[BOOK][B] Finite element methods for incompressible flow problems
V John - 2016 - Springer
Incompressible flow problems appear in many models of physical processes and
applications. Their numerical simulation requires in particular a spatial discretization. Finite …
applications. Their numerical simulation requires in particular a spatial discretization. Finite …
An immersogeometric variational framework for fluid–structure interaction: Application to bioprosthetic heart valves
In this paper, we develop a geometrically flexible technique for computational fluid–structure
interaction (FSI). The motivating application is the simulation of tri-leaflet bioprosthetic heart …
interaction (FSI). The motivating application is the simulation of tri-leaflet bioprosthetic heart …
A review of variational multiscale methods for the simulation of turbulent incompressible flows
Various realizations of variational multiscale (VMS) methods for simulating turbulent
incompressible flows have been proposed in the past fifteen years. All of these realizations …
incompressible flows have been proposed in the past fifteen years. All of these realizations …
The bending strip method for isogeometric analysis of Kirchhoff–Love shell structures comprised of multiple patches
In this paper we present an isogeometric formulation for rotation-free thin shell analysis of
structures comprised of multiple patches. The structural patches are C1-or higher-order …
structures comprised of multiple patches. The structural patches are C1-or higher-order …
Computational engineering analysis with the new-generation space–time methods
K Takizawa - Computational Mechanics, 2014 - Springer
This is an overview of the new directions we have taken the space–time (ST) methods in
bringing solution and analysis to different classes of computationally challenging …
bringing solution and analysis to different classes of computationally challenging …
Fluid–structure interaction analysis of bioprosthetic heart valves: significance of arterial wall deformation
We propose a framework that combines variational immersed-boundary and arbitrary
Lagrangian–Eulerian methods for fluid–structure interaction (FSI) simulation of a …
Lagrangian–Eulerian methods for fluid–structure interaction (FSI) simulation of a …
3D simulation of wind turbine rotors at full scale. Part I: Geometry modeling and aerodynamics
In this two‐part paper we present a collection of numerical methods combined into a single
framework, which has the potential for a successful application to wind turbine rotor …
framework, which has the potential for a successful application to wind turbine rotor …
Dynamic and fluid–structure interaction simulations of bioprosthetic heart valves using parametric design with T-splines and Fung-type material models
This paper builds on a recently developed immersogeometric fluid–structure interaction
(FSI) methodology for bioprosthetic heart valve (BHV) modeling and simulation. It enhances …
(FSI) methodology for bioprosthetic heart valve (BHV) modeling and simulation. It enhances …
Isogeometric fluid–structure interaction analysis with emphasis on non-matching discretizations, and with application to wind turbines
In this paper we develop a framework for fluid–structure interaction (FSI) modeling and
simulation with emphasis on isogeometric analysis (IGA) and non-matching fluid–structure …
simulation with emphasis on isogeometric analysis (IGA) and non-matching fluid–structure …
Fluid–structure interaction modeling of wind turbines: simulating the full machine
In this paper we present our aerodynamics and fluid–structure interaction (FSI)
computational techniques that enable dynamic, fully coupled, 3D FSI simulation of wind …
computational techniques that enable dynamic, fully coupled, 3D FSI simulation of wind …