Models Formulation

Yarushina Viktoriya M., Podladchikov Yuri Y., 2015. (De)compaction of porous viscoelastoplastic media: Model formulation. Journal of Geophysical Research-Solid Earth 120(6) pp. 4146-4170. [DOI]

Modelling of natural processes

Stokes flow

Räss, L., Duretz, T., Podladchikov, Y. Y. and Schmalholz, S. M. (2017), M2Di: Concise and efficient MATLAB 2-D Stokes solvers using the Finite Difference Method. Geochem. Geophys. Geosyst., 18. [DOI]

Nonlinear waves

Mechanical porosity waves

Räss, L., Duretz, T. and Podladchikov, Y.Y. (2019). Resolving hydromechanical coupling in two and three dimensions: spontaneous channelling of porous fluids owing to decompaction weakening. Geophys. J. Int. (2019) 218, 1592–1616. [DOI] pdf-icon-16x16

Räss, L., Simon, N. S. C. and Podladchikov Y. Y. (2018). Spontaneous formation of fluid escape pipes from subsurface reservoirs. Nature Scientific Reports. [DOI]

Omlin, S., Räss, L. and Podladchikov, Y. Y. (2017). Simulation of three-dimensional viscoelastic deformation coupled to porous fluid flow. Tectonophysics. [DOI]

Räss, L., Makhnenko, R. Y. and Podladchikov, Y. Y. (2017). Quantification of viscous creep influence on storage capacity of caprock. Energy Procedia, 114, 3237-3246. [DOI]

Räss, L., Yarushina, V. M., Simon, N. S., and Podladchikov, Y. Y. (2014). Chimneys, channels, pathway flow or water conducting features-an explanation from numerical modelling and implications for CO 2 storage. Energy Procedia, 63, 3761-3774. [DOI]

Reactive porosity waves

Omlin, S., Malvoisin, B., & Podladchikov, Y. Y. (2017). Pore fluid extraction by reactive solitary waves in 3-D. Geophysical Research Letters, 44. [DOI]

Malvoisin, B., Y. Yu. Podladchikov, and J. C. Vrijmoed (2015). Coupling changes in densities and porosity to fluid pressure variations in reactive porous fluid flow: Local thermodynamic equilibrium, Geochem. Geophys. Geosyst., 16, 4362–4387. [DOI]

Strain localization

Ductile by shear heating

Duretz, T., Räss, L., Podladchikov, Y.Y. and Schmalholz S.M. (2019). Resolving thermomechanical coupling in two and three dimensions: spontaneous strain localization owing to shear heating. Geophys. J. Int. (2019) 216, 365–379. [DOI] pdf-icon-16x16

Duretz, T., Schmalholz, S.M. and Podladchikov, Y.Y. (2015). Shear heating induced strain localisation across the scales. Philosophical Magazine . [DOI] pdf-icon-16x16

Modelling of random fields

Räss, L., Kolyukhin, D., Minakov, A. (2019). Efficient parallel random field generator for large 3-D geophysical problems. Computers & Geosciences 131, 158-169. [DOI] pdf-icon-16x16