TREATING THE USED AUTOMOBILES OILS USING SOLVENTS
DOI:
https://doi.org/10.31699/IJCPE.2010.3.2Abstract
Used automobile oils were subjected to filtration to remove solid material and dehydration to remove water, gasoline and light components by using vacuum distillation under moderate pressure, and then the dehydrated waste oil is subjected to extraction by using liquid solvents. Two solvents, namely n-butanol and n-hexane were used to extract base oil from automobile used oil, so that the expensive base oil can be reused again.
The recovered base oil by using n-butanol solvent gives (88.67%) reduction in carbon residue, (75.93%) reduction in ash content, (93.73%) oil recovery, (95%) solvent recovery and (100.62) viscosity index, at (5:1) solvent to used oil ratio and (40 oC) extraction temperature, while using n-hexane solvent gives (60.25%) reduction in carbon residue, (76.54%) reduction in ash content, (89.06%) oil recovery, (94.78%) solvent recovery and (100.3) viscosity index, at (6:1) solvent to used oil ratio and (50 oC) extraction temperature.
References
Juma N. H., (2000), "Lubricating Oils and Additives", Middle Refineries Co., S. Co., Ministry of Oil, December, P.10-32.
Dturnell, (2006), "Used Oil Re-refining Study to Address Energy Policy Act of 2005 Section 1838", Office of Oil and Natural Gas Office of Fossil Energy U.S. Department of Energy, Ch. 4, Ch. 9.
U. S. Patent No. 6117309, Alexander D. B., Martin MacDonald and Thomas G. Murray, (2000).
Whisman M. L., Reynold J. W., Goetzinger J. E. and Cotton F. O., (1978), "Re-Refining Makes Quality Oils", Hydrocarbon Processing, Oct., pp 141.
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