BIOREMEDIATION OF USED ENGINE OIL POLLUTED SOIL USING GOAT MANURE
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Abstract
Hydrocarbon contamination of land, water, air, vegetation and human is a widespread global
environmental concern. The aim of this study was to evaluate the performance of goat manure
for the bioremediation of used engine oil polluted soil. 10kg soil sample was collected from a
site free of used engine oil contamination (from an agricultural land in The Department of
Petroleum Engineering, Faculty of engineering, University of Benin, Ugbowo campus, Benin
City, Edo State in Nigeria) using a 22-cm hand-dug soil auger and stored in labeled black
polythene bag. The sample was air dried, grinded and sieved through 2mm mesh before use. Before contamination, the soil sample was subjected to chemical digestion using 1:1 ratio of
0.25M hydrochloric acid and Nitric acid. Thereafter, it was characterize to determine the physio- chemical properties. The physio-chemical properties determined include; Total Heterotrophic
bacterial, Moisture content Soil, pH, Electrical conductivity, Total hydrocarbon content (THC), Total organic carbon, Total nitrogen content in addition to the soil composition including percent
sand, Total Phosphorus, Lead (Pb) and Iron (Fe). The used engine oil was added gradually into
the bowl containing the unpolluted sieved soil sample and was properly mixed. The used engine
oil was to serve as the pollutant. The soil samples were left for 4days for stabilization before the
commencement of treatment process. The experiment was monitored for a period of eight (8)
weeks under which appreciable level of remediation had been obtained. Result obtained shows
that there was a gradual increase in pH, Electrical conductivity(EC) and Total Heterotrophic
bacterial(THB), and also a gradual decrease in total nitrogen content(TNC), total organic
carbon(TOC), total phosphorus(TP), lead(Pb), Iron(Fe) and total hydrocarbon content(THC). The result explicitly showed that goat manure is a good substrate for bioremediation of used
engine oil polluted site with calculated engine oil removal efficiency of 62.67%. The kinetic
IV
modeling shows that the experimental data fitted well with pseudo-second order kinetic model. On predicting the rate of hydrocarbon loss with time the non-linear regression model gave higher
coefficient of determination of 0.9874 compared to the linear regression model that gave 0.9665.
environmental concern. The aim of this study was to evaluate the performance of goat manure
for the bioremediation of used engine oil polluted soil. 10kg soil sample was collected from a
site free of used engine oil contamination (from an agricultural land in The Department of
Petroleum Engineering, Faculty of engineering, University of Benin, Ugbowo campus, Benin
City, Edo State in Nigeria) using a 22-cm hand-dug soil auger and stored in labeled black
polythene bag. The sample was air dried, grinded and sieved through 2mm mesh before use. Before contamination, the soil sample was subjected to chemical digestion using 1:1 ratio of
0.25M hydrochloric acid and Nitric acid. Thereafter, it was characterize to determine the physio- chemical properties. The physio-chemical properties determined include; Total Heterotrophic
bacterial, Moisture content Soil, pH, Electrical conductivity, Total hydrocarbon content (THC), Total organic carbon, Total nitrogen content in addition to the soil composition including percent
sand, Total Phosphorus, Lead (Pb) and Iron (Fe). The used engine oil was added gradually into
the bowl containing the unpolluted sieved soil sample and was properly mixed. The used engine
oil was to serve as the pollutant. The soil samples were left for 4days for stabilization before the
commencement of treatment process. The experiment was monitored for a period of eight (8)
weeks under which appreciable level of remediation had been obtained. Result obtained shows
that there was a gradual increase in pH, Electrical conductivity(EC) and Total Heterotrophic
bacterial(THB), and also a gradual decrease in total nitrogen content(TNC), total organic
carbon(TOC), total phosphorus(TP), lead(Pb), Iron(Fe) and total hydrocarbon content(THC). The result explicitly showed that goat manure is a good substrate for bioremediation of used
engine oil polluted site with calculated engine oil removal efficiency of 62.67%. The kinetic
IV
modeling shows that the experimental data fitted well with pseudo-second order kinetic model. On predicting the rate of hydrocarbon loss with time the non-linear regression model gave higher
coefficient of determination of 0.9874 compared to the linear regression model that gave 0.9665.
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