Publications


L. Bilke, B. Flemisch, T. Kalbacher, O. Kolditz, R. Helmig und T. Nagel. “Development of Open-Source Porous Media Simulators: Principles and Experiences”. In: Transport in Porous Media 130.1 (2019), S. 337–361.

“GeomInt - Geomechanical integrity of host and barrier rocks - experiment, modeling and analysis of discontinuities”. In: Terrestrial Environmental Sciences. Heidelberg: Springer, 2020, ca. 250. ISBN: 978-3-319-123456789.

O. Kolditz und et al. “GeomInt - Geomechanical integrity of host and barrier rocks - experiment, modeling and analysis of discontinuities”. In: preparation for the Geo:N Topical Collection in Environmental Earth Sciences (2020).

D. Poetschke und et al. “Development of a Matlab-code to simulate direct shear tests”. In: preparation for the Geo:N Topical Collection in Environmental Earth Sciences (2020).

Z. H. Rizvi, S. H. Mustafa, A. S. Sattari, S. Ahmad, P. Furtner und F. Wuttke. “Dynamic Lattice Element Modelling of Cemented Geomaterials”. In: Advances in Computer Methods and Geomechanics. Hrsg. von A. Prashant, A. Sachan und C. S. Desai. Singapore: Springer Singapore, 2020, S. 655–665.

Z. H. Rizvi, S. J. Akhtar, H. Haider, J. Follmann und F. Wuttke. “Estimation of seismic wave velocities of metamorphic rocks using artificial neural network”. In: Materials Today: Proceedings (2019). ISSN: 2214-7853.

Z. H. Rizvi, H. H. Zaidi, S. J. Akhtar, A. S. Sattari und F. Wuttke. “Soft and hard computation methods for estimation of the effective thermal conductivity of sands”. In: Heat and Mass Transfer (2020). ISSN: 1432-1181.

Z. Rizvi, F. Wuttke und A. Sattari. “Dynamic analysis by lattice element method simulation”. In: Springer Series in Geomechanics and Geoengineering 216849 (2018), S. 405–409.

A. Sattari und et al. “Thermo-Mechanical Fracture Behaviour of Opalinus Clay - Experimental and Numercial Analysis”. In: preparation for the Geo:N Topical Collection in Environmental Earth Sciences (2020).

P. Schmidt, J. Renner und H. Steeb. “Non-Linear Hydromechanics of Fractures Throughout Harmonic Testing”. In: Geophysical Research Letters, submitted (2020).

P. Schmidt, J. Renner und H. Steeb. “Numerical Characterization of Hydraulically Tested Fractures at Reiche Zeche”. In: preparation for the Geo:N Topical Collection in Environmental Earth Sciences (2020).

P. Schmidt, N. Dutler, J. Renner und H. Steeb. “Hydro-Mechanical Analysis of Fracture Flow and Deformation”. In: Journal of Geophysical Research: Solid Earth, submitted (2020).

H. Steeb und J. Renner. “Mechanics of Poro-elastic Media: A Review with Emphasis on Foundational State Variables”. In: Transport in Porous Media 130 (2019), S. 437–461.

B. Vowinckel, A. Alfarra, J. Maßmann, D. Naumov, G. Zielfe, O. Kolditz und T. Nagel. “Computational modeling of hydraulically induced fault slip in argillaceous rock using lower-dimensional interface elements with local enrichment of the displacement field”. In: preparation for the Geo:N Topical Collection in Environmental Earth Sciences (2020).

B. Vowinckel, J. Maßmann, G. Ziefle, T. Nagel, D. Naumov und C. Guevara More. “Numerical analysis of coupled hydraulic-mechanical effects on the barrier integrity of Opalinus clay considering shrinkage and fracturing.” In: Geophysical Research Abstracts Vol. 21, EGU General Assembly. 7–12 April, 2019, Vienna, Austria. (2019).

