If you made any changes in Pure these will be visible here soon.

Research Output 2001 2019

246 Citations (Scopus)

3D simulation of wind turbine rotors at full scale. Part I: Geometry modeling and aerodynamics

Bazilevs, Y., Hsu, M. C., Akkerman, I., Wright, S., Takizawa, K., Henicke, B., Spielman, T. & Tezduyar, T. E., 2011 Jan, In : International Journal for Numerical Methods in Fluids. 65, 1-3, p. 207-235 29 p.

Research output: Contribution to journalArticle

Wind Turbine
Aerodynamics
Wind turbines
Rotor
Rotors
36 Citations (Scopus)
Fluid structure interaction
fluids
Flow simulation
interactions
shear stress
75 Citations (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, In : Archives of Computational Methods in Engineering. 21, 4, p. 359-398 40 p.

Research output: Contribution to journalArticle

Wind Turbine
Aerodynamics
Wind turbines
Rotors
Rotor
15 Citations (Scopus)

A general-purpose NURBS mesh generation method for complex geometries

Otoguro, Y., Takizawa, K. & Tezduyar, T. E., 2018 Jan 1, Modeling and Simulation in Science, Engineering and Technology. Springer Basel, p. 399-434 36 p. (Modeling and Simulation in Science, Engineering and Technology).

Research output: Chapter in Book/Report/Conference proceedingChapter

NURBS
Mesh generation
Mesh Generation
Complex Geometry
Computational Analysis
17 Citations (Scopus)

A geometrical-characteristics study in patient-specific FSI analysis of blood flow in the thoracic aorta

Suito, H., Takizawa, K., Huynh, V. Q. H., Sze, D., Ueda, T. & Tezduyar, T. E., 2016, In : Modeling and Simulation in Science, Engineering and Technology. p. 379-386 8 p.

Research output: Contribution to journalArticle

Aorta
Fluid structure interaction
Blood Flow
Wall Shear Stress
Blood
123 Citations (Scopus)
Variational multiscale Method
Computer Modeling
Fluid structure interaction
Wind Turbine
Aerodynamics
1 Citation (Scopus)

A new paradigm of computer graphics by universal solver for solid, liquid and gas

Yabe, T., Takizawa, K., Xiao, F., Aoki, T., Himeno, T., Takahashi, T. & Kunimatsu, A., 2004 Nov, In : JSME International Journal, Series B: Fluids and Thermal Engineering. 47, 4, p. 656-663 8 p.

Research output: Contribution to journalArticle

computer graphics
Computer graphics
Gases
Liquids
liquids
15 Citations (Scopus)

Aorta flow analysis and heart valve flow and structure analysis

Takizawa, K., Tezduyar, T. E., Uchikawa, H., Terahara, T., Sasaki, T., Shiozaki, K., Yoshida, A., Komiya, K. & Inoue, G., 2018 Jan 1, Modeling and Simulation in Science, Engineering and Technology. Springer Basel, p. 29-89 61 p. (Modeling and Simulation in Science, Engineering and Technology).

Research output: Chapter in Book/Report/Conference proceedingChapter

Aorta
Isogeometric Analysis
Moving Mesh
Slip
Topology
9 Citations (Scopus)

Aorta modeling with the element-based zero-stress state and isogeometric discretization

Takizawa, K., Tezduyar, T. E. & Sasaki, T., 2016 Nov 5, (Accepted/In press) In : Computational Mechanics. p. 1-16 16 p.

Research output: Contribution to journalArticle

Aorta
Straight
Tube
Discretization
Zero
7 Citations (Scopus)

Aorta zero-stress state modeling with T-spline discretization

Sasaki, T., Takizawa, K. & Tezduyar, T. E., 2018 Jan 1, (Accepted/In press) In : Computational Mechanics.

Research output: Contribution to journalArticle

Aorta
Splines
Spline
Discretization
Guess
31 Citations (Scopus)

A parallel sparse algorithm targeting arterial fluid mechanics computations

Manguoglu, M., Takizawa, K., Sameh, A. H. & Tezduyar, T. E., 2011 Sep, In : Computational Mechanics. 48, 3, p. 377-384 8 p.

