1. The evaluation of COD fractionation and modeling as a key factor for appropriate optimization and monitoring of modern cost-effective activated sludge systems.
- Author
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Drewnowski J, Remiszewska-Skwarek A, Fudala-Ksiazek S, Luczkiewicz A, Kumari S, and Bux F
- Subjects
- Calibration, Carbon Compounds, Inorganic chemistry, Chemical Fractionation methods, Cities, Cost-Benefit Analysis, Environmental Monitoring methods, Environmental Monitoring standards, Filtration, Flocculation, Humans, Oxygen chemistry, Poland, Water Purification economics, Water Purification methods, Water Purification standards, Biological Oxygen Demand Analysis methods, Biological Oxygen Demand Analysis standards, Sewage chemistry, Waste Disposal, Fluid economics, Waste Disposal, Fluid methods, Wastewater chemistry
- Abstract
A study was conducted to characterize the raw wastewater entering a modern cost effective municipal WWTP in Poland using two approaches; 1) a combination of modeling and carbonaceous oxygen demand (COD) fractionation using respirometric test coupled with model estimation (RT-ME) and 2) flocculation/filtration COD fractionation method combined with BOD measurements (FF-BOD). It was observed that the particulate fractions of COD obtained using FF-BOD method was higher than those estimated by RT-ME approach. Contrary to the above, the values of inert soluble fraction evaluated by FF-BOD method was significantly lower than RT-ME approach (2.4% and 3.9% respectively). Furthermore, the values for low colloidal and particulate fractions as well as soluble inert fractions were different than expected from a typical municipal wastewater. These observations suggest that even at low load (10% of the total wastewater treatment inflow), the industrial wastewater composition can significantly affect the characteristics of municipal wastewater which could also affect the performance and accuracy of respirometric tests. Therefore, in such cases, comparison of the respirometric tests with flocculation/filtration COD/BOD measurements are recommended. Oxygen uptake rate profile with settled wastewater and/or after coagulation-flocculation, however, could still be recommended as a "rapid" control method for monitoring/optimising modern cost-effective wastewater treatment plants.
- Published
- 2019
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