Numerical-performance studies for the stabilized space-time computation of wind-turbine rotor aerodynamics

Stabilization and discontinuity-capturing parameters for space-time flow computations with finite element and isogeometric discretizations, SPACE–TIME FLUID–STRUCTURE INTERACTION METHODS, ALE-VMS AND ST-VMS METHODS FOR COMPUTER MODELING OF WIND-TURBINE ROTOR AERODYNAMICS AND FLUID–STRUCTURE INTERACTION, Computational thermo-fluid analysis of a disk brake, New directions and challenging computations in fluid dynamics modeling with stabilized and multiscale methods, Multiscale space–time methods for thermo-fluid analysis of a ground vehicle and its tires, An FSI solution technique based on the DSD/SST method and its applications, ALE–VMS formulation for stratified turbulent incompressible flows with applications, Space-time isogeometric analysis of car and tire aerodynamics with road contact and tire deformation and rotation, Space-time method for flow computations with slip interfaces and topology changes (ST-SI-TC), Computational free-surface fluid-structure interaction with application to floating offshore wind turbines, Computational analysis of wind-turbine blade rain erosion, Flow analysis of a wave-energy air turbine with the SUPG/PSPG stabilization and discontinuity-capturing directional dissipation, Ram-air parachute structural and fluid mechanics computations with the space-time isogeometric analysis (ST-IGA), Turbocharger flow computations with the space-time isogeometric analysis (ST-IGA), Computational analysis of flow-driven string dynamics in turbomachinery, Free-surface flow modeling and simulation of horizontal-axis tidal-stream turbines, FSI simulation of two back-to-back wind turbines in atmospheric boundary layer flow, Heart valve flow computation with the integrated space-time VMS, slip interface, topology change and isogeometric discretization methods, Space-time VMS computational flow analysis with isogeometric discretization and a general-purpose NURBS mesh generation method, Engineering analysis and design with ALE-VMS and space-time methods, Aerodynamic and FSI analysis of wind turbines with the ALE-VMS and ST-VMS methods, Isogeometric fluid structure interaction analysis with emphasis on non-matching discretizations, and with application to wind turbines, ST and ALE-VMS methods for patient-specific cardiovascular fluid mechanics modeling, Patient-specific computational analysis of the influence of a stent on the unsteady flow in cerebral aneurysms, A velocity-decomposition formulation for the incompressible Navier-Stokes equations, Ventricle-valve-aorta flow analysis with the space-time isogeometric discretization and topology change, Hydrodynamic effects of mucus on swimming performance of an undulatory foil by using the DSD/SST method, Performance analysis of two vertical-axis hydrokinetic turbines using variational multiscale method, Wind turbine wake computation with the ST-VMS method, isogeometric discretization and multidomain method. I: Computational framework, A numerical formulation for cavitating flows around marine propellers based on variational multiscale method, Space-time computations in practical engineering applications: a summary of the 25-year history, Tire aerodynamics with actual tire geometry, road contact and tire deformation, Computational analysis of noise reduction devices in axial fans with stabilized finite element formulations, Patient-specific computer modeling of blood flow in cerebral arteries with aneurysm and stent, Fluid-structure interaction modeling of wind turbines: simulating the full machine, Space-time computational analysis of bio-inspired flapping-wing aerodynamics of a micro aerial vehicle, Space-time techniques for computational aerodynamics modeling of flapping wings of an actual locust, Porosity models and computational methods for compressible-flow aerodynamics of parachutes with geometric porosity, Computational multi-phase convective conjugate heat transfer on overlapping meshes: a quasi-direct coupling approach via Schwarz alternating method, Carrier-domain method for high-resolution computation of time-periodic long-wake flows, Physics-informed machine learning for surrogate modeling of wind pressure and optimization of pressure sensor placement, Novel structural modeling and mesh moving techniques for advanced fluid-structure interaction simulation of wind turbines, Boundary layer mesh resolution in flow computation with the Space–Time Variational Multiscale method and isogeometric discretization, Flow computation with the Space–Time Isogeometric Analysis and higher-order basis functions in time, Isogeometric