Tags: CFD

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Resources (1-11 of 11)

  1. Simulations, data, and scripts for Hydrodynamics of bubble flow through a porous medium with applications to packed bed reactors

    2023-12-15 00:24:14 | Datasets | Contributor(s): Pranay Praveen Nagrani, Amy M Marconnet, Ivan C. Christov | doi:10.4231/2H02-XA61

    Zip files containing simulations, data, and post-processing scripts, used to generate the figures in the manuscript "Hydrodynamics of bubble flow through a porous medium with applications to packed bed reactors" by Nagrani, Marconnet...

    https://purr.purdue.edu/publications/4346

  2. MATLAB scripts and SimVascular case files for "Oscillatory flows in compliant conduits at arbitrary Womersley number"

    2023-10-04 18:11:06 | Datasets | Contributor(s): Shrihari Dhananjay Pande, Xiaojia Wang, Ivan C. Christov | doi:10.4231/SW73-D037

    Zip file with codes and data to make the plots in the manuscript "Oscillatory flows in compliant conduits at arbitrary Womersley number" by Pande, Wang & Christov (2023).

    https://purr.purdue.edu/publications/4395

  3. Simulations, data, and scripts for Hydrodynamics of bubble flow through a porous medium with applications to packed bed reactors

    2023-08-30 22:18:22 | Datasets | Contributor(s): Pranay Praveen Nagrani, Amy M Marconnet, Ivan C. Christov | doi:10.4231/2H02-XA61

    Zip files containing simulations, data, and post-processing scripts, used to generate the figures in the manuscript "Hydrodynamics of bubble flow through a porous medium with applications to packed bed reactors" by Nagrani, Marconnet...

    https://purr.purdue.edu/publications/4346

  4. Jupyter notebook and SimVascular case files for "Flow rate--pressure drop relations for slender compliant tubes"

    2022-11-22 16:23:57 | Datasets | Contributor(s): Xiaojia Wang, Shrihari Dhananjay Pande, Ivan C. Christov | doi:10.4231/6GGC-ZH07

    The Jupyter Notebook makes the plots in the manuscript "Flow rate--pressure drop relations for new configurations of slender compliant tubes arising in microfluidics experiments" by Wang, Pande & Christov (2022). Zip file provides SimVascular case files.

    https://purr.purdue.edu/publications/4055

  5. A multi-modality approach for enhancing 4D flow MRI via sparse representation

    2021-09-22 01:12:27 | Datasets | Contributor(s): Jiacheng Zhang, Melissa Brindise, Sean Rothenberger, Michael Markl, Vitaliy Rayz, Pavlos Vlachos | doi:10.4231/FB9P-5991

    Data and source code to enhance the blood flow measurements and the hemodynamic analysis with 4D flow MRI in cerebral aneurysms using multi-modality data and sparse representation.

    https://purr.purdue.edu/publications/3872

  6. In vitro CFD, MRI, STB Series

    2019-11-01 21:31:58 | Datasets | Contributor(s): Melissa Brindise, Sean Rothenberger, Benjamin Dickerhoff, Susanne Schnell, Michael Markl, David Saloner, Vitaliy Rayz, Pavlos Vlachos | doi:10.4231/ZP8A-2G12

    Data from a pulsatile volumetric particle velocimetry study using two patient-specific cerebral aneurysm models, processed using Shake the Box (STB). Associated in vivo MRI and CFD datasets are also provided.

    https://purr.purdue.edu/publications/3322

  7. In vitro Volumetric Particle Velocimetry, Computational Fluid Dynamics (CFD), and in vivo 4D Flow MRI Hemodynamic Data in Two Patient-Specific Cerebral Aneurysms - STB

    2019-11-01 21:06:23 | Datasets | Contributor(s): Melissa Brindise, Sean Rothenberger, Benjamin Dickerhoff, Susanne Schnell, Michael Markl, David Saloner, Vitaliy Rayz, Pavlos Vlachos | doi:10.4231/FNF9-E631

    In vitro STB dataset from a pulsatile volumetric particle velocimetry study using two patient-specific cerebral aneurysm models.

    https://purr.purdue.edu/publications/3312

  8. In vitro Volumetric Particle Velocimetry, Computational Fluid Dynamics (CFD), and in vivo 4D Flow MRI Hemodynamic Data in Two Patient-Specific Cerebral Aneurysms - MRI

    2019-11-01 21:06:01 | Datasets | Contributor(s): Melissa Brindise, Sean Rothenberger, Benjamin Dickerhoff, Susanne Schnell, Michael Markl, David Saloner, Vitaliy Rayz, Pavlos Vlachos | doi:10.4231/C6DE-N845

    In vivo MRI dataset from a pulsatile volumetric particle velocimetry study using two patient-specific cerebral aneurysm models.

    https://purr.purdue.edu/publications/3310

  9. In vitro Volumetric Particle Velocimetry, Computational Fluid Dynamics (CFD), and in vivo 4D Flow MRI Hemodynamic Data in Two Patient-Specific Cerebral Aneurysms - CFD

    2019-11-01 21:00:43 | Datasets | Contributor(s): Melissa Brindise, Sean Rothenberger, Benjamin Dickerhoff, Susanne Schnell, Michael Markl, David Saloner, Vitaliy Rayz, Pavlos Vlachos | doi:10.4231/5RW6-4Z50

    In silico CFD dataset from a pulsatile volumetric particle velocimetry study using two patient-specific cerebral aneurysm models.

    https://purr.purdue.edu/publications/3311

  10. In vitro Volumetric Particle Velocimetry, Computational Fluid Dynamics (CFD), and in vivo 4D Flow MRI Hemodynamic Data in Two Patient-Specific Cerebral Aneurysms

    2019-08-19 15:35:56 | Datasets | Contributor(s): Melissa Brindise, Sean Rothenberger, Benjamin Dickerhoff, Susanne Schnell, Michael Markl, David Saloner, Vitaliy Rayz, Pavlos Vlachos | doi:10.4231/M5F1-QC84

    Data from a pulsatile volumetric particle velocimetry study using two patient-specific cerebral aneurysm models, processed using Shake the Box (STB). Associated in vivo MRI and CFD datasets are also provided.

    https://purr.purdue.edu/publications/3136

  11. Outflow Boundary Condition and Algorithm for Single-Phase Incompressible Flows

    2014-06-16 13:54:37 | Datasets | Contributor(s): Suchuan Dong | doi:10.4231/R7RB72JK

    We present an accurate and effective outflow boundary condition and numerical algorithm for achieving stability in the presence of strong vortices or backflows at the outflow boundaries.

    https://purr.purdue.edu/publications/1699

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