Computer Modeling of a CI Engine for Optimization of Operating Parameters Such as Compression Ratio, Injection Timing and Injection Pressure for Better Performance and Emission Using Diesel-Diesel Biodiesel Blends
- 1 Department of Mechanical Engineering, Arulmigu Meenakshi Amman College of Engineering, Kanchipuram-604 410, TamilNadu, India
- 2 Department of Automobile Engineering, Anna University, MIT Campus, Chrompet, Chennai-600 044, TamilNadu, India
Abstract
Problem statement: 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 diesel biodiesel blends. Approach: 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. Results: Experiments were performed in a single cylinder DI diesel engine fuelled with a blend of pungam methyl ester for the proportion of PME10, PME20 and PME30 by volume with diesel fuel for validation of simulated results. Conclusion/Recommendations: 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.
DOI: https://doi.org/10.3844/ajassp.2011.897.902
Copyright: © 2011 M. Venkatraman and G. Devaradjane. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
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Keywords
- CI engine
- combustion parameters
- emission characteristics
- dimensional combustion
- zone model
- Actual Cycle Simulation (ACS)
- ignition engine
- Standard Deviation (SD)
- ignition delay
- Carbon Monoxide (CO)