Search results for " numerical solver."

showing 4 items of 4 documents

MAST-RT0 SOLUTION OF 3D NAVIER STOKES EQUATIONS ON UNSTRUCTURED MESHS. PRELIMINARY RESULTS IN THE LAMINAR CASE

2021

A new numerical solver for the 3D Navier Stokes incompressible laminar problems is proposedThe governing equations are discretized over unstructured tetrahedral mesheThe proposed model is suitable for the solution of laminar flows in irregular domainsDelaunay mesh condition is not requiredSettore ICAR/01 - Idraulica
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MAST-RT0 solution of 3D Navier Stokes equations in very irregular domains. Preliminary results in the laminar case

2021

A new numerical methodology to solve the 3D Navier-Stokes equations for incompressible fluids within complex boundaries and unstructured body-fitted tetrahedral mesh is presented and validated with three literature and one real-case tests. We apply a fractional time step procedure where a predictor and a corrector problem are sequentially solved. The predictor step is solved applying the MAST (Marching in Space and Time) procedure, which explicitly handles the non-linear terms in the momentum equations, allowing numerical stability for Courant number greater than one. Correction steps are solved by a Mixed Hybrid Finite Elements discretization that assumes positive distances among tetrahedr…

A new numerical solver for the 3D Navier Stokes incompressible laminar problems is proposedThe proposed model is suitable for the solution of laminar flows in irregular domainsSettore ICAR/01 - Idraulica
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A novel One Domain Approach for free fluid-porous medium transport simulation. Preliminary results

2022

We present a new numerical solver for free-fluid flowing over and inside a porous medium. It is based over a macroscopic approach and one fictitious medium is assumed inside the domain, according to the One Domain Approach. Preliminary results are shown and compared with the ones provided by the well-known DuMux solver which applies a two Domain Approach.

Free flow porous medium transport phenomena numerical solver.Settore ICAR/01 - Idraulica
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A NEW SOLVER FOR NON-ISOTHERMAL FLOWS IN NATURAL AND MIXED CONVECTION

2022

Most thermal fluid flow of real-life practical problems fall in the category of low Mach-number or incompressible flow (e.g., industrial flows inside ducts, or around stationary/moving objects, flows in biological/biomedical problems, or atmospheric flows). Several numerical techniques have been proposed for simulation of thermal flows, Finite Difference (FDM), Finite Element (FEM), Finite Volume (FVM) and Lattice Boltzmann (LBM) methods. Unlike the FVMs and FEMs, the classical FDMs show some difficulties in handling irregular geometries. Conventional formulation of FEMs (e.g., Galerkin FEMs) suffers from the lack of local mass balance, recovered by modified formulations (Narasimhan & W…

New numerical solver for natural/mixed convection Discretization over unstructured grids Use of the Oberbeck–Boussinesq aproximation
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