Research output: Contribution to journalArticle

Fluid Mechanics
Fluid mechanics
Fluid
Block Structure
Wall Shear Stress
6 Citations (Scopus)
Eulerian-Lagrangian Methods
Turbomachinery
Morphing
Fluid structure interaction
Petrov-Galerkin
36 Citations (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 Oct 8, In : Computational Mechanics. 54, 5, p. 1191-1202 12 p.

Research output: Contribution to journalArticle

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

Biomedical fluid mechanics and fluid–structure interaction

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

Research output: Contribution to journalArticle

Fluid structure interaction
Fluid Mechanics
Fluid mechanics
Fluid
Interaction
7 Citations (Scopus)

Bringing tsheamf edloywn

Takizawa, K. & Tezduyar, T. E., 2012 Dec 1, Mechanical Engineering, 134, 12, p. 34-37 4 p.

Research output: Contribution to specialist publicationArticle

17 Citations (Scopus)

Challenge of CIP as a universal solver for solid, liquid and gas

Yabe, T., Takizawa, K., Chino, M., Imai, M. & Chu, C. C., 2005 Feb 28, In : International Journal for Numerical Methods in Fluids. 47, 6-7, p. 655-676 22 p.

Research output: Contribution to journalArticle

laser cutting
compressible fluids
incompressible flow
Incompressible flow
fishes
86 Citations (Scopus)

Challenges and directions in computational fluid-structure interaction

Bazilevs, Y., Takizawa, K. & Tezduyar, T. E., 2013 Feb, In : Mathematical Models and Methods in Applied Sciences. 23, 2, p. 215-221 7 p.

Research output: Contribution to journalArticle

Fluid structure interaction
Fluid
Interaction
Moving Mesh Method
Moving Mesh

Comparative patient-specific fsi modeling of cerebral aneurysms

Takizawa, K., Brummer, T., Tezduyar, T. E. & Chen, P. R., 2011, Proceedings of the 4th International Conference on Computational Methods for Coupled Problems in Science and Engineering, COUPLED PROBLEMS 2011. p. 590-599 10 p.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Cerebral Aneurysm
Flow simulation
Shear stress
Modeling
Wall Shear Stress
16 Citations (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 Jul 2, (Accepted/In press) In : Computational Mechanics. p. 1-21 21 p.

Research output: Contribution to journalArticle

Parachutes
Compressible flow
Compressible Flow
Porosity
Spacecraft
5 Citations (Scopus)
Fluid structure interaction
Computational Analysis
Unsteady Flow
Unsteady flow
Fluid Dynamics
6 Citations (Scopus)

Computational analysis of flow-driven string dynamics in a pump and residence time calculation

Komiya, K., Kanai, T., Otoguro, Y., Kaneko, M., Hirota, K., Zhang, Y., Takizawa, K., Tezduyar, T. E., Nohmi, M., Tsuneda, T., Kawai, M. & Isono, M., 2019 Mar 28, In : IOP Conference Series: Earth and Environmental Science. 240, 6, 062014.

Research output: Contribution to journalConference article

Open Access
residence time
pump
geometry
fluid mechanics
analysis
41 Citations (Scopus)

Computational analysis of flow-driven string dynamics in turbomachinery

Takizawa, K., Tezduyar, T. E. & Hattori, H., 2015 Dec 22, (Accepted/In press) In : Computers and Fluids.

Research output: Contribution to journalArticle

Turbomachinery
Fans
Fluid dynamics
Turbulence models
Ducts
7 Citations (Scopus)

Computational analysis of performance deterioration of a wind turbine blade strip subjected to environmental erosion

Castorrini, A., Corsini, A., Rispoli, F., Venturini, P., Takizawa, K. & Tezduyar, T. E., 2019 Jan 1, In : Computational Mechanics.

Research output: Contribution to journalArticle

Turbine Blade
Computational Analysis
Wind Turbine
Erosion
Deterioration
29 Citations (Scopus)

Computational analysis of wind-turbine blade rain erosion

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

Research output: Contribution to journalArticle

Wind turbines
Turbomachine blades
Rain
Erosion
Stabilization
4 Citations (Scopus)

Computational engineering analysis and design with ALE-VMS and ST methods

Takizawa, K., Bazilevs, Y., Tezduyar, T. E., Hsu, M. C., Øiseth, O., Mathisen, K. M., Kostov, N. & McIntyre, S., 2014, Computational Methods in Applied Sciences. Springer Netherland, Vol. 33. p. 321-353 33 p. (Computational Methods in Applied Sciences; vol. 33).

