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Carina Bringedal
Carina Bringedal
Junior Professor at University of Stuttgart
Verified email at iws.uni-stuttgart.de
Title
Cited by
Cited by
Year
Upscaling of Non-isothermal Reactive Porous Media Flow with Changing Porosity
C Bringedal, I Berre, IS Pop, FA Radu
Transport in Porous Media 114 (2), 371-393, 2016
502016
Phase field modeling of precipitation and dissolution processes in porous media: Upscaling and numerical experiments
C Bringedal, L von Wolff, IS Pop
Multiscale Modeling & Simulations 18 (2), 1076-1112, 2020
262020
A model for non-isothermal flow and mineral precipitation and dissolution in a thin strip
C Bringedal, I Berre, IS Pop, FA Radu
Journal of Computational and Applied Mathematics 289, 346-355, 2015
252015
Linear and nonlinear convection in porous media between coaxial cylinders
C Bringedal, I Berre, JM Nordbotten, DAS Rees
Physics of Fluids 23 (9), 094109, 2011
212011
Effective behavior near clogging in upscaled equations for non-isothermal reactive porous media flow
C Bringedal, K Kumar
Transport in Porous Media 120 (3), 553-577, 2017
202017
Structure and forcing of observed exchanges across the Greenland-Scotland Ridge
C Bringedal, T Eldevik, Ø Skagseth, MA Spall, S Østerhus
Journal of Climate 31 (2018), 9881–9901, 2018
182018
Upscaling of nonisothermal reactive porous media flow under dominant Péclet number: the effect of changing porosity
C Bringedal, I Berre, IS Pop, FA Radu
Multiscale Modeling & Simulation 14 (1), 502-533, 2016
162016
On an averaged model for immiscible two‐phase flow with surface tension and dynamic contact angle in a thin strip
SB Lunowa, C Bringedal, IS Pop
Studies in Applied Mathematics, 2021
102021
On upscaling pore-scale models for two-phase flow with evolving interfaces
S Sharmin, C Bringedal, IS Pop
Advances in Water Resources 142, 103646, 2020
102020
A two-scale iterative scheme for a phase-field model for precipitation and dissolution in porous media
MB Olivares, C Bringedal, IS Pop
Applied Mathematics and Computation 396, 125933, 2021
8*2021
Numerical homogenization of non-linear parabolic problems on adaptive meshes
M Bastidas, C Bringedal, IS Pop, FA Radu
Journal of Computational Physics 425, 109903, 2021
8*2021
Multi-scale three-domain approach for coupling free flow and flow in porous media including droplet-related interface processes
S Ackermann, C Bringedal, R Helmig
Journal of Computational Physics 429, 109993, 2021
82021
An approach for investigation of geochemical rock-fluid interactions
C Bringedal, I Berre, FA Radu
Modeling of heat transfer in porous media in the context of geothermal …, 2014
62014
Permeability estimation of regular porous structures: a benchmark for comparison of methods
A Wagner, E Eggenweiler, F Weinhardt, Z Trivedi, D Krach, C Lohrmann, ...
Transport in porous media 138 (1), 1-23, 2021
52021
Influence of natural convection in a porous medium when producing from borehole heat exchangers
C Bringedal, I Berre, JM Nordbotten
Water Resources Research 49 (8), 4927-4938, 2013
52013
Dynamic effects during the capillary rise of fluids in cylindrical tubes
SB Lunowa, A Mascini, C Bringedal, T Bultreys, V Cnudde, IS Pop
Langmuir 38 (5), 1680-1688, 2022
42022
Upscaling a Navier-Stokes-Cahn-Hilliard model for two-phase porous-media flow with solute-dependent surface tension effects
S Sharmin, M Bastidas, C Bringedal, IS Pop
Applicable Analysis, 1-23, 2022
32022
Numerical simulation of a phase-field model for reactive transport in porous media
M Bastidas, C Bringedal, IS Pop
Numerical Mathematics and Advanced Applications ENUMATH 2019, 93-102, 2021
32021
A conservative phase-field model for reactive transport
C Bringedal
International Conference on Finite Volumes for Complex Applications, 537-545, 2020
32020
Modeling of heat transfer in porous media in the context of geothermal energy extraction
C Bringedal
The University of Bergen, 2015
32015
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