Author:
Yessian Sureshbabu,Varthanan P. Ashoka
Abstract
AbstractThe performance and emission affected by piston catalytic coating have been analyzed in this study. The main contributing factors for improving performance such as load, fuel and speed have been preferred to reduce the emission and improve the performance of an IC engine. These specific standard parameters have been modified with copper alloy coated diesel engine with the aid of design of experiment by Taguchi with grey relational analysis optimization (GRA) method, for improving the IC engine performance and reducing the emissions. The result shows modified copper chromium zirconium (CuCr1Zr) catalytic coated piston produces less emission and improves performance when compared to standard un-coated piston type engine. In this investigation cotton seed oil is used as a bio- diesel and the piston and combustion chamber were coated with copper chromium zirconium material with a thickness of 250 microns. Finally the results of the experiments were compared with un-coated engine and optimized parameters have been identified for catalytic coated modified IC engine using Taguchi with GRA approach.
Publisher
Springer Science and Business Media LLC
Reference24 articles.
1. Reşitoğlu, A., Altinişik, K. & Keskin, A. The pollutant emissions from diesel engine vehicles and exhaust aftertreatment systems. Clean Technologies and Environmental Policy. 17, 15–27 (2015).
2. Zheng, M. et al. Biodiesel engine performance and emissions in low temperature combustion. Fuel 8, 714–722 (2008).
3. Ramesh Babu, P., Nagalingam, N. & Gopalakrishnan, K. V. Effect of Certain Catalysts in the Combustion Chamber of a Two-Stroke Engine on Exhaust Emissions. IMechE paper C448/067, 241–246 (1992).
4. Winkler, M. F., Parker D. W. & Bonar J. A. Thermal barrier coatings for diesel engines: ten years of experience. SAE International, Paper No. 922438 (1992).
5. Jeyakumar, N. & Narayanasamy, B. Clove as antioxidant additive in diesel–biodiesel fuel blends in diesel engines. International Journal of Green Energy. 6, 284–292 (2019).
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