Treatment of mineral-oil recovery industry wastewater by sequential aeration and fenton s oxidation process
1 Selcuk University, Engineering & Architecture Faculty, Department of Environmental Engineering, 42003 Konya, Turkey
2 Aksaray University, Engineering & Architecture Faculty, Department of Environmental Engineering, Aksaray, Turkey
2 Aksaray University, Engineering & Architecture Faculty, Department of Environmental Engineering, Aksaray, Turkey
Abstract
This study describes the treatment of preliminary aerated mineral-oil recovery industry wastewater (MORIW) using Fenton s reagent. Application parameters such as Fe2+ and H2O2 concentration, pH value, reaction period, temperature, and sludge characteristics were examined. Maximum oxidation efficiency (about 90 % COD removal and 80 % UV254 removal) was achieved at the conditions of 0.003 Fe2+:H2O2 ratio, 180 min reaction period, pH 3 and 293 K temperature. The oxidation process of MORIW followed pseudo-second-order reaction kinetic. The studied sludge character has a high density with settling velocity. In addition, the high settlement rate (SR) and liquid/solid ratio (L/S) values demonstrated that the formed sludge was suitable for dewatering and drying processes.
Keywords
COD removal; Fenton process; kinetics; mineral oil recovery industry; oxidation