor. The diesel-biodiesel mixtures were tested in a four-cylinder and four-stroke diesel engine with the compression ratio of 18 and water cooling system. The results show that the thermal efficiency of diesel engine increased with increasing the engine speed. The present of biodiesel also increased the thermal efficiency of the diesel engine. A mixture of 40% (B40) and 50% (B50) biodiesel resulted in the highest thermal efficiency. The brake mean effective pressure also increased with increasing the engine speed and biodiesel mixture. The specific fuel consumption showed a decrease in its value as a function of engine speed. Low specific fuel consumption means the high thermal efficiency of the diesel engine.

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Al-attab, K., Wahas, A., Almoqry, N., Alqubati, S. (2016) Biodiesel Production from Waste Cooking Oil in Yemen: A Techno-economic Investigation, Biofuels 8(1), pp. 1-11.

Can, O. (2014) Combustion Characteristics, Performance and Exhaust Emissions of a Diesel Engine Fueled with a Waste Cooking Oil Biodiesel Mixture, Energy Conversion and Management 87, pp. 676-686.

Chen, G., Liu, C., Ma, W., Zhang, X., Li, Y., Yan, B., Zhou, W. (2014) Co-pyrolysis of Corn Cob and Waste Cooking Oil in a Fixed Bed, Bioresource Technology 166, pp. 500-507.

Hamze, H., Akia, M., Yazdani, F. (2015) Optimization of Biodiesel Production from the Waste Cooking Oil Using Response Surface Methodology, Process Safety and Environmental Protection 94, pp. 1-10.

Laksono, T. (2006) Pengaruh Variasi Perbandingan Solar-biodiesel (Minyak Jelantah) Terhadap Unjuk Kerja dan Emisi Gas Buang pada Motor Diesel, Tugas Akhir, Universitas Janabadra.

Meier, H.F., Wiggers, V.R., Zonta, G.R., Scharf, D.R., Simionatto, E.L., Ender, L. (2015) A Kinetic Model for Thermal Cracking of Waste Cooking Oil Based on Chemical Lumps, Fuel 144, pp. 50-59.

Melero, J.A. Bautista, L.F., Iglesias, J., Morales, G., Sanches-Vazquez, R. (2014) Production of Biodiesel from Waste Cooking Oil in a Continuous Packed Bed Reactor with an Agglomerated Zr-SBA-15/bentonite Catalyst, Applied Catalysis B:Environmental 145, pp. 197-204.

Prihandana R., Hendroko R., Nuramin M. (2006) Menghasilkan Biodiesel Murah, Agromedia Pustaka, Jakarta.

Syamsiro, M., Saptoadi, H., Norsujianto, T., Noviasri, P., Cheng, S., Zainal, Z.A., Yoshikawa, K. (2014) Fuel Oil Production from Municipal Plastic Wastes in Sequential Pyrolysis and Catalytic Reforming Reactors, Energy Procedia 47, pp. 180-188.

Syamsiro, M., Cheng, S., Hu, W., Saptoadi, H., Pratama, N.N., Trisunaryanti, W., Yoshikawa, K. (2014) Liquid and Gaseous Fuels from Waste Plastics by Sequential Pyrolysis and Catalytic Reforming Processes over Indonesian Natural Zeolite Catalysts, Waste Technology, 2(2), pp. 44-51.

Syamsiro, M., Hu, W., Komoto, S., Cheng, S., Noviasri, P., Prawisudha, P., Yoshikawa, K. (2013) Co-production of Liquid and Gaseous Fuels from Polyethylene and Polystyrene in A Continuous Sequential Pyrolysis and Catalytic Reforming System, Energy and Environment Research, Vol. 3 No. 2, pp. 90-106.


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Jurnal Mekanika dan Sistem Termal (ISSN : 2527-3841 ; e-ISSN : 2527-4910) diterbitkan oleh Universitas Janabadra dan telah terindeks oleh : Google Scholar

 

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