large-eddy simulations of turbulent particle-laden flows, High-resolution multi-domain space-time isogeometric analysis of car and tire aerodynamics with road contact and tire deformation and rotation, Revealing aeroelastic effects on low-rise roof structures in turbulent winds via isogeometric fluid-structure interaction, Variational multiscale method stabilization parameter calculated from the strain-rate tensor, Flow Analysis of a Wave-Energy Air Turbine with the SUPG/PSPG Method and DCDD, SUPG/PSPG Computational Analysis of Rain Erosion in Wind-Turbine Blades, Recent Advances in Fluid–Structure Interaction Simulations of Wind Turbines, A conservative and non-dissipative Eulerian formulation for the simulation of soft solids in fluids, Space-time SUPG finite element computation of shallow-water flows with moving shorelines, A parallel sparse algorithm targeting arterial fluid mechanics computations, Space-time interface-tracking with topology change (ST-TC), FSI analysis of the blood flow and geometrical characteristics in the thoracic aorta, A variational multiscale method for particle-cloud tracking in turbomachinery flows, Computational Cardiovascular Analysis with the Variational Multiscale Methods and Isogeometric Discretization, ALE and Space–Time Variational Multiscale Isogeometric Analysis of Wind Turbines and Turbomachinery, Variational Multiscale Flow Analysis in Aerospace, Energy and Transportation Technologies, Compressible-flow geometric-porosity modeling and spacecraft parachute computation with isogeometric discretization, Turbocharger turbine and exhaust manifold flow computation with the space-time variational multiscale method and isogeometric analysis, Mesh refinement influence and cardiac-cycle flow periodicity in aorta flow analysis with isogeometric discretization, Computational methods for parachute fluid-structure interactions, Space-time and ALE-VMS techniques for patient-specific cardiovascular fluid-structure interaction modeling, U-duct turbulent-flow computation with the ST-VMS method and isogeometric discretization, SPACE–TIME VMS METHODS FOR MODELING OF INCOMPRESSIBLE FLOWS AT HIGH REYNOLDS NUMBERS, STRUCTURAL MECHANICS MODELING AND FSI SIMULATION OF WIND TURBINES, A MOVING-MESH GRADIENT SMOOTHING METHOD FOR COMPRESSIBLE CFD PROBLEMS, A COMPRESSIBLE LAGRANGIAN FRAMEWORK FOR MODELING THE FLUID–STRUCTURE INTERACTION IN THE UNDERWATER IMPLOSION OF AN ALUMINUM CYLINDER, Space-time variational multiscale isogeometric analysis of a tsunami-shelter vertical-axis wind turbine, Computer modeling techniques for flapping-wing aerodynamics of a locust, A numerical study of linear and nonlinear kinematic models in fish swimming with the DSD/SST method, Space-time VMS flow analysis of a turbocharger turbine with isogeometric discretization: computations with time-dependent and steady-inflow representations of the intake/exhaust cycle, Space-time computational analysis of tire aerodynamics with actual geometry, road contact, tire deformation, road roughness and fluid film, Gas turbine computational flow and structure analysis with isogeometric discretization and a complex-geometry mesh generation method, A linear-elasticity-based mesh moving method with no cycle-to-cycle accumulated distortion, Machine learning for metal additive manufacturing: predicting temperature and melt pool fluid dynamics using physics-informed neural networks, Space-time VMS computation of wind-turbine rotor and tower aerodynamics, Deforming-spatial-domain/stabilized space-time (DSD/SST) method in computation of non-Newtonian fluid flow and heat transfer with moving boundaries, FSI modeling with the DSD/SST method for the fluid and finite difference method for the structure, Space-time VMS isogeometric analysis of the Taylor-Couette flow, Element-splitting-invariant local-length-scale calculation in B-Spline meshes for complex geometries, Computational analysis methods for complex unsteady flow problems, Methods for computation of flow-driven string dynamics in a pump and residence time, Space–time Isogeometric flow analysis with built-in Reynolds-equation limit, Immersogeometric analysis of compressible flows with application to aerodynamic simulation of rotorcraft, A stabilized ALE method for computational fluid–structure interaction analysis of passive morphing in turbomachinery, Element length calculation in B-spline meshes for complex geometries, Heart valve isogeometric sequentially-coupled FSI analysis with the space-time topology change method, Computational analysis of particle-laden-airflow erosion and experimental verification, A low-distortion mesh moving method based on fiber-reinforced hyperelasticity and optimized zero-stress state

