Treatment of black-olive wastewaters by ozonation and aerobic biological degradation

The degradation of the organic pollutants present in black-olive wastewater was carried out by ozonation, aerobic biological degradation, and the combination of two successive steps: an aerobic biological process followed by an ozonation. Contaminant removal was followed by means of global parameters directly related to the concentration of organic compounds in those effluents: chemical oxygen demand and total aromatic and phenolic contents. In the ozonation, an approximate kinetic study was performed to determine the apparent kinetic constants for the COD reduction, k(COD), and for the total aromatic reduction, k(A) In the aerobic biological degradation, the kinetic study was performed using the Monod model applied to the experimental data. In the combined process, a higher overall reduction in COD and aromatic content was achieved by the successive stages, and there was improved removal of the organic material during the second treatment. This enhancement was reflected in an increase in the apparent kinetic constants in the ozonation of the wastewater that had previously been treated aerobically, relative to the Values obtained for the kinetic parameters in the single process experiment which were carried out under the same operating conditions. (C) 2000 Elsevier Science Ltd. All rights reserved