Recent Numerical Advances in Fluid Mechanics

Recent Numerical Advances in Fluid Mechanics

In recent decades, the field of computational fluid dynamics has made significant advances in enabling advanced computing architectures to understand many phenomena in biological, geophysical, and engineering fluid flows. Almost all research areas in fluids use numerical methods at various complexit...

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Detalles Bibliográficos
Otros Autores: San, Omer (Editor )
Formato: Libro electrónico
Idioma:Inglés
Publicado: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2020
Materias:
History of engineering & technology
fluid-structure interaction
monolithic method
Updated Lagrangian
Arbitrary Lagrangian Eulerian
computational aerodynamics
Kutta condition
compressible flow
stream function
non-linear Schrödinger equation
cubic B-spline basis functions
Galerkin method
pressure tunnel
hydraulic fracturing
transient flow
finite element method (FEM)
Abaqus Finite Element Analysis (FEA)
computational fluid dynamics
RANS closures
uncertainty quantification
Reynolds stress tensor
backward-facing step
OpenFOAM
large eddy simulations (LES)
shock capturing
adaptive filter
explicit filtering
jet
proper orthogonal decomposition
coherent structures
turbulence
vector flow fields
PIV
buildings
urban area
pollution dispersion
Large Eddy Simulation (LES)
multiple drop impact
computational fluid dynamics (CFD) simulation
volume-of-fluid
crater dimensions
vorticity
transient incompressible Navier-Stokes
meshless point collocation method
stream function-vorticity formulation
strong form
explicit time integration
wall layer model
LES
separated flow
body fitted
immersed boundary
reduced order modeling
Kolmogorov n-width
Galerkin projection
turbulent flows
reduced order model
closure model
variational multiscale method
deep residual neural network
internal combustion engines
liquid-cooling system
heat transfer
Ver en Biblioteca Universitat Ramon Llull:https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009654565606719
Descripción
Sumario:In recent decades, the field of computational fluid dynamics has made significant advances in enabling advanced computing architectures to understand many phenomena in biological, geophysical, and engineering fluid flows. Almost all research areas in fluids use numerical methods at various complexities: from molecular to continuum descriptions; from laminar to turbulent regimes; from low speed to hypersonic, from stencil-based computations to meshless approaches; from local basis functions to global expansions, as well as from first-order approximation to high-order with spectral accuracy. Many successful efforts have been put forth in dynamic adaptation strategies, e.g., adaptive mesh refinement and multiresolution representation approaches. Furthermore, with recent advances in artificial intelligence and heterogeneous computing, the broader fluids community has gained the momentum to revisit and investigate such practices. This Special Issue, containing a collection of 13 papers, brings together researchers to address recent numerical advances in fluid mechanics.
Descripción Física:1 electronic resource (302 p.)

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