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SPH Modelling of Dam-break Floods, with Damage Assessment to Electrical Substations

Andrea Amicarelli, Sauro Manenti, Marco Paggi

2020International journal of computational fluid dynamics24 citationsDOI

Abstract

The Smoothed Particle Hydrodynamics code SPHERA (RSE SpA) is validated on a laboratory urban dam-break flood. Comparisons with a porous Shallow Water Equations - Finite Volume Method 2D model are also reported. SPHERA provides a performance comparable with the state-of-the-art code, with results closer to the measured values during the most risky flood stage. Some improvements of SPHERA predictions are achieved by a direct modelling of the mobile gate triggering the flood. SPHERA is also empowered with a substation-flooding damage model, which distinguishes the functional damage due to the substation out of service from the material damage to the substation components. SPHERA is finally applied to a full-scale catastrophic 3D dam-break flood, which interacts with a lower hydroelectric reservoir, covers four residential areas and two electrical substations, whose related damage is assessed. SPHERA is distributed on a GitHub public repository, included the input files of this study.

Topics & Concepts

Flood mythDam breakHydroelectricityFlooding (psychology)Environmental scienceFinite volume methodCode (set theory)Water levelComputer scienceGeotechnical engineeringGeologyEngineeringGeographyMechanicsPhysicsCartographyPsychotherapistSet (abstract data type)ArchaeologyPsychologyProgramming languageElectrical engineeringFluid Dynamics Simulations and InteractionsLattice Boltzmann Simulation StudiesFluid Dynamics and Heat Transfer
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