Postdoc Researcher in Software Engineering (2019) - Computational Fluid Mechanics and Transport Phenomena -, Ph.D. in Environmental Engineering (2014), M.Sc. in Mechanical Engineering (2008), Postgraduate in Planning Engineering – PROMINP/Petrobrás (2007), Undergraduate in Mechanical Engineering (1998) at Federal University of Espírito Santo, Brazil. Fraga Filho has experience in the areas of Mechanical and Environmental Engineering, with emphasis on Computational Fluid Dynamics, Water Resources and Transport Phenomena. Journals Reviewer: Physics of Fluids (AIP), Journal of Mechanics Engineering and Automation and Journal of Engineering Teaching (Brazilian Association of Engineering Education – ABENGE). Member of the Brazilian Association of Computational Methods in Engineering (ABMEC). Leader of the Development, Implementation and Application of Computational Tools for Solving Problems in Engineering Research Group and member of the Laboratory of Simulation of Free Surface Flows – LABESUL (both certified by the Coordination of Improvement of Higher Level Personnel – CAPES, Brazil).
Researcher at the Federal Institute of Espírito Santo (Development, Implementation and Application of Computational Tools for Problem Solving in Engineering Research Group) Researcher at the Laboratory of Simulation of Free Surface Flows (LABESUL/UFES).
Professor at Federal Institute of Espírito Santo.
Master Coorientator at São Paulo State University (Unesp).
Developer of Softwares for Application in Engineering Problems.
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Smoothed Particle Hydrodynamics Applied to Viscous, Incompressible and Free Surfaces Fluid Flows: A Way to Control the Pollutant Dispersion Laboratory of Simulation of Free Surface Flows – LABESUL Federal University of Espírito Santo
Computational code optimization using Lagrangian modeling and the Smoothed Particle Hydrodynamics method for application in Fluid Mechanics Development, Implementation and Application of Computational Tools for Solving Problems in Engineering Research Group Federal Institute of Espírito Santo
SENSE Augmented (SENSE Multiphysical Modeller Improvements) Description: Researching new and enhanced methods for the SENSE simulation tool. The main project objective is the improvement of the Multiphysics SENSE software. Among the tests performed for software improvements can be listed: physical correctness; reflective boundary conditions implementation, multi-phase flow simulation and resolution testing.
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Carlos Alberto Dutra Fraga FIlho. "Study of Gravity-Inertial Phase of Spreading of Oil on a Calm Sea employing the Lagrangian Particle Method Smoothed Particle Hydrodynamics". Available at https://spheric-sph.org/sph-phds (Year of 2014)
FRAGA FILHO, C. A. D. ; PENG, C.; ISLAM, M. R. I.; MCCABE, C.; BAIG, S.; DURGA PRASAD, G. V. PHYSICAL REFLECTIVE BOUNDARY CONDITIONS APPLIED TO SMOOTHED PARTICLE HYDRODYNAMICS (SPH) METHOD FOR SOLVING FLUID DYNAMICS PROBLEMS IN 3-D DOMAINS, PARTICLES 2019 - VI International Conference on Particle-Based Methods, Universitat Politècnica de Catalunya, Spain, 2019. (Available for download)
FRAGA FILHO, C. A. D. ; SCHUINA, L. L. ; PORTO, B. S. A Comparative Study of Neighbouring Particle Search Methods in Computational Fluid Mechanics: Direct Search and Linked List Techniques Evaluation. XXXIX Ibero-Latin American Congress on Computational Methods in Engineering (CILAMCE 2018), Sorbonne Université - UTC (Paris/Compiègne), France, 2018. (Conference Proceedings available for download)
FRAGA FILHO, C.A.D. An SPH Model for Prediction of Oil Slick Diameter in the Gravity-inertial Spreading Phase. PARTICLES 2017 - V International Conference on Particle-Based Methods, Leibniz Universität, Hannover, Germany, 2017 (Available for download)
FRAGA FILHO, C.A.D. Physical reflective boundary conditions in particle methods: a collision detection and response algorithm. CILAMCE, Florianópolis, Santa Catarina, Brazil, 2017. (Available for download)
FRAGA FILHO, C.A.D.; CHACALTANA, J.T.A. Boundary Treatment Techniques in Smoothed Particle Hydrodynamics: Implementations in Fluid and Thermal Sciences and Results Analysis. CILAMCE, Brasília, Brazil, 2016. (Available for download)
FRAGA FILHO, C.A.D. Development of a Computer Code using the Lagrangian Smoothed Particle Hydrodynamics (SPH) Method for Solution of Problems in Fluid Dynamics and Heat Transfer. CILAMCE, Brasília, Brazil, 2016. (Available for download)
FRAGA FILHO, C.A.D.; CHACALTANA, J.T.A. Study of Fluid Flows using Smoothed Particle Hydrodynamics: the Modified Pressure Concept Applied to Quiescent Fluid and Dam Breaking. CILAMCE, Rio de Janeiro, Brazil, 2015. (Available for download)
FRAGA FILHO, C.A.D.; CHACALTANA, J.T.A. Kinematics of a Fluid at Rest within a Reservoir and of the Flow due to the Dam Breaking using the Lagrangian Smoothed Particle Hydrodynamics Model. COBEM, Rio de Janeiro, Brazil, 2015. (Available for download)
FRAGA FILHO, C.A.D.; PICCOLI, F. P. ; BARBOSA, D.A ; CHACALTANA, J.T.A. Numerical Study of the Generation and Propagation of Waves on Flat Beaches: an Application in Engineering using SPHysics and FUNWAVE Models. COBEM, Rio de Janeiro, Brazil, 2015. (Available for download)
FRAGA FILHO, C.A.D. Recent Improvements in Smoothed Particle Hydrodynamics Fluid Dynamics Simulations in 3-D Domains. 1st Worldwide Coatings Simulation Conference, Steyr, Austria, 2019. (Available for download)
FRAGA FILHO, C.A.D. Smoothed Particle Hydrodynamic Method: Initial Applications in Fluid Mechanics and Transport Phenomena and Future Works. São Paulo State University-UNESP, 2017
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