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Main Authors: Wichitrnithed, Chayanon, Valseth, Eirik, Bunya, Shintaro, Kubatko, Ethan J., Dawson, Clint
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2508.15948
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author Wichitrnithed, Chayanon
Valseth, Eirik
Bunya, Shintaro
Kubatko, Ethan J.
Dawson, Clint
author_facet Wichitrnithed, Chayanon
Valseth, Eirik
Bunya, Shintaro
Kubatko, Ethan J.
Dawson, Clint
contents Several recent tropical cyclones, e.g., Hurricane Harvey (2017), have lead to significant rainfall and resulting runoff. When the runoff interacts with storm surge, the resulting floods can be greatly amplified and lead to effects that cannot be correctly modeled by simple superposition of its distinctive sources. In an effort to develop accurate numerical simulations of runoff, surge, and compounding floods, we develop a locally conservative coupled DG-CG discretization of the shallow water equations and integrate it into the Advanced Circulation Model (ADCIRC). We also modify the continuity equation to include spatially and temporally variable rainfall into the model using parametric rainfall models. We demonstrate the capabilities of the scheme though a sequence of physically relevant numerical tests, including small scale test cases based on laboratory measurements and large scale experiments with Hurricane Harvey in the Gulf of Mexico. The results highlight the conservation properties and robustness of the developed method and show the potential of compound flood modeling using our approach.
format Preprint
id arxiv_https___arxiv_org_abs_2508_15948
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Coupled Continuous-Discontinuous Galerkin Finite Element Solver for Compound Flood Simulations
Wichitrnithed, Chayanon
Valseth, Eirik
Bunya, Shintaro
Kubatko, Ethan J.
Dawson, Clint
Computational Physics
Several recent tropical cyclones, e.g., Hurricane Harvey (2017), have lead to significant rainfall and resulting runoff. When the runoff interacts with storm surge, the resulting floods can be greatly amplified and lead to effects that cannot be correctly modeled by simple superposition of its distinctive sources. In an effort to develop accurate numerical simulations of runoff, surge, and compounding floods, we develop a locally conservative coupled DG-CG discretization of the shallow water equations and integrate it into the Advanced Circulation Model (ADCIRC). We also modify the continuity equation to include spatially and temporally variable rainfall into the model using parametric rainfall models. We demonstrate the capabilities of the scheme though a sequence of physically relevant numerical tests, including small scale test cases based on laboratory measurements and large scale experiments with Hurricane Harvey in the Gulf of Mexico. The results highlight the conservation properties and robustness of the developed method and show the potential of compound flood modeling using our approach.
title Coupled Continuous-Discontinuous Galerkin Finite Element Solver for Compound Flood Simulations
topic Computational Physics
url https://arxiv.org/abs/2508.15948