Article ID: | iaor2004607 |
Country: | United States |
Volume: | 45 |
Issue: | 4/5 |
Start Page Number: | 325 |
End Page Number: | 334 |
Publication Date: | Jan 2002 |
Journal: | Water Science and Technology |
Authors: | Alex J., Kolisch G., Krause K. |
Keywords: | simulation: applications, geography & environment |
The objective of this project is to use the results of a computational fluid dynamics (CFD) simulation to automatically, systematically and reliably generate an appropriate model structure for simulation of the biological processes using CSTR activated sludge compartments. Models and dynamic simulation have become important tools for research but also increasingly for the design and optimisation of wastewater treatment plants. Besides the biological models several cases are reported about the application of CFD to wastewater treatment plants. One aim of the presented method to derive model structures from CFD results is to exclude the influence of empirical structure selection to the result of dynamic simulations studies of wastewater treatment plants (WWTPs). The second application of the approach developed is the analysis of badly performing treatment plants where the suspicion arises that bad flow behaviour such as short cut flows is part of the problem. The method suggested requires as the first step the calculation of fluid dynamics of the biological treatment step at different loading situations by use of 3-dimensional CFD simulation. The result of this information is used to generate a suitable model structure for conventional dynamic simulation of the treatment plant by use of a number of CSTR modules with a pattern of exchange flows between the tanks automatically. The method is explained in detail and the application to the WWTP Wuppertal Buchenhofen is presented.