Pavel Ryzhakov
Pavel Ryzhakov
Lecturer at Polytechnic University of Catalonia (UPC), Researcher at CIMNE
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A monolithic Lagrangian approach for fluid–structure interaction problems
PB Ryzhakov, R Rossi, SR Idelsohn, E Oñate
Computational mechanics 46 (6), 883-899, 2010
Advances in the particle finite element method (PFEM) for solving coupled problems in engineering
E Oñate, SR Idelsohn, MA Celigueta, R Rossi, J Marti, JM Carbonell, ...
Particle-Based Methods, 1-49, 2011
Improving mass conservation in simulation of incompressible flows
P Ryzhakov, E Oñate, R Rossi, S Idelsohn
International journal for numerical methods in engineering 90 (12), 1435-1451, 2012
Combined Eulerian–PFEM approach for analysis of polymers in fire situations
J Marti, P Ryzhakov, S Idelsohn, E Oñate
International journal for numerical methods in engineering 92 (9), 782-801, 2012
Fast fluid–structure interaction simulations using a displacement-based finite element model equipped with an explicit streamline integration prediction
PB Ryzhakov, J Marti, SR Idelsohn, E Oñate
Computer Methods in Applied Mechanics and Engineering 315, 1080-1097, 2017
An embedded approach for immiscible multi-fluid problems
P Ryzhakov, A Jarauta
International Journal for Numerical Methods in Fluids, 2015
A modified fractional step method for fluid-structure interaction problems
P Ryzhakov
Revista Internacional de Métodos Numéricos para Cálculo y Diseño en Ingeniería, 2015
A two‐step monolithic method for the efficient simulation of incompressible flows
P Ryzhakov, J Cotela, R Rossi, E Oñate
International journal for numerical methods in fluids 74 (12), 919-934, 2014
Lagrangian FE methods for coupled problems in fluid mechanics
P Ryzhakov, R Rossi, SR Idelsohn Barg
International Centre for Numerical Methods in Engineering (CIMNE), 2010
A monolithic fe formulation for the analysis of membranes in fluids
R Rossi, PB Ryzhakov, E Oñate
International Journal of Space Structures 24 (4), 205-210, 2009
Analysis of the melting, burning and flame spread of polymers with the particle finite element method
E Onate, J Marti, P Ryzhakov, R Rossi, SR Idelsohn
Computer Assisted Methods in Engineering and Science 20 (3), 165-184, 2017
Numerical study of droplet dynamics in a polymer electrolyte fuel cell gas channel using an embedded Eulerian-Lagrangian approach
A Jarauta, P Ryzhakov, M Secanell, PR Waghmare, J Pons-Prats
Journal of Power Sources 323, 201-212, 2016
A semi-analytical model for droplet dynamics on the GDL surface of a PEFC electrode
A Jarauta, M Secanell, J Pons-Prats, P Ryzhakov, SR Idelsohn, E Onate
international journal of hydrogen energy 40 (15), 5375-5383, 2015
An algorithm for the simulation of thermally coupled low speed flow problems
P Ryzhakov, R Rossi, E Oñate
International journal for numerical methods in fluids 70 (1), 1-19, 2012
On the application of the PFEM to droplet dynamics modeling in fuel cells
PB Ryzhakov, A Jarauta, M Secanell, J Pons-Prats
Computational Particle Mechanics 4 (3), 285-295, 2017
Modelling and simulation of the sea-landing of aerial vehicles using the Particle Finite Element Method
P Ryzhakov, R Rossi, A Viña, E Oñate
Ocean engineering 66, 92-100, 2013
An implicit surface tension model for the analysis of droplet dynamics
A Jarauta, P Ryzhakov, J Pons-Prats, M Secanell
Journal of Computational Physics 374, 1196-1218, 2018
Challenges in computational modeling of two-phase transport in polymer electrolyte fuel cells flow channels: A review
A Jarauta, P Ryzhakov
Archives of Computational Methods in Engineering 25 (4), 1027-1057, 2018
Bridging the gap between individual-based and continuum models of growing cell populations
MAJ Chaplain, T Lorenzi, FR Macfarlane
Journal of Mathematical Biology 80 (1-2), 343-371, 2020
Computational modeling of the fluid flow and the flexible intimal flap in type B aortic dissection via a monolithic arbitrary Lagrangian/Eulerian fluid‐structure interaction model
P Ryzhakov, E Soudah, N Dialami
International journal for numerical methods in biomedical engineering 35 (11 …, 2019
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Artículos 1–20