Timo Koch
Cited by
Cited by
DuMux 3–an open-source simulator for solving flow and transport problems in porous media with a focus on model coupling
T Koch, D Gläser, K Weishaupt, S Ackermann, M Beck, B Becker, ...
Computers & Mathematics with Applications 81, 423-443, 2021
A new simulation framework for soil-root interaction, evaporation, root growth, and solute transport
T Koch, K Heck, N Schröder, H Class, R Helmig
Hybrid models for simulating blood flow in microvascular networks
E Vidotto, T Koch, T Köppl, R Helmig, B Wohlmuth
Multiscale Modeling & Simulation 17 (3), 1076-1102, 2019
The Dune FoamGrid implementation for surface and network grids
O Sander, T Koch, N Schröder, B Flemisch
Archive of Numerical Software 5 (1), 217-244, 2017
Modeling tissue perfusion in terms of 1d-3d embedded mixed-dimension coupled problems with distributed sources
T Koch, M Schneider, R Helmig, P Jenny
Journal of Computational Physics 410, 109370, 2020
Call for participation: collaborative benchmarking of functional-structural root architecture models. The case of root water uptake
A Schnepf, CK Black, V Couvreur, BM Delory, C Doussan, A Koch, T Koch, ...
Frontiers in plant science 11, 316, 2020
System testing in scientific numerical software frameworks using the example of DUNE
D Kempf, T Koch
Archive of Numerical Software 5 (1), 151-168, 2017
A multiscale subvoxel perfusion model to estimate diffusive capillary wall conductivity in multiple sclerosis lesions from perfusion MRI data
T Koch, B Flemisch, R Helmig, R Wiest, D Obrist
International journal for numerical methods in biomedical engineering 36 (2 …, 2020
Mixed-dimension models for flow and transport processes in porous media with embedded tubular network systems
T Koch
Stuttgart, 2020
A new and consistent well model for one-phase flow in anisotropic porous media using a distributed source model
T Koch, R Helmig, M Schneider
Journal of Computational Physics 410, 109369, 2020
A (Dual) Network Model for Heat Transfer in Porous Media
T Koch, K Weishaupt, J Müller, B Weigand, R Helmig
Transport in Porous Media, 1-35, 2021
Projection-based resolved interface mixed-dimension method for embedded tubular network systems
T Koch
arXiv preprint arXiv:2106.06358, 2021
Coupling a vascular graph model and the surrounding tissue to simulate flow processes in vascular networks
T Koch
Master thesis, 2014
A fully implicit coupled pore-network/free-flow model for the pore-scale simulation of drying processes
K Weishaupt, T Koch, R Helmig
Drying Technology, 1-22, 2021
Nonlinear mixed-dimension model for embedded tubular networks with application to root water uptake
T Koch, H Wu, M Schneider
arXiv preprint arXiv:2106.05452, 2021
A new numerical method to approximate root water uptake fluxes in a mixed-dimensional 1D-3D setting
T Koch, H Wu, KA Mardal, R Helmig, M Schneider
EGU General Assembly Conference Abstracts, EGU21-390, 2021
Umgang mit Forschungssoftware an der Universität Stuttgart
B Flemisch, S Hermann, C Holm, M Mehl, G Reina, B Uekermann, ...
Simulating root water uptake regulation under drought stress using DuMux-CRootBox
D Khare, A Verhoef, M Javaux, J Vanderborght, D Leitner, T Koch, ...
Rhizosphere 5, 2019
Benchmarking models of root architecture and function
S Andrea, V Couvreur, D Claude, K Axelle, K Timo, M Javaux, L Daniel, ...
ISMC International soil Modelling Consortium: 2 nd ISMC Conference: New …, 2018
Implementing Quality Assurance for the Numerical Research Software Dune / PDELab / DuMux
B Flemisch, P Bastian, D Kempf, T Koch, R Helmig
AGU Fall Meeting Abstracts 2015, H31C-1420, 2015
The system can't perform the operation now. Try again later.
Articles 1–20