Performance of CI Engine with Progressive Replacement of Blended Plant Oil by Producer Gas
DOI:
https://doi.org/10.52151/jae2007442.1253Abstract
A multi cylinder naturally aspirated diesel engine with matching alternator was operated successfully with mixed fuels (petro-diesel, de-waxed de-gummed Jatropha oil! karanja oil/ rice bran oil and Producer gas) and its performance was verified through extensive, short (6 hours) and long duration (30 h) trials. Study revealed that CI engine can also be run on blended de-waxed and de-gummed Jatropha oil with diesel even up to 50%, but preheating of mixture was required at 60°C to reduce viscosity, when blending of oil with diesel is more than 10%. Maximum blending of plant oil with petro-diesel and its operation with CI engine also depends upon the quality of the plant oil. In case of refined rice bran oil, it was as high as 75%. Maximum replacement of blended plant oil by producer gas was 68% with minor losses in engine output compared to petro-diesel. In general, exhaust gas temperature and specific energy consumption increased in mixed fuel mode with all the three oils, however brake thermal efficiency decreased. It was due to lower calorific value of plant oils and producer gas. In CI Engine having 18.4: I compression ratio, at 84% engine load and with mixed fuel concentration of pollutants like CO, HC, NO, N02 was reduced by up to 51, 65, 83 and 85%, respectively. However, in case of rice bran oil, CO concentration increased as compared to petro-diesel.
References
American Society for Testing of Materials (ASTM). 1983. Annual Book of ASTM Standards. Philadelphia: ASTM 19103.
BIS Code No.130 18. 1990. Internal Combustion Engine - method of test for pressure charge engine.
Bhattacharya S; Reddy C S. 1994. Vegetable oil as fuel for Internal combustion engine: A Review. J. Agric. Engng. Res., 57, 157-166.
Barisic N J; Humke A L. 1981. Performance and emission characteristics of a naturally aspirated diesel engine with vegetable oil fuels. ASAE Paper No 810262
Bhatt VC; Murthy N S; Datta R K. 200 I. Karanja (Pongamia glabra) oil as a fuel for diesel engines. Agric. Engng. Today, 25(5-6), 45-57.
Mohod A G; Gadge S R; MandasureV N. 2003. Liberation of carbon monoxide through gasifier I.C. engine system. Institution Engrs. (I) J. (Ag), 84, 27-29.
Pathak B S. 2004. The relevance of biomass management. In: Proc. National Seminar on Biomass Management for Energy purposes -Issue and Strategies, SPRERI, Vallabh Vidya Nagar, Gujarat.
Parikh P P; Arikkat P. 1985. Scope and limitations of utilization of biomass- based producer gas in dual fuel operation of existing diesel engines. In: Proc. of IInd International Producer gas Conference, Bandung, Indonesia.
Rajput A K. 1998. Performance studies on compression ignition engine using producer gas- diesel mixture as fuel. Unpublished M Tech (Agril. Engg.) Thesis, PAU, Ludhiana
Sappani M; Durgaprasad M B; Kumar S; Haridasan T M. 1991. Emission characteristics of a dual-fuel compression ignition engine. Proc. of National technical meet on recent advances in Biomass Gasification organized by GEDA, Vadodara.
Shyam M; Verma S R; Pathak B S. 1984. Performance of 5 hp diesel engine with various blends of plant oil and diesel/kerosene oils. J. Agric. Engng, 21 (3), 113.
Sharma B K. 1986. Industrial Chemistry - Oils, Fats, Waxes and Soaps. Goal Publishing House, Subhash Bazar, Meerut, India.
Singh R N. 2007. "Investigations on operation of IC engine using producer gas and non-edible plant oils and their esters in duel fuel mode" PhD thesis submitted to Devi Ahilya University, Indore (M P).
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