Javier Principe
Javier Principe
Fluid Mechanics Department, Universitat Politècnica de Catalunya
Dirección de correo verificada de cimne.upc.edu - Página principal
Título
Citado por
Citado por
Año
Time dependent subscales in the stabilized finite element approximation of incompressible flow problems
R Codina, J Principe, O Guasch, S Badia
Computer Methods in Applied Mechanics and Engineering 196 (21-24), 2413-2430, 2007
2502007
The dissipative structure of variational multiscale methods for incompressible flows
J Principe, R Codina, F Henke
Computer Methods in Applied Mechanics and Engineering 199 (13-16), 791-801, 2010
812010
Assessment of variational multiscale models for the large eddy simulation of turbulent incompressible flows
O Colomés, S Badia, R Codina, J Principe
Computer Methods in Applied Mechanics and Engineering 285, 32-63, 2015
772015
A variational subgrid scale model for transient incompressible flows
G Houzeaux, J Principe
International Journal of Computational Fluid Dynamics 22 (3), 135-152, 2008
632008
Dynamic subscales in the finite element approximation of thermally coupled incompressible flows
R Codina, J Principe
International journal for numerical methods in fluids 54 (6‐8), 707-730, 2007
612007
Multilevel balancing domain decomposition at extreme scales
S Badia, AF Martín, J Principe
SIAM Journal on Scientific Computing 38 (1), C22-C52, 2016
552016
A highly scalable parallel implementation of balancing domain decomposition by constraints
S Badia, AF Martín, J Principe
SIAM Journal on Scientific Computing 36 (2), C190-C218, 2014
492014
Finite element approximation of turbulent thermally coupled incompressible flows with numerical sub-grid scale modelling
R Codina, J Principe, M Ávila
International Journal of Numerical Methods for Heat & Fluid Flow 20 (5), 492-516, 2010
492010
Subscales on the element boundaries in the variational two-scale finite element method
R Codina, J Principe, J Baiges
Computer methods in applied mechanics and engineering 198 (5-8), 838-852, 2009
452009
Finite element approximation of the modified Boussinesq equations using a stabilized formulation
R Codina, JM González‐Ondina, G Díaz‐Hernández, J Principe
International Journal for Numerical Methods in Fluids 57 (9), 1249-1268, 2008
402008
Implementation and scalability analysis of balancing domain decomposition methods
S Badia, AF Martín, J Principe
Archives of Computational Methods in Engineering 20 (3), 239-262, 2013
362013
A finite element dynamical nonlinear subscale approximation for the low Mach number flow equations
M Avila, J Principe, R Codina
Journal of Computational Physics 230 (22), 7988-8009, 2011
352011
Variational multiscale methods in computational fluid dynamics
R Codina, S Badia, J Baiges, J Principe
Encyclopedia of Computational Mechanics Second Edition, 1-28, 2018
312018
FEMPAR: An Object-Oriented Parallel Finite Element Framework
S Badia, AF Martín, J Principe
Archives of Computational Methods in Engineering 25 (2), 195-271, 2018
282018
Large eddy simulation of low mach number flows using dynamic and orthogonal subgrid scales
M Avila, R Codina, J Principe
Computers & Fluids 99, 44-66, 2014
282014
Spatial approximation of the radiation transport equation using a subgrid-scale finite element method
M Avila, R Codina, J Principe
Computer Methods in Applied Mechanics and Engineering 200 (5-8), 425-438, 2011
262011
On the stabilization parameter in the subgrid scale approximation of scalar convection–diffusion–reaction equations on distorted meshes
J Principe, R Codina
Computer methods in applied mechanics and engineering 199 (21-22), 1386-1402, 2010
262010
Mathematical models for thermally coupled low speed flows
J Principe, R Codina
Advances in Theoretical and Applied Mechanics 2 (2), 93-112, 2009
262009
On the scalability of inexact balancing domain decomposition by constraints with overlapped coarse/fine corrections
S Badia, AF Martín, J Principe
Parallel Computing 50, 1-24, 2015
212015
Enhanced balancing Neumann–Neumann preconditioning in computational fluid and solid mechanics
S Badia, AF Martín, J Príncipe
International Journal for Numerical Methods in Engineering 96 (4), 203-230, 2013
202013
El sistema no puede realizar la operación en estos momentos. Inténtalo de nuevo más tarde.
Artículos 1–20