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A linear domain decomposition method for two-phase flow in porous media

D. Seus, F. Radu, and C. Rohde. Numerical Mathematics and Advanced Applications ENUMATH 2017, 126, Cham, Springer, (2019)
DOI: 10.1007/978-3-319-96415-7_55

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Adrian Schlottke University of Stuttgart

Adrian Barwasser University of Stuttgart

Adrian Eitle University of Stuttgart

PD Dr. -Ing. Adrian Pocanschi University of Stuttgart

Adrian Stock University of Stuttgart

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A robust linearization scheme for finite volume based discretizations for simulation of two-phase flow in porous media.F. Radu, J. Nordbotten, I. Pop, and K. Kumar. J. Computational Applied Mathematics, (2015)The gradient flow structures of thermo-poro-visco-elastic processes in porous media.J. Both, K. Kumar, J. Nordbotten, and F. Radu. CoRR, (2019)Adaptive asynchronous time-stepping, stopping criteria, and a posteriori error estimates for fixed-stress iterative schemes for coupled poromechanics problems.E. Ahmed, J. Nordbotten, and F. Radu. J. Computational Applied Mathematics, (2020)A model for non-isothermal flow and mineral precipitation and dissolution in a thin strip.C. Bringedal, I. Berre, I. Pop, and F. Radu. J. Computational Applied Mathematics, (2015)The fixed-stress splitting scheme for Biot's equations as a modified Richardson iteration: Implications for optimal convergence.E. Storvik, J. Both, J. Nordbotten, and F. Radu. CoRR, (2019)Numerical homogenization of non-linear parabolic problems on adaptive meshesM. Bastidas, C. Bringedal, I. Pop, and F. Radu. Journal of computational physics, (2021)A linear domain decomposition method for two-phase flow in porous mediaD. Seus, F. Radu, and C. Rohde. Numerical Mathematics and Advanced Applications ENUMATH 2017, 126, Cham, Springer, (2019)A partially parallel-in-time fixed-stress splitting method for Biot's consolidation model.M. Borregales, K. Kumar, F. Radu, C. Rodrigo, and F. Gaspar. Computers & Mathematics with Applications, 77 (6): 1466-1478 (2019)Iterative schemes for surfactant transport in porous media.D. Illiano, I. Pop, and F. Radu. CoRR, (2019)An efficient numerical scheme for fully coupled flow and reactive transport in variably saturated porous media including dynamic capillary effects.D. Illiano, I. Pop, and F. Radu. CoRR, (2019)