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Abstract
The hazardous waste material such as Waste engine oil (WEO) and red mud is recycled in this study. WEO is thermally cracked with red mud catalyst in the catalytic fuel reformer (CFR). The gas obtained from the CFR is condensed using water cooled condenser for analyzing purpose. The output of the condenser is named as WEORM. The different chemical properties such as density, kinematic viscosity, flash and fire point and calorific value of WEORM are analyzed and compared with those of diesel fuel. The compositional analysis for diesel and WEORM was made using Fourier transform infrared (FT-IR) and gas chromatograph-mass spectra (GC-MS). The results of FT-IR and GC-MS of WEOA revealed that it was similar to fossil diesel fuel. Thus this study concludes that environmentally hazardous waste material such as waste engine oil and red mud is recycled and converted into a useful resource and serves as an alternative source of fuel for CI engine.
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References
2. Ando H. Lean burn combustion engines. IMechE Seminar Publications; 1996.
3. Kuwahara K, Watanabe T, Takemura J, Omori S, Kume T, Ando H. Optimization of in-cylinder flow and mixing for a center-spark four-valve engine employing the concept of barrel-stratification. SAE, Paper 940986, 1994.
4. Arcoumanis C, Hull DR, Whitelaw JH. An approach to charge stratification in lean-burn, spark-ignition engines. SAE 1994, Paper 941878.
5. Meng Q, Zhao H, Ladommatos N, Ma T. Lean burn combustion engines. IMechE Seminar Publications; 1996.
6. M.J. Fuentes, R. Font, M.F. Gomez Rico, I Martin Gullon, Pyrolysis and combustion of waste lubricant oil from diesel cars: Decomposition and pollutants, J. Anal. Appl. Pyrolysis 79 (2007) 215–226.
7. L.H. Keith, W.A. Telliard, Priority pollutants I – A perspective view, Environmental Science and Technology 13 (1979) 416 – 423.
8. L.S. Hagwell, L.M. Delfino, J.J. Rao, Partionining of polycyclic aromatic hydrocarbons from oil into water, Environmental Science and Technology 26 (1992) 2104 – 2110.
9. USEPA, Recycling used oil:What can you do? Cooperation Extn. Services ENRI, 317(1996) 1- 2.
10. T. I. Edewor, O.O. Adelowo, T.J. Afolabi, Preliminary studies into the biological activities of a broad spectrum disinfectant formulated from used engine oil, Pollution Research, 23 (4) (2004) 581 – 586.
11. O.O. Adelowo, S.O. Alagbe, A.A. Ayandele, Time-dependent stability of used engine oil degradation by cultures of Pseudomonas fragi and Achromobacteraerogens, African Journal of Biotechnology, 5 (24)(2006) 2476 – 2479.
12. S.J. Mishra, R.C. Jyot, B.L. Suhad, Evaluation of inoculums addition to stimulate in situ Bioremediation of oily-sludge-contaminated soil, Applied Environmental Microbiology, 67 (4) (2001) 1675 – 1681.
13. C.A. Llyod, T.A. Cackette, Diesel engines: Environmental impact and control, Air and Waste Management Association, 51 (2001) 805 – 847.
14. M. El-Fadel, R. Khoury, Strategies for vehicle waste oil management : a case study, Resource Conservation Recyclable, 33 (2001) 75 – 91.
15. BS EN 590:2009+A1:2010. Automotive fuels. Diesel. Requirements and test methods, London, United Kingdom : British Standards Institution (BSI); 2009.
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