Biotreatment of Total Petroleum Hydrocarbons from an oily Sludge Using Co-Composting Approach

Discharging of non-treated oily sludge from oil refineries has undesirable impacts on the environment. In this research, the biotreatment of total petroleum hydrocarbons (TPHs) from Abadan Petroleum Refinery, Iran was done using co-composting method. A 5kg mixture of oily sludge and compost (oily sludge: compost ratios 1:0, 1:0.1, 1:0.3, 1:0.5, and 1:0.7 w/w) and a bulking agent of wheat straw were used as treatments. All treatments were placed in a wooden box inside a laboratory and aerated every 2-3days by mixing during two months of the experiments. The variation of TPHs concentration, bacterial density, C/N ratio, pH, and temperature were assessed during the 63 days- experiments. Results showed that the majority of TPHs of samples was removed at first 30days. The maximum TPHs removal (65%) was obtained in the sludge: compost = 1:0.5 at the operation time of 63day. The significant different between removal efficiency of oily sludge: compost ratios and the control sample (p value < 0.05) indicated the appropriate density of TPHs degrader-bacteria in treated samples. The highest variation in C/N ratio was observed 15 +/- 0.58 in the oily sludge: compost = 1:0.1. At the beginning of experiments, the pH values of all treatments was alkaline, but became neutral at the end of the reaction time. The TPHs degradation kinetic for all oily sludge: compost ratios followed pseudo second-order model. In general, co-composting has high efficiency in oily sludge remediation and can be potentially applied as a simple and cost-effective approach for remediation of oily sludge.