M
Mariana Mendina
Researcher at University of the Republic
Publications - 14
Citations - 296
Mariana Mendina is an academic researcher from University of the Republic. The author has contributed to research in topics: Solver & Immersed boundary method. The author has an hindex of 5, co-authored 13 publications receiving 248 citations.
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Journal ArticleDOI
Variability of computational fluid dynamics solutions for pressure and flow in a giant aneurysm: the ASME 2012 Summer Bioengineering Conference CFD Challenge.
David A. Steinman,Yiemeng Hoi,Paul Fahy,Liam Morris,Michael Walsh,Nicolas Aristokleous,Andreas S. Anayiotos,Yannis Papaharilaou,Amirhossein Arzani,Shawn C. Shadden,Philipp Berg,Philipp Berg,Gábor Janiga,Joris Bols,Patrick Segers,Neil W. Bressloff,Merih Cibis,Frank H. Gijsen,Salvatore Cito,Jordi Pallares,Leonard D. Browne,J. A. Costelloe,Adrian G. Lynch,Joris Degroote,Jan Vierendeels,Wenyu Fu,Aike Qiao,Simona Hodis,David F. Kallmes,Hardeep S. Kalsi,Quan Long,Vitaly O. Kheyfets,Ender A. Finol,Kenichi Kono,Adel M. Malek,Alexandra Lauric,Prahlad G. Menon,Kerem Pekkan,Mahdi Esmaily Moghadam,Alison L. Marsden,Marie Oshima,Kengo Katagiri,Véronique Peiffer,Yumnah Mohamied,Spencer J. Sherwin,Jens Schaller,Leonid Goubergrits,Gabriel Usera,Mariana Mendina,Kristian Valen-Sendstad,Damiaan F. Habets,Jianping Xiang,Hui Meng,Yue Yu,George Em Karniadakis,Nicholas Shaffer,Francis Loth +56 more
TL;DR: Pressure can be predicted with consistency by CFD across a wide range of solvers and solution strategies, but this may not hold true for specific flow patterns or derived quantities.
Journal ArticleDOI
The Computational Fluid Dynamics Rupture Challenge 2013--Phase II: Variability of Hemodynamic Simulations in Two Intracranial Aneurysms.
Philipp Berg,Christoph Roloff,Oliver Beuing,Samuel Voss,Shin Ichiro Sugiyama,Nicolas Aristokleous,Andreas S. Anayiotos,Neil Ashton,Alistair Revell,Neil W. Bressloff,Alistair G. Brown,Bong Jae Chung,Juan R. Cebral,Gabriele Copelli,Wenyu Fu,Aike Qiao,A. J. Geers,Simona Hodis,Simona Hodis,Dan Dragomir-Daescu,Dan Dragomir-Daescu,Emily R. Nordahl,Yildirim Suzen,Muhammad Owais Khan,Kristian Valen-Sendstad,Kenichi Kono,Prahlad G. Menon,Priti G. Albal,Otto Mierka,Raphael Münster,Hernán G. Morales,Odile Bonnefous,Jan Osman,Leonid Goubergrits,Jordi Pallares,Salvatore Cito,Alberto Passalacqua,Senol Piskin,Kerem Pekkan,Susana Ramalho,Nelson Marques,Stéphane Sanchi,Kristopher R. Schumacher,Jess Sturgeon,Helena Švihlová,Jaroslav Hron,Gabriel Usera,Mariana Mendina,Jianping Xiang,Hui Meng,David A. Steinman,Gábor Janiga +51 more
TL;DR: The International CFD Rupture Challenge 2013 seeks to comment on the sensitivity of these various CFD assumptions to predict the rupture by undertaking a comparison of the rupture and blood-flow predictions from a wide range of independent participants utilizing a range of CFD approaches.
Journal ArticleDOI
A general purpose parallel block structured open source incompressible flow solver
TL;DR: A general purpose incompressible flow solver, called caffa3d, is presented which features a block structured framework to accommodate both a flexible approach to geometry representation and a straightforward implementation of parallel capabilities through the MPI library.
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Accuracy and Reproducibility of Patient-Specific Hemodynamic Models of Stented Intracranial Aneurysms: Report on the Virtual Intracranial Stenting Challenge 2011
Salvatore Cito,Salvatore Cito,Salvatore Cito,A. J. Geers,M. P. Arroyo,Virginia Palero,Jordi Pallares,Anton Vernet,Jordi Blasco,L. San Román,Wenyu Fu,Aike Qiao,Gábor Janiga,Y. Miura,Makoto Ohta,Mariana Mendina,Gabriel Usera,Alejandro F. Frangi,Alejandro F. Frangi +18 more
TL;DR: Given geometry and flow rates, research groups can accurately simulate the velocity field inside an intracranial aneurysm—as assessed by comparison with in vitro measurements—and find excellent agreement on the hemodynamic effect of different stent configurations.
Journal ArticleDOI
A Large Eddy Simulation-Actuator Line Model framework to simulate a scaled wind energy facility and its application
TL;DR: Results of a validated numerical method applied to the simulation of a well known state of the art experimental setup are presented, showing a potential complementary approach between physical and numerical simulation.