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Nadja Ray
Nadja Ray
Adresă de e-mail confirmată pe math.fau.de
Titlu
Citat de
Citat de
Anul
Microaggregates in soils
KU Totsche, W Amelung, MH Gerzabek, G Guggenberger, E Klumpp, ...
Journal of Plant Nutrition and Soil Science 181 (1), 104-136, 2018
7502018
Beyond Kozeny–Carman: predicting the permeability in porous media
R Schulz, N Ray, S Zech, A Rupp, P Knabner
Transport in Porous Media 130 (2), 487-512, 2019
852019
Multiscale modeling of colloid and fluid dynamics in porous media including an evolving microstructure
N Ray, T van Noorden, F Frank, P Knabner
Transport in porous media 95 (3), 669-696, 2012
622012
Old and new approaches predicting the diffusion in porous media
N Ray, A Rupp, R Schulz, P Knabner
Transport in Porous Media 124 (3), 803-824, 2018
472018
Drug release from collagen matrices including an evolving microstructure
N Ray, T van Noorden, FA Radu, W Friess, P Knabner
ZAMM‐Journal of Applied Mathematics and Mechanics/Zeitschrift für Angewandte …, 2013
462013
Strong solvability up to clogging of an effective diffusion–precipitation model in an evolving porous medium
R Schulz, N Ray, F Frank, HS Mahato, P Knabner
European Journal of Applied Mathematics 28 (2), 179-207, 2017
422017
Discrete-continuum multiscale model for transport, biomass development and solid restructuring in porous media
N Ray, A Rupp, A Prechtel
Advances in Water Resources 107, 393-404, 2017
352017
Numerical investigation of a fully coupled micro-macro model for mineral dissolution and precipitation
N Ray, J Oberlander, P Frolkovic
Computational Geosciences 23 (5), 1173-1192, 2019
322019
Numerical investigation of homogenized stokes–nernst–planck–poisson systems
F Frank, N Ray, P Knabner
Computing and visualization in science 14 (8), 385-400, 2011
312011
Efficiency and Accuracy of Micro‐Macro Models for Mineral Dissolution
S Gärttner, P Frolkovič, P Knabner, N Ray
Water Resources Research 56 (8), e2020WR027585, 2020
302020
Existence and uniqueness of a global weak solution of a Darcy‐Nernst‐Planck‐Poisson system
M Herz, N Ray, P Knabner
GAMM‐Mitteilungen 35 (2), 191-208, 2012
212012
Upscaling the flow and transport in an evolving porous medium with general interaction potentials
N Ray, T Elbinger, P Knabner
SIAM Journal on Applied Mathematics 75 (5), 2170-2192, 2015
182015
Discrete-continuum multiphase model for structure formation in soils including electrostatic effects
A Rupp, KU Totsche, A Prechtel, N Ray
Frontiers in Environmental Science 6, 96, 2018
142018
Microaggregation of goethite and illite evaluated by mechanistic modeling
S Zech, S Dultz, G Guggenberger, A Prechtel, N Ray
Applied Clay Science 198, 105845, 2020
122020
Application of a cellular automaton method to model the structure formation in soils under saturated conditions: A mechanistic approach
A Rupp, T Guhra, A Meier, A Prechtel, T Ritschel, N Ray, KU Totsche
Frontiers in Environmental Science 7, 170, 2019
122019
Colloidal Transport in Porous Media-Modeling and Analysis
N Ray
Shaker, 2013
122013
Derivation of an effective dispersion model for electro-osmotic flow involving free boundaries in a thin strip
N Ray, R Schulz
Journal of Engineering Mathematics 119 (1), 167-197, 2019
82019
Numerical Investigation of a Homogenized Stokes-Nernst-Planck-Poisson Problem
F Frank, N Ray, P Knabner
Inst. für Angewandte Mathematik, 2012
22012
Colloid and fluid dynamics in porous media including an evolving microstructure
N Ray, T van Noorden, F Frank, P Knabner
The Preprint-Series of the Institute of Applied Mathematics 351, 2-20, 2012
22012
Microaggregation of goethite and illite: Linking mechanistic modeling and laboratory experiments
A Prechtel, S Zech, S Dultz, G Guggenberger, N Ray
EGU General Assembly Conference Abstracts, 9493, 2020
2020
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