Effects of Transition to Water‐Efficient Solutions on Existing Centralized Sewer Systems – An Integrated Biophysical Modelling Approach

A water quality model has been developed with the objective of describing the water quality processes in sewer systems. The model has the capability of simulating both dissolved and sediment attached pollutants. This paper describes the modelling approach for the water quality processes and it demonstrates a small application of the water quality model to a gravity sewer operating under aerobic conditions. The application shows that the transport of dissolved substances in sewers can be accurately described and that the water quality processes are simulated with acceptable results.

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Extent of inhaled drug deposition in mouth-throat and pulmonary airways: A novel biophysical modelling approach for inhaled therapeutics

10.1183/13993003.congress-2015.pa3582 ◽

2015 ◽

Author(s):

Andreas Kuttler ◽

Thomas Dimke

Keyword(s):

Drug Deposition ◽

Pulmonary Airways ◽

Modelling Approach ◽

Biophysical Modelling

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Evaluating the performance of a simple phenomenological model for online forecasting of ammonium concentrations at WWTP inlets

Water Science & Technology ◽

10.2166/wst.2020.085 ◽

2020 ◽

Vol 81 (1) ◽

pp. 109-120 ◽

Cited By ~ 4

Author(s):

Luca Vezzaro ◽

Jonas Wied Pedersen ◽

Laura Holm Larsen ◽

Carsten Thirsing ◽

Lene Bassø Duus ◽

...

Keyword(s):

Wastewater Treatment Plants ◽

Control Strategies ◽

Integrated Control ◽

Model Performance ◽

Forecast Model ◽

Flow Sensors ◽

Sewer Systems ◽

Wastewater Systems ◽

Water Quality Forecasting ◽

Modelling Approach

Abstract A simple model for online forecasting of ammonium (NH4+) concentrations in sewer systems is proposed. The forecast model utilizes a simple representation of daily NH4+ profiles and the dilution approach combined with information from online NH4+ and flow sensors. The method utilizes an ensemble approach based on past observations to create model prediction bounds. The forecast model was tested against observations collected at the inlet of two wastewater treatment plants (WWTPs) over an 11-month period. NH4+ data were collected with ion-selective sensors. The model performance evaluation focused on applications in relation to online control strategies. The results of the monitoring campaigns highlighted a high variability in daily NH4+ profiles, stressing the importance of an uncertainty-based modelling approach. The maintenance of the NH4+ sensors resulted in important variations of the sensor signal, affecting the evaluation of the model structure and its performance. The forecast model succeeded in providing outputs that potentially can be used for integrated control of wastewater systems. This study provides insights on full scale application of online water quality forecasting models in sewer systems. It also highlights several research gaps which – if further investigated – can lead to better forecasts and more effective real-time operations of sewer and WWTP systems.

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Groundwater infiltration, surface water inflow and sewerage exfiltration considering hydrodynamic conditions in sewer systems

Water Science & Technology ◽

10.2166/wst.2011.388 ◽

2011 ◽

Vol 63 (9) ◽

pp. 1841-1848 ◽

Cited By ~ 14

Author(s):

Christian Karpf ◽

Stefan Hoeft ◽

Claudia Scheffer ◽

Lothar Fuchs ◽

Peter Krebs

Keyword(s):

Surface Water ◽

High Sensitivity ◽

Water Levels ◽

Water Inflow ◽

Network Modelling ◽

Infiltration Rates ◽

Sewer Systems ◽

The City ◽

Groundwater Infiltration ◽

Modelling Approach

Sewer systems are closely interlinked with groundwater and surface water. Due to leaks and regular openings in the sewer system (e.g. combined sewer overflow structures with sometimes reverse pressure conditions), groundwater infiltration and surface water inflow as well as exfiltration of sewage take place and cannot be avoided. In the paper a new hydrodynamic sewer network modelling approach will be presented, which includes – besides precipitation – hydrographs of groundwater and surface water as essential boundary conditions. The concept of the modelling approach and the models to describe the infiltration, inflow and exfiltration fluxes are described. The model application to the sewerage system of the City of Dresden during a flood event with complex conditions shows that the processes of infiltration, exfiltration and surface water inflows can be described with a higher reliability and accuracy, showing that surface water inflow causes a pronounced system reaction. Further, according to the simulation results, a high sensitivity of exfiltration rates on the in-sewer water levels and a relatively low influence of the dynamic conditions on the infiltration rates were found.

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