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Fluid structure interaction
Engineering
Fluid
Interaction
Aerodynamics
65 Citations (Scopus)

Computational engineering analysis with the new-generation space-time methods

Takizawa, K., 2014, In : Computational Mechanics. 54, 2, p. 193-211 19 p.

Research output: Contribution to journalArticle

Aerodynamics
Space-time
Engineering
Fluid mechanics
Wind turbines
1 Citation (Scopus)

Computational fluid mechanics and fluid-structure interaction

Takizawa, K., Bazilevs, Y. & Tezduyar, T. E., 2012, In : Computational Mechanics. 50, 6, p. 665 1 p.

Research output: Contribution to journalArticle

Computational mechanics
Computational Mechanics
Fluid structure interaction
Fluid Mechanics
Fluid mechanics
264 Citations (Scopus)
Fluid structure interaction
Computational mechanics
Mechanics
Fluids
Parachutes
1 Citation (Scopus)

Computational Fluid–Structure Interaction and Flow Simulation

Bazilevs, Y. & Takizawa, K., 2016 Dec 15, In : Computers and Fluids. 141, p. 1 1 p.

Research output: Contribution to journalEditorial

Fluid structure interaction
Flow simulation
117 Citations (Scopus)

Computational Methods for Parachute Fluid-Structure Interactions

Takizawa, K. & Tezduyar, T. E., 2012 Mar, In : Archives of Computational Methods in Engineering. 19, 1, p. 125-169 45 p.

Research output: Contribution to journalArticle

Parachutes
Fluid structure interaction
Computational methods
Computational Methods
Flow simulation
42 Citations (Scopus)

Computational thermo-fluid analysis of a disk brake

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

Research output: Contribution to journalArticle

Brakes
Fluid
Fluids
Heat Transfer Coefficient
Heat conduction

Computational wind-turbine analysis with the ALE-VMS and ST-VMS methods

Bazilevs, Y., Takizawa, K., Tezduyar, T. E., Hsu, M. C., Kostov, N. & McIntyre, S., 2014, Computational Methods in Applied Sciences. Springer Netherland, Vol. 33. p. 355-386 32 p. (Computational Methods in Applied Sciences; vol. 33).

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Wind Turbine
Wind turbines
Rotors
Rotor
Arbitrary
20 Citations (Scopus)
Adaptive Grid
Particle Method
grids
Grid
Fluid
61 Citations (Scopus)

Computation of free-surface flows and fluid-object interactions with the CIP method based on adaptive meshless soroban grids

Takizawa, K., Yabe, T., Tsugawa, Y., Tezduyar, T. E. & Mizoe, H., 2007 Jun, In : Computational Mechanics. 40, 1, p. 167-183 17 p.

Research output: Contribution to journalArticle

Free Surface Flow
Meshless
Grid
Fluid
Fluids
4 Citations (Scopus)

Computer modeling and analysis of the Orion spacecraft parachutes

Takizawa, K., Moorman, C., Wright, S. & Tezduyar, T. E., 2010, Lecture Notes in Computational Science and Engineering. Vol. 73 LNCSE. p. 53-81 29 p. (Lecture Notes in Computational Science and Engineering; vol. 73 LNCSE).

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Parachutes
Computer Modeling
Spacecraft
Fluid structure interaction
Fluid
12 Citations (Scopus)

Computer Modeling of Wind Turbines: 1. ALE-VMS and ST-VMS Aerodynamic and FSI Analysis

Korobenko, A., Bazilevs, Y., Takizawa, K. & Tezduyar, T. E., 2018 Jan 1, (Accepted/In press) In : Archives of Computational Methods in Engineering.

Research output: Contribution to journalArticle

Computer Modeling
Wind Turbine
Aerodynamics
Wind turbines
Interaction
62 Citations (Scopus)

Computer modeling techniques for flapping-wing aerodynamics of a locust

Takizawa, K., Henicke, B., Puntel, A., Kostov, N. & Tezduyar, T. E., 2013 Oct 1, In : Computers and Fluids. 85, p. 125-134 10 p.

