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Articles

Combined effects of fuel injection pressure and injector nozzle holes on the performance of preheated palm oil methyl ester used in a diesel engine

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Pages 19-35 | Received 24 Mar 2018, Accepted 04 Aug 2018, Published online: 24 Dec 2018

References

  • Bhaskar SV, Babu GS. Effect of Biodiesel and Their Diesel Blends on Performance and Emission Characteristics of CIDI Engine: A Review. International Journal for Research in Applied Science. 2015; 3: 210–220.
  • Mishra VK, Goswami R. A review of production, properties and advantages of biodiesel. Biofuels. 2018;9(2):273–289.
  • Çelikten İ, Mutlu E, Solmaz H. Variation of performance and emission characteristics of a diesel engine fueled with diesel, rapeseed oil and hazelnut oil methyl ester blends. Renewable Energy. 2012;48:122–126.
  • Rashedul HK, Masjuki HH, Kalam MA, et al. The effect of additives on properties, performance and emission of biodiesel fuelled compression ignition engine. Energy Conversion and Management. 2014; 88:348–364.
  • Devaraj J, Robinson Y, Ganapathi P. Experimental investigation of performance, emission and combustion characteristics of waste plastic pyrolysis oil blended with diethyl ether used as fuel for diesel engine. Energy. 2015;85:304–309.
  • Naik NS, Balakrishna B. A comparative study of performance and combustion characteristics of a CI diesel engine fuelled with B20 biodiesel blends. International Journal of Ambient Energy. 2017;1–7.
  • Mohan B, Yang W, Raman V, et al. Optimization of biodiesel fueled engine to meet emission standards through varying nozzle opening pressure and static injection timing. Applied Energy. 2014;130:450–457.
  • Venkanna BK, Venkataramana Reddy C. An experimental investigation on the performance, emission and combustion characteristics of preheated calophyllum inophyllum linn oil (honne oil) fed DI diesel engine. International Journal of Energy Technology and Policy. 2013;9:1–4.
  • Khalid A, Tajuddin AS, Jaat N, et al. Performance and emissions of diesel engine fuelled with preheated biodiesel fuel derived from crude palm, jatropha, and waste cooking oils. International Journal of Automotive and Mechanical Engineering. 2017;14:4273–4284.
  • Gumus M, Sayin C, Canakci M. The impact of fuel injection pressure on the exhaust emissions of a direct injection diesel engine fueled with biodiesel–diesel fuel blends. Fuel. 2012;95:486–494.
  • Agarwal AK, Som S, Shukla PC, et al. In-nozzle flow and spray characteristics for mineral diesel, Karanja, and Jatropha biodiesels. Applied Energy. 2015;156:138–148.
  • Agarwal AK, Chaudhury VH. Spray characteristics of biodiesel/blends in a high pressure constant volume spray chamber. Experimental thermal and fluid science. 2012;42:212–218.
  • Rajashekhar CR, Chandrashekar TK, Umashankar C, et al. Studies on effects of combustion chamber geometry and injection pressure on biodiesel combustion. Transactions of the Canadian Society for Mechanical Engineering. 2012;36:429–438.
  • Bakar RA, Ismail S, Ismail AR. Fuel injection pressure effect on performance of direct injection diesel engines based on experiment. American Journal of Applied Sciences. 2008;5:197–202.
  • Semin S, Yusof MY, Arof AM, et al. Effect of injector nozzle holes on diesel engine performance. InTech, In Fuel Injection 2010; 83–95.
  • Wategave SP, Sawant MS, Tandale MS, et al. Effect of injection timing, injector opening pressure and nozzle geometry on the performance of a compression ignition engine operated on non-edible oil methyl esters from different sources. International Journal of Sustainable Engineering. 2014;7:71–81.
  • Ranganatha Swamy L, Chandrashekar TK, Banapurmath NR, et al. Effect of injection timing, combustion chamber shapes and nozzle geometry on the diesel engine performance. universal journal of Petroleum sciences. 2014;2:74–95.
  • Suresh G, Kamath HC, Banapurmath NR. Effects of injection timing, injector opening pressure and nozzle geometry on the performance of cottonseed oil methyl ester-fuelled diesel engine. International Journal of Sustainable Engineering. 2014;7:82–92.
  • Tumbal AV, Banapurmath NR, Tewari PG. Effect of injection timing, injector opening pressure, injector nozzle geometry, and swirl on the performance of a direct injection, compression-ignition engine fuelled with honge oil methyl ester (HOME). International Journal of Automotive Technology. 2016;17:35–50.
  • Ganapathy T, Gakkhar RP, Murugesan K. Influence of injection timing on performance, combustion and emission characteristics of Jatropha biodiesel engine. Applied energy. 2011;88:4376–86.
  • Gupta HN. Fundamentals of internal combustion engines. 2nd ed. Delhi: PHI Learning Pvt. Ltd.; 2012; p.491–507.
  • Heywood, J. B. Internal combustion engine fundamentals. New York: McGraw-Hill; 1988; p.46–52.
  • Najafi B, Faizollahzadeh Ardabili S, Mosavi A, et al. An Intelligent Artificial Neural Network-Response Surface Methodology Method for Accessing the Optimum Biodiesel and Diesel Fuel Blending Conditions in a Diesel Engine from the Viewpoint of Exergy and Energy Analysis. Energies. 2018;11:1–18.
  • Knothe G. Analyzing biodiesel: standards and other methods. Journal of the American Oil Chemists' Society. 2006; 83:823–833.
  • Mustaffa N, Khalid A, Sies MF, et al. Preheated Biodiesel Derived from Vegetable Oil on Performance and Emissions of Diesel Engines: A Review. In Applied Mechanics and Materials, Trans Tech Publications, 2014;465:285–290.
  • Rahim R, Mamat R, Taib MY, et al. Influence of fuel temperature on diesel engine performance operating with biodiesel blend. Journal of Mechanical Engineering and Sciences. 2012;2:226–236.
  • Yilmaz N, Morton B. Effects of preheating vegetable oils on performance and emission characteristics of two diesel engines. Biomass and Bioenergy. 2011;35:2028–2033.
  • Karra PK, Kong SC. Experimental study on effects of nozzle hole geometry on achieving low diesel engine emissions. Journal of Engineering for Gas Turbines and Power. 2010;132:1–10.
  • Kline S. J., McClintock F. A. Describing uncertainty in single-sample experiments. Mechanical engineering, 1953;75: p.3.

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