• Space-time FSI modeling and dynamical analysis of spacecraft parachutes and parachute clusters
• Stabilized space-time computation of wind-turbine rotor aerodynamics
• Multiscale space-time fluid-structure interaction techniques
• The bending strip method for isogeometric analysis of Kirchhoff-Love shell structures comprised of multiple patches
• Calculation of the advective limit of the SUPG stabilization parameter for linear and higher-order elements
• Automatic mesh update with the solid-extension mesh moving technique
• On the coupling between fluid flow and mesh motion in the modelling of fluid-structure interaction
• Fluid-structure interaction modeling of ringsail parachutes
• Interface projection techniques for fluid-structure interaction modeling with moving-mesh methods
• A nested iterative scheme for computation of incompressible flows in long domains
• NURBS-based isogeometric analysis for the computation of flows about rotating components
• Modeling of fluid-structure interactions with the space-time finite elements: Contact problems
• Isogeometric fluid-structure interaction: Theory, algorithms, and computations
• Fluid-structure interaction modeling of a patient-specific cerebral aneurysm: influence of structural modeling
• Variational multiscale residual-based turbulence modeling for large eddy simulation of incompressible flows
• Computation of flow problems with the Mixed Interface-tracking/Interface-Capturing Technique (MITICT)
• Finite element computation of turbulent flows with the discontinuity-capturing directional dissipation (DCDD)
• Fluid--structure interaction analysis of the two-dimensional flag-in-wind problem by an interface-tracking ALE finite element method
• Influence of wall elasticity in patient-specific hemodynamic simulations
• Isogeometric analysis: CAD, finite elements, NURBS, exact geometry and mesh refinement
• Large eddy simulation of turbulent Taylor-Couette flow using isogeometric analysis and the residual-based variational multiscale method
• A fully-coupled fluid-structure interaction simulation of cerebral aneurysms
• Multiscale sequentially-coupled arterial FSI technique
• Wall shear stress calculations in space-time finite element computation of arterial fluid-structure interactions
• Solution of linear systems in arterial fluid mechanics computations with boundary layer mesh refinement
• Role of 0D peripheral vasculature model in fluid-structure interaction modeling of aneurysms
• A DRD finite element formulation for computing turbulent reacting flows in gas turbine combustors
• Solution techniques for the fully discretized equations in computation of fluid-structure interactions with the space-time formulations
• Compressible flow SUPG stabilization parameters computed from degree-of-freedom submatrices
• Improved discontinuity-capturing finite element techniques for reaction effects in turbulence computation
• A multiscale/stabilized formulation of the incompressible Navier-Stokes equations for moving boundary flows and fluid-structure interaction
• Fluid-structure interaction modeling of aneurysmal conditions with high and normal blood pressures
• Isogeometric fluid-structure interaction analysis with applications to arterial blood flow
• Computation of free-surface flows and fluid-object interactions with the CIP method based on adaptive meshless soroban grids
• Sequentially-coupled arterial fluid-structure interaction (SCAFSI) technique
• Patient-specific isogeometric fluid-structure interaction analysis of thoracic aortic blood flow due to implantation of the Jarvik 2000 left ventricular assist device
• Fluid-structure interaction modeling of blood flow and cerebral aneurysm: significance of artery and aneurysm shapes
• Computational fluid-structure interaction: methods and application to a total cavopulmonary connection
• Finite elements in fluids: stabilized formulations and moving boundaries and interfaces
• Discontinuity-capturing finite element formulations for nonlinear convection-diffusion-reaction equations
• Lagrangian-Eulerian finite element formulation for incompressible viscous flows
• Streamline upwind/Petrov-Galerkin formulations for convection dominated flows with particular emphasis on the incompressible Navier-Stokes equations
• Incompressible flow computations with stabilized bilinear and linear equal-order-interpolation velocity-pressure elements
• A new strategy for finite element computations involving moving boundaries and interfaces --- The deforming-spatial-domain/space-time procedure. I: The concept and the preliminary numerical tests
