Journal of Hydroinformatics (Sep 2023)

Coupled sink and flow accumulation analyses with single flow direction and multiple flow direction algorithms

  • Nicholas Ray Bowsher,
  • Heiko Sieker,
  • Reinhard Hinkelmann

DOI
https://doi.org/10.2166/hydro.2023.123
Journal volume & issue
Vol. 25, no. 5
pp. 2017 – 2033

Abstract

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A static flood analysis (SFA) toolset is implemented with the purpose of performing simplified, event-based flood inundation modeling. The simulation process is divided into two steps: a topographic sink analysis of the terrain followed by flow accumulation (FA) of runoff volumes. Both procedures are coupled to account for sink storage effects. The sink analysis procedure determines the morphology of present sinks that are utilized during FA to calculate the sink storage by solving a mass balance, whereby inflows are captured in each sink according to their capacity and overflows are routed further downstream. Each sink is enriched with a set of hydrological attributes such as the total inflow, overflow, and flood depth. The flood depth is then utilized to determine the flood extent and flood depths of each sink. Two main options are made available for the FA procedure: either a single flow direction (SFD) or a novel formulation of the multiple flow direction (MFD) algorithm. Both methods were compared in terms of their accuracy with results from the TELEMAC-2D finite-volume solver for an urban inundation model. Both methods showed good agreement when compared with the validation results, with the MFD method performing marginally better than the SFD method. HIGHLIGHTS A method for rapid generation of pluvial flood maps is developed using topographic sink analysis and FA methods.; A variety of outputs are generated, such as flood extents, flood depths, FA volumes, and topographic sink attributes.; An SFD and a novel MFD formulation is developed and used.; The proposed methods showed a good agreement when compared to a hydrodynamic model and clearly outperformed it in terms of computational effort.;

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