K. Yoshioka und et al. “Fluid driven percolation in barrier rock: experiments and numerical simulation”. In: preparation for the Geo:N Topical Collection in Environmental Earth Sciences (2020).

N. Zhang und T. Nagel. “Error-controlled implicit time integration of elasto-visco-plastic constitutive models for rock salt”. In: International Journal for Numerical and Analytical Methods in Geomechanics in press (2020), S. 1–18.

Shrestha, D., Rizvi, Z.H., Wuttke, F. (2019), Effective thermal conductivity of unsaturated granular geocomposite using Lattice Element Method, Heat and Mass Transfer 55:6 1671–1683. https://link.springer.com/article/10.1007/s00231-018-02544-3

Rizvi, Z.H., Sembdner, K., Suman, A., Giri Prasad, M.J., Wuttke, F. (2019) Experimental and Numerical investigation of Thermo-Mechanical properties for Nano-Geo composite, International Journal of Thermophysics. 40:54 https://link.springer.com/article/10.1007%2Fs10765-019-2518-0

Sattari, A.S., Motra, H.B., Rizvi, Z.H., Wuttke, F. (2019). A new lattice element method (LEM) with integrated interface elements for determining the effective thermal conductivity of rock solids under thermo-mechanical processes. Energy Geotechnics, Springer Series in Geomechanics & Geoengineering. https://link.springer.com/chapter/10.1007/978-3-319-99670-7_34

K. Yoshioka, F. Parisio, D. Naumov, R. Lu, O. Kolditz, and T. Nagel (2019) Comparative Verifications of Discrete and Smeared Numerical Approaches for the Simulation of Hydraulic Fracturing. International Journal of Geomathematics https://link.springer.com/article/10.1007/s13137-019-0126-6

Parisio, F., Tarokh, A., Makhnenko, R., Naumov, D., Miao, X.-Y., Kolditz, O., & Nagel, T. (2018). Experimental characterization and numerical modelling of fracture processes in granite. International Journal of Solids and Structures. https://doi.org/10.1016/j.ijsolstr.2018.12.019

Schmidt, P. and Steeb, H. (2018) Numerical aspects of hydro-mechanical coupling of fluid-filled fractures using hybrid-dimensional element formulations and non-conformal meshes. International Journal of Geomathematics. https://link.springer.com/article/10.1007/s13137-019-0127-5

Osorno, M., Schirwon, M., Kijanski, N., Sivanesapillai, R., Steeb, H. and Göddeke, D. (2018) A cross-platform high performance SPH implementation of flow for digital rock physics. Computer Physics Communication. Submitted.

C. Cortes, M. Osorno, D. Uribe, H. Steeb, O. Ruiz, I. Barandiaran, and J. Florez. (2018) Geometry simplification of open-cell porous materials for elastic deformation FEA. Engineering with Computers. https://link.springer.com/article/10.1007/s00366-018-0597-3

Contributions to the Geo: N Special Issue in Environmental Earth Sciences

O. Kolditz und et al. “GeomInt - Geomechanical integrity of host and barrier rocks - experiment, modeling and analysis of discontinuities”. In: preparation for the Geo:N Topical Collection in Environmental Earth Sciences (2020)

D. Poetschke und et al. “Development of a Matlab-code to simulate direct shear tests”. In: preparation for the Geo:N Topical Collection in Environmental Earth Sciences (2020)

P. Schmidt, J. Renner und H. Steeb. “Numerical Characterization of Hydraulically Tested Fractures at Reiche Zeche”. In: preparation for the Geo:N Topical Collection in Environmental Earth Sciences (2020)

B. Vowinckel, A. Alfarra, J. Maßmann, D. Naumov, G. Zielfe, O. Kolditz und T. Nagel. “Computational modeling of hydraulically induced fault slip in argillaceous rock using lower-dimensional interface elements with local enrichment of the displacement field”. In: preparation for the Geo:N Topical Collection in Environmental Earth Sciences (2020)