• A new strategy for finite element computations involving moving boundaries and interfaces --- The deforming-spatial-domain/space-time procedure. II: Computation of free-surface flows, two-liquid flows, and flows with drifting cylinders
• Computation of incompressible flows with implicit finite element implementations on the Connection Machine
• Flow simulation and high performance computing
• A parallel 3D computational method for fluid-structure interactions in parachute systems
• Parachute fluid-structure interactions: 3-D computation
• Finite element stabilization parameters computed from element matrices and vectors
• Advanced mesh generation and update methods for 3D flow simulations
• Massively parallel finite element computation of incompressible flows involving fluid-body interactions
• Massively parallel finite element simulation of compressible and incompressible flows
• The shear-slip mesh update method
• Enhanced-discretization interface-capturing technique (EDICT) for computation of unsteady flows with interfaces
• Computer modeling of cardiovascular fluid-structure interactions with the deforming-spatial-domain/stabilized space-time formulation
• Improving stability of stabilized and multiscale formulations in flow simulations at small time steps
• Space-time finite element techniques for computation of fluid-structure interactions
• Multiscale phenomena: Green's functions, the Dirichlet-to-Neumann formulation, subgrid scale models, bubbles and the origins of stabilized methods
• Space-time fluid-structure interaction modeling of patient-specific cerebral aneurysms
• Space-time finite element computation of complex fluid-structure interactions
• Nested and parallel sparse algorithms for arterial fluid mechanics computations with boundary layer mesh refinement
• 3D simulation of wind turbine rotors at full scale. Part I: Geometry modeling and aerodynamics
• 3D simulation of wind turbine rotors at full scale. Part II: Fluid-structure interaction modeling with composite blades
• Stabilized finite element computation of NOx emission in aero-engine combustors
• Fluid-structure interaction modeling and performance analysis of the Orion spacecraft parachutes
• Fluid-structure interaction modeling of parachute clusters
• Patient-specific arterial fluid-structure interaction modeling of cerebral aneurysms
• Space-time finite element computation of arterial fluid-structure interactions with patient-specific data
• Stabilization Parameters and Smagorinsky Turbulence Model
• Mesh Moving Techniques for Fluid-Structure Interactions With Large Displacements
• Arterial fluid mechanics modeling with the stabilized space–time fluid–structure interaction technique
• Large eddy simulation of turbulent channel flows by the variational multiscale method
• GMRES: A Generalized Minimal Residual Algorithm for Solving Nonsymmetric Linear Systems
• Stabilized Finite Element Formulations for Incompressible Flow Computations
• A Fast and High Quality Multilevel Scheme for Partitioning Irregular Graphs
• Computation of moving boundaries and interfaces and stabilization parameters
• Parallel fluid dynamics computations in aerospace applications
• Parallel finite element simulation of 3D incompressible flows: Fluid‐structure interactions
• Computation of fluid–solid and fluid–fluid interfaces with the CIP method based on adaptive Soroban grids—An overview
• Modelling of fluid–structure interactions with the space–time finite elements: Solution techniques
• Modelling of fluid–structure interactions with the space–time finite elements: Arterial fluid mechanics
• Numerical investigation of the effect of hypertensive blood pressure on cerebral aneurysm—Dependence of the effect on the aneurysm shape
• Ship hydrodynamics computations with the CIP method based on adaptive Soroban grids
• A Numerical model based on the mixed interface‐tracking/interface‐capturing technique (MITICT) for flows with fluid–solid and fluid–fluid interfaces
• Influence of wall thickness on fluid–structure interaction computations of cerebral aneurysms
• On the Nonnormality of Subiteration for a Fluid-Structure-Interaction Problem
• Compressible flow SUPG parameters computed from element matrices
• Reduced symmetric models for modal analysis of internal structural-acoustic and hydroelastic-sloshing systems
• Shear-slip mesh update in 3D computation of complex flow problems with rotating mechanical components
• Finite element methods for flow problems with moving boundaries and interfaces
• Fluid-structure interactions of a cross-parachute: Numerical simulation
• Fluid-structure interactions of a parachute crossing the fair wake of an aircraft