Investigation of Performance Characteristics of Plastic Pyrolysis Oil and Crude Palm Oil Fuel on Diesel Engine
Investigation of Performance Characteristics of Plastic Pyrolysis Oil and Crude Palm Oil Fuel on Diesel Engine |
||
 |
 |
|
| © 2021 by IJETT Journal | ||
| Volume-69 Issue-12 |
||
| Year of Publication : 2021 | ||
| Authors : Norrizam Jaat, Muhamad Asri Azizul, Amir Khalid, Mohamad Harizat Ahmad Jais, Shaiful Fadzil Zainal Abidin, Norrizal Mustaffa, Izuan Amin Ishak, Bukhari Manshoor, Djamal Hissein Didane, Izzarief Zahari |
||
| DOI : 10.14445/22315381/IJETT-V69I12P238 | ||
How to Cite?
Norrizam Jaat, Muhamad Asri Azizul, Amir Khalid, Mohamad Harizat Ahmad Jais, Shaiful Fadzil Zainal Abidin, Norrizal Mustaffa, Izuan Amin Ishak, Bukhari Manshoor, Djamal Hissein Didane, Izzarief Zahari, "Investigation of Performance Characteristics of Plastic Pyrolysis Oil and Crude Palm Oil Fuel on Diesel Engine," International Journal of Engineering Trends and Technology, vol. 69, no. 12, pp. 312-318, 2021. Crossref, https://doi.org/10.14445/22315381/IJETT-V69I12P238
Abstract
Nowadays, with the increment of fossil fuel engines, there have been facing the downside of a fuel problem, and the survival of those engines has been vulnerable. The dependency on a single source which is a fossil fuel is a worrying issue because the fossil fuel is limited and takes millions of years to produce. In this paper, the performance of the alternative fuels on a diesel engine is analyzed and compared with the standard diesel to determine its compatibility with the diesel engine without any modification. The research study of the performance of plastic pyrolysis oil and crude palm oil blended with diesel at a different concentration which is 20% and 25%, on automotive 4 stroke diesel engine test system were illustrated in this paper. The brake power engine, thermal brake efficiency, brake specific fuel consumption, and exhaust temperature of the blended fuels are recorded and analyzed. The value of brake-specific consumption decreases as the concentration of the pyrolysis oil increases while thermal brake efficiency is increased. The blended fuels recorded lower brake thermal efficiency, brake-specific fuel consumption, and higher exhaust gas temperature compared to standard diesel fuel. In the aspect of performance of the diesel engine, the uses of crude palm oil and plastic pyrolysis oil are usable and applicable.
Keywords
Diesel, Pyrolysis, Biodiesel, Mechanical, Engine.
Reference
[1] Khalid, A., Azman, N., Zakaria, H., Manshoor, B., Zaman, I., Sapit, A., Leman, A.M., Effects of storage duration on biodiesel properties derived from waste cooking oil, (2014) Applied Mechanics and Materials, 554 (2014) 494-499
[2] Abidin, S.F.Z., Khalid, A., Latip, M.F.A., Zahari, I., Jalal, R.I.A., Gear Ratio Optimization of Manual Transmission for Passenger Vehicle Using 1D Simulation Cycle and Statistical Analysis, International Journal of Advanced Trends in Computer Science and Engineering, 9 (2020).
[3] Biodiesel: a realistic alternative for diesel engines. Focus on Catalysts, 2008(12), 8. doi: 10.1016/s1351-4180(08)70586-5
[4] And sales, A.R., Khalid, A., Adila Abdullah, N.S., Sapit, A., Jaat, N., The effect of nozzle diameter, injection pressure and ambient temperature on spray characteristics in diesel engine, Journal of Physics: Conference Series, 822 (1) (2017) art. no. 012039.
[5] Khalid, A. et al. Effect of air entrainment and oxygen concentration on endothermic and heat recovery process of diesel ignition. SAE Technical Papers(2011).
[6] Khalid, A. et al. Analysis of the relation between mixture formation during the ignition delay period and burning process in diesel combustion. SAE Technical Papers(2009).
[7] Abdullah, A., Salamatinia, B., Mootabadi, H., & Bhatia, S. Current status and policies on biodiesel industry in Malaysia as the world’s leading producer of palm oil. Energy Policy, 37(12) (2009) 5440–5448. doi: 10.1016/j.enpol.2009.08.012
[8] Planners, M. I. O. Volume 4: 2006. Planning Malaysia Journal, 4(1) (2016). doi: 10.21837/pm journal. v4.i1.381
[9] Khalid, A. et al. Performance and emissions characteristics of alternative biodiesel fuel on a small diesel engine. J. Engineering and Applied Sciences 11, 12 (2016) 7424–7430.
[10] Khalid, A. et al. Performance and emissions of diesel engine fuelled with preheated biodiesel fuel derived from crude palm, jatropha, and waste cooking oils. Int. J. Automotive and Mechanical Engineering 14, 2 (2017) 4273–4284.
[11] Khalid, A. et al. (2018). Effect of ambient temperature on ignition delay, combustion process, and emission of biodiesel derived from algae. Int. J. Integrated Engineering 10, 4 (2018) 43–48
[12] Samsudin, M. D. M., & Don, M. M. Municipal Solid Waste Management in Malaysia: Current Practices, Challenges, and Prospects. Jurnal Teknologi, 62(1) (2013) doi: 10.11113/jt. v62.1293.
[13] Asfoor, M. S., &Beyerlein, S. Use of GT-suite to study performance differences between Internal Combustion Engine (ICE) and Hybrid Electric Vehicles (HEV) powertrains. Journal of the Idaho Academy of Science, 50(1) (2014) 88-89. 2018.
[14] Jaat, N., Khalid, A., Mustaffa, N., Zulkifli, F.H., Sunar, N.M., Nursal, R.S., Mohamad, M.A.H., Didane, D., Analysis of injection pressure and high ambient density of biodiesel spray using computational fluid dynamics, CFD Letters, 11 (1) (2019) 28-39.
[15] Khalid, A., Mudin, A., Jaat, M., Mustaffa, N., Manshoor, B., Fawzi, M., Razali, M.A., Ngali, Z., Effects of biodiesel derived by waste cooking oil on fuel consumption and performance of diesel engine, Applied Mechanics and Materials, 554 (2014) 520-525.
[16] Khalid, A., Suardi, M., Chin, R.Y.S., Amirnordin, S.H., Effect of Biodiesel-water-air Derived from Biodiesel Crude Palm Oil Using Premix Injector and Mixture Formation in Burner Combustion, Energy Procedia, 111 (2017) 877-884.