Computer Simulation Of A CI Engine For Better Performance And Emission Using Diesel - Biodiesel Blends

M. Venkatraman*, G. Devaradjane**
* Department of Mechanical Engineering, Arulmigu Meenakshi Amman College of Engineering, Kanchipuram, Tamilnadu.
** Department of Automobile Engineering, Anna University, MIT Campus, Chrompet, Chennai, Tamil Nadu.
Periodicity:May - July'2011
DOI : https://doi.org/10.26634/jme.1.3.1489

Abstract

The present work describes a theoretical investigation concerning the performance of a four strokes compression ignition engine, which is powered by alternative fuels in the form of diesel and biodiesel blends. The developed simulation model used to estimate the cylinder pressure, heat release rate, brake thermal efficiency, brake specific fuel consumption and engine out emissions. The simulation model includes Honerberg’s equation heat transfer model, Zero dimensional combustion model for the prediction of combustion parameters and NO formation during combustion process using Zeldovich mechanism.Experiments were performed in a single cylinder DI diesel engine fuelled with a blend of pungam methyl ester for the proportion of 10%, 20% and 30% by volume with diesel fuel for validation of simulated results. It was observed that there is a good agreement between simulated and experimental results which reveals the fact that the simulation model developed predicts the performance and emission characteristics of any biodiesel and diesel fuel and engine specifications given as input.

Keywords

CI Engine, Combustion, Emission, Pungan Methyl Ester, Performance And Zero Dimensional Combustion Zone Model

How to Cite this Article?

M. Venkatraman and G. Devaradjane (2011). Computer Simulation Of A CI Engine For Better Performance And Emission Using Diesel - Biodiesel Blends. i-manager’s Journal on Mechanical Engineering, 1(3), 30-36. https://doi.org/10.26634/jme.1.3.1489

References

[1]. S.M. Jameel Basha, K. Rajagopal (2009). “Simulation of In-Cylinder Processes in a DI Diesel Engine with Variation in Initial Swirl Ratio” published by i-manager -Journal of Future Engineering and Technology, Vol.5, No.1, pp. (57-66).
[2]. J.B. Heywood (1988). International Combustion Engine Fundamentals, McGraw hill Book Company, New York.
[3]. N.D. Whitehouse, R.S. Benson (1979). Internal Combustion Engines, published by pergamon press, England.
[4]. Dohog Jung and Dennis N. Assanis (2001). “Multi Zone Di Diesel Spray Combustion Model For Cycle Simulation Studies of Engine Performance And Emissions” SAE-01-1246(1-23).
[5].Hountalas.D.T, Binder. K.B (2002). “Using a phenomenological multi-zone model to investigate the effect of injection rate shaping on performance and pollutants of a DI Heavy Duty Diesel Engine”SAE -01-0074(358-375).
[6]. S. Sundarapandian, G. Devaradjane (2007). “Computer Simulation of C.I Engine Using Vegetable Oil Esters” published by i-manager’s Journal on Future Engineering & Technology, Vol. 2 No. 2 pp. 94-102.
[7]. Bolem Siva Nageswara Rao & V Ganesan (2010). “CFD analysis of combustion chamber geometry for the possibility of hydrogen fueling in a spark-ignition engine” Vol.1, No.1 International Journal of Green Energy & Energy Management.
[8]. Joginder Singh Kaliravna ,Mangesh Nimbalkar, Narendra Kumar Jain and Ganesan.V (2010). “Combustion quality measurements at idling in a bi-fuel engine using statistical tools” International Journal of Green energy & Energy Management. Vol. 1, No.: 2.
[9]. Hamadan & Runa Haj Khalil “Simulation of compression ignition engine powered by biofuels” University of Jordan-jordan and University of Philadelphia, Amman Jordan.
[10]. Kannan.K & Udayakumar. M (2009). “Modeling of nitric oxide formation in cylinder direct injection diesel engine using diesel-water emissions” American Journal of Applied Science 6(7):1313-1320.
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