Research output: Contribution to journalArticle

Aerodynamics
Video recording
Wind tunnels
Cameras
20 Citations (Scopus)

Conservative form of interpolated differential operator scheme for compressible and incompressible fluid dynamics

Imai, Y., Aoki, T. & Takizawa, K., 2008 Feb 1, In : Journal of Computational Physics. 227, 4, p. 2263-2285 23 p.

Research output: Contribution to journalArticle

compressible fluids
differential operators
incompressible fluids
fluid dynamics
Fluid dynamics
26 Citations (Scopus)

Coronary arterial dynamics computation with medical-image-based time-dependent anatomical models and element-based zero-stress state estimates

Takizawa, K., Torii, R., Takagi, H., Tezduyar, T. E. & Xu, X. Y., 2014 Oct 1, In : Computational Mechanics. 54, 4, p. 1047-1053 7 p.

Research output: Contribution to journalArticle

Medical Image
Zero
Estimate
Atherosclerosis
Prestress
76 Citations (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, In : Archives of Computational Methods in Engineering. 21, 4, p. 481-508 28 p.

Research output: Contribution to journalArticle

Aerodynamics
Parachutes
Space-time
Engineering
Wind turbines
1 Citation (Scopus)
Semi-Lagrangian
Hyperbolic Equations
Physics
26 Citations (Scopus)

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

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

Research output: Contribution to journalArticle

Straight
Configuration
Tube
Zero
Interaction
8 Citations (Scopus)

Estimation of element-based zero-stress state in arterial FSI computations with isogeometric wall discretization

Takizawa, K., Tezduyar, T. E. & Sasaki, T., 2018, Lecture Notes in Applied and Computational Mechanics. Springer Verlag, Vol. 84. p. 101-122 22 p. (Lecture Notes in Applied and Computational Mechanics; vol. 84).

Research output: Chapter in Book/Report/Conference proceedingChapter

Iterative methods
Fluid structure interaction
Geometry
108 Citations (Scopus)

Exactly conservative semi-Lagrangian scheme for multi-dimensional hyperbolic equations with directional splitting technique

Nakamura, T., Tanaka, R., Yabe, T. & Takizawa, K., 2001 Nov 20, In : Journal of Computational Physics. 174, 1, p. 171-207 37 p.

Research output: Contribution to journalArticle

Conservation
Interpolation
interpolation
conservation
profiles
1 Citation (Scopus)

Experimental research on rotating skimmer

Chino, M., Takizawa, K. & Yabe, T., 2003, Proceedings of the ASME/JSME Joint Fluids Engineering Conference. Ogut, A., Tsuji, Y., Kawahashi, M., Ogut, A., Tsuji, Y. & Kawahashi, M. (eds.). Vol. 1 A. p. 515-518 4 p.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Fluid structure interaction

Finite elements in flow problems 2015

Lin, C. A., Bazilevs, Y., van Brummelen, H., Takizawa, K. & Wu, J. S., 2016 Oct 1, In : Computers and Mathematics with Applications. 72, 8, p. 1957-1958 2 p.

Research output: Contribution to journalEditorial

Finite Element

Finite elements in flow problems 2015, Taiwan

Lin, C. A., Bazilevs, Y., Brummelen, E. H., Chen, C. Y. & Takizawa, K., 2017 Jan 5, In : Computers and Fluids. 142, p. 1-2 2 p.

Research output: Contribution to journalEditorial

1 Citation (Scopus)

Fluid–structure interaction

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

Research output: Contribution to journalArticle

Fluid structure interaction
Fluid
Interaction
68 Citations (Scopus)

Fluid-structure interaction modeling and performance analysis of the Orion spacecraft parachutes

Takizawa, K., Moorman, C., Wright, S., Spielman, T. & Tezduyar, T. E., 2011 Jan, In : International Journal for Numerical Methods in Fluids. 65, 1-3, p. 271-285 15 p.

Research output: Contribution to journalArticle

Parachutes
Fluid structure interaction
Spacecraft
Performance Analysis
Fluid
64 Citations (Scopus)

Fluid-structure interaction modeling of clusters of spacecraft parachutes with modified geometric porosity

Takizawa, K., Tezduyar, T. E., Boben, J., Kostov, N., Boswell, C. & Buscher, A., 2013 Dec, In : Computational Mechanics. 52, 6, p. 1351-1364 14 p.

Research output: Contribution to journalArticle

Parachutes
Fluid structure interaction
Porosity
Spacecraft
Fluid