テズドゥヤー タイフン

教授(任期付)

  • 18885 引用
  • 77 h指数
1981 …2019
Pureに変更を加えた場合、すぐここに表示されます。

研究成果 1981 2019

フィルター
Article
2019
6 引用 (Scopus)
Eulerian-Lagrangian Methods
Turbomachinery
Morphing
Fluid structure interaction
Petrov-Galerkin
5 引用 (Scopus)
Fluid structure interaction
Computational Analysis
Unsteady Flow
Unsteady flow
Fluid Dynamics
7 引用 (Scopus)
Turbine Blade
Computational Analysis
Wind Turbine
Erosion
Deterioration
7 引用 (Scopus)
公開
Aorta
State Estimation
State estimation
Medical Image
Discretization
10 引用 (Scopus)

Methods for computation of flow-driven string dynamics in a pump and residence time

Kanai, T., Takizawa, K., Tezduyar, T. E., Komiya, K., Kaneko, M., Hirota, K., Nohmi, M., Tsuneda, T., Kawai, M. & Isono, M., 2019 1 1, : : Mathematical Models and Methods in Applied Sciences.

研究成果: Article

Residence Time
Pump
Strings
Pumps
NURBS
6 引用 (Scopus)
Reynolds equation
Reynolds Equation
Space-time
Fluid dynamics
Lubrication
13 引用 (Scopus)
公開
Tire
Tires
Aerodynamics
Space-time
Contact
2018
7 引用 (Scopus)
Aorta
Splines
Spline
Discretization
Guess
16 引用 (Scopus)

Compressible-flow geometric-porosity modeling and spacecraft parachute computation with isogeometric discretization

Kanai, T., Takizawa, K., Tezduyar, T. E., Tanaka, T. & Hartmann, A., 2018 7 2, (Accepted/In press) : : Computational Mechanics. p. 1-21 21 p.

研究成果: Article

Parachutes
Compressible flow
Compressible Flow
Porosity
Spacecraft
12 引用 (Scopus)
Computer Modeling
Wind Turbine
Aerodynamics
Wind turbines
Interaction
9 引用 (Scopus)
Shell
Curvature
Fluid
Shell Theory
Shell Structure
16 引用 (Scopus)

Mesh refinement influence and cardiac-cycle flow periodicity in aorta flow analysis with isogeometric discretization

Takizawa, K., Tezduyar, T. E., Uchikawa, H., Terahara, T., Sasaki, T. & Yoshida, A., 2018 1 1, (Accepted/In press) : : Computers and Fluids.

研究成果: Article

Unsteady flow
Computational methods
Geometry
13 引用 (Scopus)
Engineering Application
Space-time
Cerebral Aneurysm
Exhaust manifolds
Parachutes
19 引用 (Scopus)
Discontinuity
Stabilization
Incompressible flow
Discretization
Space-time
18 引用 (Scopus)
Exhaust manifolds
Turbines
Mesh generation
Rotors
Geometry
2017
Purification
Vortex flow
Water
26 引用 (Scopus)
Parachutes
Compressible flow
Compressible Flow
Computational methods
Porosity
35 引用 (Scopus)
Mesh generation
Fluid mechanics
Exhaust manifolds
Turbines
Recovery
2016
17 引用 (Scopus)
Aorta
Fluid structure interaction
Blood Flow
Wall Shear Stress
Blood
9 引用 (Scopus)
Aorta
Straight
Tube
Discretization
Zero
29 引用 (Scopus)

Computational analysis of wind-turbine blade rain erosion

Castorrini, A., Corsini, A., Rispoli, F., Venturini, P., Takizawa, K. & Tezduyar, T. E., 2016 12 15, : : Computers and Fluids. 141, p. 175-183 9 p.

研究成果: Article

Wind turbines
Turbomachine blades
Rain
Erosion
Stabilization
42 引用 (Scopus)

Computational thermo-fluid analysis of a disk brake

Takizawa, K., Tezduyar, T. E., Kuraishi, T., Tabata, S. & Takagi, H., 2016 2 15, (Accepted/In press) : : Computational Mechanics. p. 1-13 13 p.

研究成果: Article

Brakes
Fluid
Fluids
Heat Transfer Coefficient
Heat conduction
2 引用 (Scopus)

Flow analysis of a wave-energy air turbine with the SUPG/PSPG method and DCDD

Cardillo, L., Corsini, A., Delibra, G., Rispoli, F. & Tezduyar, T. E., 2016, : : Modeling and Simulation in Science, Engineering and Technology. p. 39-53 15 p.

研究成果: Article

Compressed air motors
Petrov-Galerkin Method
Petrov-Galerkin
Galerkin methods
Turbine
6 引用 (Scopus)

Flow analysis of a wave-energy air turbine with the SUPG/PSPG stabilization and Discontinuity-Capturing Directional Dissipation

Cardillo, L., Corsini, A., Delibra, G., Rispoli, F. & Tezduyar, T. E., 2016 12 15, : : Computers and Fluids. 141, p. 184-190 7 p.

研究成果: Article

Compressed air motors
Stabilization
Turbines
Turbomachinery
Incompressible flow
37 引用 (Scopus)
Topology
Boundary layers
16 引用 (Scopus)
Fluid mechanics
Computational methods
Computational Methods
Space-time
Topology
36 引用 (Scopus)
Parachutes
Fluid mechanics
Air
Mesh generation
Porosity
37 引用 (Scopus)
Topology
Boundary layers
Computational methods
Tires
Turbulence
10 引用 (Scopus)

SUPG/PSPG computational analysis of rain erosion in wind-turbine blades

Castorrini, A., Corsini, A., Rispoli, F., Venturini, P., Takizawa, K. & Tezduyar, T. E., 2016, : : Modeling and Simulation in Science, Engineering and Technology. p. 77-96 20 p.

