Eureka! Institutional Repository

Liquid wastewaters that derive from the stages of production in the industries of bakery- yeast are characterized by high concentration of COD, nitrogen, phosphorus and other macromolecules which result to a dark brown color at the wastewaters. They are also characterized by a low pH of about 4-5. The pollutants contained in these effluents cannot be removed by conventional biological treatment, thus a combination of biological and physicochemical process is required. The aim of this work was to study the advanced treatment of wastewater from a baker's yeast industry through a combination of a biological process and electrocoagulation. Wastewater samples were collected from the effluent of the anaerobic reactor of the treatment unit, in the industrial plant. The study of the wastewater treatment involved the application of a stage of aerobic biological treatment carried out in a sequencing batch reactor and an electrocoagulation stage with a different combination of individual stages. In this study, the removal capacity was studied of physicochemical parameters such as chemical oxygen demand (COD), ammonia nitrogen (NH4-N), nitrate-nitrogen (NO3-N), total nitrogen (TN), and color and to estimate the operating time of the metal electrodes. The analysis of the results revealed that the combined biological treatment followed by the electrolytic method showed optimal results for removal of the pollutant load with COD reduction values reaching up to 58%, ammonia nitrogen reduction up to 98% and color removal about 50%. In addition, a reduction in the electrodes was observed due to the formation of iron ions and the maximum functionality of the electrodes reached 20 hours. Consequently, it seems that the combination of these procedures is an effective method for these specific wastewater and for the production of an effluent of desired quality.