K. Yoshioka und et al. “Fluid driven percolation in barrier rock: experiments and numerical simulation”. In: preparation for theGeo:N Topical Collection in Environmental Earth Sciences (2020)

A. Sattari und et al. “Thermo-Mechanical Fracture Behaviour of Opalinus Clay - Experimental and Numercial Analysis”. In: preparation for the Geo:N Topical Collection in Environmental Earth Sciences (2020)

Conference Proceedings

Rizvi, Z.H., Khan, M.A., Motra, H.B., Wuttke, F., Ahmad, J. (2019), Effective Physical Parameter Evaluation of Shallow Crustal Rocks by Lattice Element Method, Materials Today: Proceedings. DOI: 10.1016/j.matpr.2019.06.286

Osorno, M., & Steeb, H. (2018). Smoothed Particle Hydrodynamics model of poroelasticity-fluid coupling. PAMM, Accepted

Schmidt, P., & Steeb, H. (2018). Hydro mechanical coupling using a hybrid dimensional approach and interface element formulations. PAMM, Accepted

Saenger, EH., Stückhert F., Duda, M., Fischer, L., Osorno, M., Steeb, H. (2017) Digital material laboratory: Considerations on high-porous volcanic rock. EGU General Assembly Conference, 19, 14686.

Osorno, M., & Steeb, H. (2017). Coupled SPH and Phase Field method for hydraulic fracturing. PAMM, 17(1), 533-534.

Schmidt, P., & Steeb, H. (2017). Efficient numerical modelling of hydro‐mechanical effects in fractures using a hybrid dimensional approach and non‐conformal mesh coupling. PAMM, 17(1), 559-560.

Participation in international conferences


Osorno, M., Schirwon, M., Falkner, N., Sivanesapillai, R., Göddeke, D & Steeb, H. (2018, May) High performance SPH implementations for pore scale direct numerical simulations. InterPore. New Orleans, USA.

Schmidt, P. & Steeb, H. (2018, May) Fluid-solid interaction in fracture networks using a hybrid-dimensional coupling approach. InterPore. New Orleans, USA.

Osorno, M., Schirwon, M., Falkner, N., Sivanesapillai, R., Steeb, H. & Göddeke, D. (2018, March). Large scale SPH simulation of single phase flow through porous media: Scalability study. Simtech conference. Stuttgart, Germany.

Osorno, M., Schirwon, M., R., Göddeke, D & Steeb, H. (2018, February) Coupling of fluid and poroelastic domains with SPH. Poroelasticity Minisymposium. University of Stuttgart.

Osorno, M., Schirwon, M., Falkner, N., Sivanesapillai, R., Steeb, H. & Göddeke, D. (2017, December). Large scale SPH simulation of single phase flow through porous media: Scalability study. Computational challenges of mechanical simulations based on digital image data. Karlsruhe, Germany.

Osorno, M.,Simeu, M., Sivanesapillai, R., Falkner, N. & Steeb, H. (2017, August) High performance implementation of SPH: Scalability study. 10 Kontinuumsmechanik Workshop. Bad Tölz.

Osorno, M. & Steeb, H. (2017, May). Smoothed Particle Hydrodynamics model of Poroelastic media. Interpore. Rotterdam, Netherlands.

Osorno, M. & Steeb, H. (2017, February). Digital Rock Physics: Permeability anisotropy analysis. Poroelasticity Mini symposium. Lausanne, Switzerland.

Osorno, M. & Steeb, H. (2017, January). Smoothed Particle Hydrodynamics model of Poroelastic media. Winter School. Grenoble, France.


Posters


GeomInt Poster
GeomInt_Vowinckel_et_al_EGU2019
AD_Massmann_Mont Terri
Tools-for-an-easy-computation-of-direct-shear_Poetschke_Schmidt
Parisio_et_al_AGU2018_V2
SPH model of poroelastic media
InterPore Osorno
MS Poroelasticity Osorno
Simtech Orsorno
Winterschool Grenoble Orsorno