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Experimental analysis of engine performance, combustion and emission using pongamia biodiesel as fuel in CI engine

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  • Perumal, Varatharaju
  • Ilangkumaran, M.

Abstract

The environmental degradation and the health hazards caused by the petroleum fuels needs a compelling research for the alternate energy source. This paper analysis the pongamia methyl ester (PME) as an alternate source of fuel for CI engines without making much changes in the existing engine technology and without causing much difficulties for the scientists and engineers. The study reveals the use of PME as either an alternate fuel or substitute for the diesel may definitely reduces the green house gases at the same time the employability in the agricultural field will be increased by retaining the migration of the farmer community towards cities or towns for search of employment. It was observed that the use of PME as fuel reduces carbon monoxide to an extent of 8.2% compared to diesel at the same time HC reduced by 8.9% also there is considerable reduction in oxides of nitrogen. There was increase in BSFC of 4.2% and the thermal efficiency reduced by 2.4%. But the environmental sustainability and the employability for local community and promotion of agriculture prefers the PME as an alternate fuel for the transport, agricultural and power sector.

Suggested Citation

  • Perumal, Varatharaju & Ilangkumaran, M., 2017. "Experimental analysis of engine performance, combustion and emission using pongamia biodiesel as fuel in CI engine," Energy, Elsevier, vol. 129(C), pages 228-236.
  • Handle: RePEc:eee:energy:v:129:y:2017:i:c:p:228-236
    DOI: 10.1016/j.energy.2017.04.120
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    Cited by:

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    2. Vellaiyan, Suresh, 2020. "Combustion, performance and emission evaluation of a diesel engine fueled with soybean biodiesel and its water blends," Energy, Elsevier, vol. 201(C).
    3. Perumal, Varatharaju & Ilangkumaran, M., 2018. "Water emulsified hybrid pongamia biodiesel as a modified fuel for the experimental analysis of performance, combustion and emission characteristics of a direct injection diesel engine," Renewable Energy, Elsevier, vol. 121(C), pages 623-631.
    4. Kodate, Shankar Vitthal & Satyanarayana Raju, Pragada & Yadav, Ajay Kumar & Kumar, G.N., 2021. "Investigation of preheated Dhupa seed oil biodiesel as an alternative fuel on the performance, emission and combustion in a CI engine," Energy, Elsevier, vol. 231(C).
    5. Aghababaeian, Shiva & Beygzadeh, Mojtaba & Dehghan, Maziar & Halek, Farah-Sadat & Aminy, Mohammad, 2024. "Energy and economic aspects of efficient radiative heating for biodiesel production: Prospects and challenges of using solid magnetic CaO/CoFe2O4 nano-catalyst," Energy, Elsevier, vol. 289(C).
    6. Çeli̇k, Mehmet & Bayindirli, Cihan, 2020. "Enhancement performance and exhaust emissions of rapeseed methyl ester by using n-hexadecane and n-hexane fuel additives," Energy, Elsevier, vol. 202(C).
    7. Rajesh, K. & Natarajan, M.P. & Devan, P.K. & Ponnuvel, S., 2021. "Coconut fatty acid distillate as novel feedstock for biodiesel production and its characterization as a fuel for diesel engine," Renewable Energy, Elsevier, vol. 164(C), pages 1424-1435.
    8. Dong Lin Loo & Yew Heng Teoh & Heoy Geok How & Jun Sheng Teh & Liviu Catalin Andrei & Slađana Starčević & Farooq Sher, 2021. "Applications Characteristics of Different Biodiesel Blends in Modern Vehicles Engines: A Review," Sustainability, MDPI, vol. 13(17), pages 1-31, August.
    9. Dariusz Kurczyński & Grzegorz Wcisło & Piotr Łagowski, 2021. "Experimental Study of Fuel Consumption and Exhaust Gas Composition of a Diesel Engine Powered by Biodiesel from Waste of Animal Origin," Energies, MDPI, vol. 14(12), pages 1-22, June.

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