研究成果: Article

Turbine Blade
Computational Analysis
Wind Turbine
Erosion
Wind turbines
2015
41 引用 (Scopus)
Turbomachinery
Fans
Fluid dynamics
Turbulence models
Ducts
1 引用 (Scopus)

Fluid–structure interaction

Bazilevs, Y., Takizawa, K. & Tezduyar, T. E., 2015 5 10, : : Computational Mechanics. 55, 6, p. 1057-1058 2 p.

研究成果: Article

Fluid structure interaction
Fluid
Interaction
58 引用 (Scopus)
Ground vehicles
Tire
Tires
Space-time
Fluid
50 引用 (Scopus)
Stabilized Methods
Multiscale Methods
Dynamic Modeling
Fluid Dynamics
Fluid dynamics
40 引用 (Scopus)

Particle tracking and particle–shock interaction in compressible-flow computations with the V-SGS stabilization and (Formula presented.)shock-capturing

Rispoli, F., Delibra, G., Venturini, P., Corsini, A., Saavedra, R. & Tezduyar, T. E., 2015 6 15, : : Computational Mechanics. 55, 6, p. 1201-1209 9 p.

研究成果: Article

Shock Capturing
Particle Tracking
Compressible flow
Compressible Flow
Stabilization
60 引用 (Scopus)
Computational Analysis
Aerodynamics
Space-time
Antennas
Moving Interface
57 引用 (Scopus)

Space-time VMS method for flow computations with slip interfaces (ST-SI)

Takizawa, K., Tezduyar, T. E., Mochizuki, H., Hattori, H., Mei, S., Pan, L. & Montel, K., 2015 11 26, : : Mathematical Models and Methods in Applied Sciences. 25, 12, p. 2377-2406 30 p.

研究成果: Article

Slip
Space-time
Wind turbines
Fluids
Boundary layers
44 引用 (Scopus)
Geometry
Computational efficiency
Turbulence models
Compressors
Boundary layers
2014
75 引用 (Scopus)

Aerodynamic and FSI Analysis of Wind Turbines with the ALE-VMS and ST-VMS Methods

Bazilevs, Y., Takizawa, K., Tezduyar, T. E., Hsu, M. C., Kostov, N. & McIntyre, S., 2014, : : Archives of Computational Methods in Engineering. 21, 4, p. 359-398 40 p.

研究成果: Article

Wind Turbine
Aerodynamics
Wind turbines
Rotors
Rotor
36 引用 (Scopus)

A variational multiscale method for particle-cloud tracking in turbomachinery flows

Corsini, A., Rispoli, F., Sheard, A. G., Takizawa, K., Tezduyar, T. E. & Venturini, P., 2014 10 8, : : Computational Mechanics. 54, 5, p. 1191-1202 12 p.

研究成果: Article

Variational multiscale Method
Turbomachinery
Fans
Computational methods
Petrov-Galerkin
1 引用 (Scopus)

Biomedical fluid mechanics and fluid–structure interaction

Bazilevs, Y., Takizawa, K. & Tezduyar, T. E., 2014 10 1, : : Computational Mechanics. 54, 4, p. 893 1 p.

研究成果: Article

Fluid structure interaction
Fluid Mechanics
Fluid mechanics
Fluid
Interaction
26 引用 (Scopus)
Medical Image
Zero
Estimate
Atherosclerosis
Prestress
76 引用 (Scopus)

Engineering Analysis and Design with ALE-VMS and Space–Time Methods

Takizawa, K., Bazilevs, Y., Tezduyar, T. E., Hsu, M. C., Øiseth, O., Mathisen, K. M., Kostov, N. & McIntyre, S., 2014, : : Archives of Computational Methods in Engineering. 21, 4, p. 481-508 28 p.

研究成果: Article

Aerodynamics
Parachutes
Space-time
Engineering
Wind turbines
26 引用 (Scopus)

Estimation of element-based zero-stress state for arterial FSI computations

Takizawa, K., Takagi, H., Tezduyar, T. E. & Torii, R., 2014 10 1, : : Computational Mechanics. 54, 4, p. 895-910 16 p.

研究成果: Article

Straight
Configuration
Tube
Zero
Interaction
3 引用 (Scopus)
Mesh generation
Fluid mechanics
Flow simulation
Shear stress
Boundary conditions
42 引用 (Scopus)

FSI modeling of the Orion spacecraft drogue parachutes

Takizawa, K., Tezduyar, T. E. & Kolesar, R., 2014 12 23, : : Computational Mechanics. 55, 6, p. 1167-1179 13 p.

研究成果: Article

Parachutes
Spacecraft
Modeling
Cable
Space-time
56 引用 (Scopus)

FSI modeling of the reefed stages and disreefing of the Orion spacecraft parachutes

Takizawa, K., Tezduyar, T. E., Boswell, C., Kolesar, R. & Montel, K., 2014 10 8, : : Computational Mechanics. 54, 5, p. 1203-1220 18 p.

研究成果: Article

Parachutes
Spacecraft
Porosity
Interaction
Modeling
44 引用 (Scopus)

Multiscale methods for gore curvature calculations from FSI modeling of spacecraft parachutes

Takizawa, K., Tezduyar, T. E., Kolesar, R., Boswell, C., Kanai, T. & Montel, K., 2014, : : Computational Mechanics. 54, 6, p. 1461-1476 16 p.

研究成果: Article

Parachutes
Multiscale Methods
Spacecraft
Curvature
Interaction
72 引用 (Scopus)
Fluid structure interaction
Aerodynamics
Space-time
Antennas
Fluid