G
Georgios A Maragkos
Researcher at Beth Israel Deaconess Medical Center
Publications - 83
Citations - 969
Georgios A Maragkos is an academic researcher from Beth Israel Deaconess Medical Center. The author has contributed to research in topics: Turbulence & Computational fluid dynamics. The author has an hindex of 13, co-authored 76 publications receiving 547 citations. Previous affiliations of Georgios A Maragkos include Ghent University & Harvard University.
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Middle Meningeal Artery Embolization for Chronic Subdural Hematoma: A Multi-Center Experience of 154 Consecutive Embolizations.
Peter Kan,Georgios A Maragkos,Aditya Srivatsan,Visish M. Srinivasan,Jeremiah N. Johnson,Jan-Karl Burkhardt,Timothy M. Robinson,Mohamed M. Salem,Stephen R. Chen,Howard A. Riina,Omar Tanweer,Elad I. Levy,Alejandro M Spiotta,Sami Al Kasab,Jonathan Lena,Bradley A. Gross,Jacob Cherian,C. Michael Cawley,Brian M. Howard,Alexander A. Khalessi,Aditya S Pandey,Andrew J. Ringer,Ricardo A. Hanel,Rafael Ortiz,David J. Langer,Cory M. Kelly,Brian T. Jankowitz,Christopher S. Ogilvy,Justin M. Moore,Michael R. Levitt,Mandy J. Binning,Ramesh Grandhi,Farhan Siddiq,Ajith J. Thomas +33 more
TL;DR: MMA embolization may provide a safe and efficacious minimally invasive alternative to conventional surgical techniques in patients with chronic subdural hematoma.
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A dynamic approach for the impact of a toxic gas dispersion hazard considering human behaviour and dispersion modelling
TL;DR: This work aims at providing an approach which considers both modelling of gas dispersion and evacuation movement in order to improve the accuracy of risk assessment for disasters involving toxic gases.
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Advances in modelling in CFD simulations of turbulent gaseous pool fires
TL;DR: In this article, a large eddy simulation using advanced modelling approaches related to thermophysical, turbulence and combustion modelling is presented and their advantages when compared to some of the standard models used in the fire community are analyzed.
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Influence of the particle injection rate, droplet size distribution and volume flux angular distribution on the results and computational time of water spray CFD simulations
TL;DR: In this article, the authors presented a detailed sensitivity analysis on the volume flux probability density function (PDF) to represent water spray patterns with computational fluid dynamics (CFD) and investigated the effects of the turbulent viscosity model and the cell size.
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Towards predictive simulations of gaseous pool fires
TL;DR: In this paper, large eddy simulations using improved approaches related to thermophysical, turbulence, combustion and radiation modeling are presented, focusing on advancing predictive fire modeling, and a comprehensive comparison between the predictions of the modified code against the standard version of fireFoam and experimental data of a medium-scale 22.6kW methanol pool fire is presented.