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IntroductionΒΆ

This document presents HydroBID Flood instructional material and tutorials to facilitate the application of several model components using QGIS. HydroBID Flood is based on Hydronia's RiverFlow2D engine and is tailored for HydroBID flood-risk and urban-drainage workflows.

HydroBID Flood is a combined hydrologic and hydrodynamic finite-volume model for rivers, estuaries, coastal areas, and floodplains. It can simulate floods and inundation over complex terrain at high resolution and with remarkable stability, accuracy, and speed. The use of adaptive triangular-cell meshes enables the flow field to be resolved around key features in difficult river environments.

Hydronia computational engines use an accurate, fast, and stable finite-volume solution method that eliminates the boundary and hot start difficulties of some two-dimensional flexible mesh models. HydroBID Flood can represent dam or levee breaches and can integrate hydraulic structures such as culverts, weirs, bridges, and gates. The hydrologic capabilities include spatially distributed rainfall, evaporation, and infiltration. This current version can integrate the effect of spatially distributed wind stresses on the water surface.

The user interface of Hydronia models is based on QGIS, a powerful software for the analysis of geographic information systems of free distribution. This software system integrated with GMSH mesh generation plugin provides interactive functions to generate and refine the finite-volume flexible mesh, and uses familiar GIS objects to construct a high level representation of the model. QGIS also offers a complete set of visualization tools that include rendering, for the representation of the results generated by the model.