Biodegradation of diesel oil and gasoline contaminated effluent employing intermittent aeration.

Abstract We examined the effects of aeration interval and agitation speed in an effort to optimize the biodegradation of effluent contaminated with diesel oil and gasoline. The biodegradation process employed a C 1 mixed culture and intermittent aeration. Optimization was performed using central composite design (CCD). The independent variables were aeration interval ( X 1 ) and agitation speed ( X 2 ) and the dependent variable was the degree of removal of total petroleum hydrocarbons (TPH). The optimum aeration interval (33 h) and agitation speed (110 rpm) resulted in TPH removal of 75.9% after 3 days. Five hydrocarbons classes were identified using gas chromatography: paraffins, isoparaffins, olefins, naphthenics, and aromatics. The following reductions were observed: 91.8% for the paraffins, 83.3% for the isoparaffins, 80.9% for the olefins, 39.3% for the naphthenics, and 80.9% for the aromatics. In comparative studies performed under constant aeration (CA), without aeration (WA), and intermittent aeration (IA) conditions, intermittent aeration resulted in the highest TPH removals, with 90% reduction after 22 days. Under the IA condition, the degradation percentages were 99.6% for the paraffins, 94% for the isoparaffins, 95.4% for the olefins, 70.8 for the naphthenics, and 83.4% for the aromatics.