Modelling COD and N removal in the water and in the benthic biofilm for the River Wupper in Germany

The River Wupper, a tributary of the River Rhine, is at several locations influenced by anthropogenous nitrogen input, hydraulic structures, and influents from other tributaries. These influences have an impact both on the water quality and on the hydrodynamic conditions. The model approaches used f...

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Veröffentlicht in:	Water science and technology 2006-01, Vol.53 (10), p.163-171
Hauptverfasser:	Wichern, M, Kehl, O, Erbe, V, Luebken, M, Wilderer, P A
Format:	Artikel
Sprache:	eng
Schlagworte:	Activated sludge Ammonium nitrogen Biofilms Biofilms - growth & development Computer simulation Conversion Diffusion Diffusion layers Dye dispersion Freshwater Germany Hydraulic structures Hydrodynamics Influents Modelling Models, Theoretical Molecular diffusion Nitrogen Nitrogen - metabolism Oxygen - analysis Removal River water Rivers Rivers - chemistry Rivers - microbiology Sedimentation Sludge Tributaries Waste Disposal, Fluid Wastewater Wastewater treatment Wastewater treatment plants Water Pollutants Water quality Weirs
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creator	Wichern, M Kehl, O Erbe, V Luebken, M Wilderer, P A
description	The River Wupper, a tributary of the River Rhine, is at several locations influenced by anthropogenous nitrogen input, hydraulic structures, and influents from other tributaries. These influences have an impact both on the water quality and on the hydrodynamic conditions. The model approaches used for this article are based on work of Rauch et al. and the River Water Quality Model No. 1; they allow the simulation of the nitrogen conversion in the River Wupper. They are compatible with the activated sludge models and can thus be used also for integrated approaches. The calibration and validation of the model was realized using actual data of the River Wupper over a length of 60 km with one dam, 10 weirs, three wastewater treatment plants and 11 tributaries. The model considers the nitrogen conversion and COD removal and has a strong focus on biofilm processes in the benthic zone. Additional information is given about the sedimentation processes, the physical oxygen input processes, biofilm detachment processes, molecular diffusion, the influence of the laminar border layer and the changing of COD fractions and biofilm densities.
doi_str_mv	10.2166/wst.2006.309
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These influences have an impact both on the water quality and on the hydrodynamic conditions. The model approaches used for this article are based on work of Rauch et al. and the River Water Quality Model No. 1; they allow the simulation of the nitrogen conversion in the River Wupper. They are compatible with the activated sludge models and can thus be used also for integrated approaches. The calibration and validation of the model was realized using actual data of the River Wupper over a length of 60 km with one dam, 10 weirs, three wastewater treatment plants and 11 tributaries. The model considers the nitrogen conversion and COD removal and has a strong focus on biofilm processes in the benthic zone. 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subjects	Activated sludge Ammonium nitrogen Biofilms Biofilms - growth & development Computer simulation Conversion Diffusion Diffusion layers Dye dispersion Freshwater Germany Hydraulic structures Hydrodynamics Influents Modelling Models, Theoretical Molecular diffusion Nitrogen Nitrogen - metabolism Oxygen - analysis Removal River water Rivers Rivers - chemistry Rivers - microbiology Sedimentation Sludge Tributaries Waste Disposal, Fluid Wastewater Wastewater treatment Wastewater treatment plants Water Pollutants Water quality Weirs
title	Modelling COD and N removal in the water and in the benthic biofilm for the River Wupper in Germany
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