2009
DOI: 10.5194/nhess-9-1277-2009
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Coupled modelling of subsurface water flux for an integrated flood risk management

Abstract: Abstract. Flood events cause significant damage not only on the surface but also underground. Infiltration of surface water into soil, flooding through the urban sewer system and, in consequence, rising groundwater are the main causes of subsurface damage. The modelling of flooding events is an important part of flood risk assessment. The processes of subsurface discharge of infiltrated water necessitate coupled modelling tools of both, surface and subsurface water fluxes. Therefore, codes for surface flooding… Show more

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Cited by 27 publications
(13 citation statements)
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“…Here we distinguish groundwater flooding via connections to wastewater collection infrastructure from sewer backup, and define the former as shallow groundwater that enters a home via holes or cracks in the wastewater collection system under elevated groundwater pressure, and not by blockage in the wastewater collection system. Complex relationships between groundwater infiltration, surface water inflow, and sewage exfiltration during a flood have been modeled, indicating river stage fluctuations can lead to groundwater flooding, and ultimately overload sewage systems (Cloutier et al, ; Karpf et al, ; Sommer et al, ).…”
Section: Introductionmentioning
confidence: 99%
“…Here we distinguish groundwater flooding via connections to wastewater collection infrastructure from sewer backup, and define the former as shallow groundwater that enters a home via holes or cracks in the wastewater collection system under elevated groundwater pressure, and not by blockage in the wastewater collection system. Complex relationships between groundwater infiltration, surface water inflow, and sewage exfiltration during a flood have been modeled, indicating river stage fluctuations can lead to groundwater flooding, and ultimately overload sewage systems (Cloutier et al, ; Karpf et al, ; Sommer et al, ).…”
Section: Introductionmentioning
confidence: 99%
“…() who use mouse–mike she coupling and Sommer et al . () who apply trimr2d (Washington Water Science Center, U.S. Geological Survey, Tacoma, Washington) (groundwater) and hystem‐extran (itwh GmbH, Hannover, Germany) (sewer system). Berggren et al .…”
Section: Introductionmentioning
confidence: 99%
“…As rainfall event a virtual rain with a duration of 12 h and a frequency of 1 a -1 and a rain height of 36 mm is generated as a rectangle-shaped rainfall according to rain statistics in the Dresden catchment. Groundwater levels are taken from a groundwater simulation of a 100-year flood event, which was realised with a hydrodynamic 3D model (Sommer et al 2009). Surface water levels are generated by a linear interpolation of the river water level during a 100-year flood event.…”
Section: Investigation Area Data and Model Structurementioning
confidence: 99%
“…The integrated coupling of hydrodynamic sewer, surface-and groundwater models was realised e.g. by Sommer et al (2009), who coupled a sewer network model (1D) with a surface water model (2D) and a groundwater model (3D). Besides the complexity of the model coupling, the collection of the data needed and its processing, the set-up of the model structure and definition of boundary conditions are very labour-intensive.…”
Section: Introductionmentioning
confidence: 99%