Abstract
The input files of all subsequent examples can be found on the OGS website https://docs.opengeosys.org/books. In the sequel, we will describe selected input files and keywords relevant to the specific examples. More complete and automatically updated keyword descriptions are available online under the link https://svn.ufz.de/ogs/wiki/public/doc-auto for OGS-5 and https://doxygen.opengeosys.org/index.html for OGS-6. Furthermore, some descriptions will be repeated for the different examples as this redundancy helps to clarify the use of the keywords.
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Notes
- 1.
More information under https://svn.ufz.de/ogs/wiki/public/doc-auto.
- 2.
The number indicates the possibility to account for local thermal non-equilibrium and hence several temperatures at a given point.
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- 4.
- 5.
Integration point quantities such as stresses and strains are extrapolated to the nodes for output.
References
Bathe K (2014) Finite element procedures, 2nd edn. Klaus-Jürgen Bathe, Watertown
Cacace M, Blöcher G (2015) MeshIt—a software for three dimensional volumetric meshing of complex faulted reservoirs. Environ Earth Sci 74(6):5191–5209
Du C, Yang C, Yao Y, Li Z, Chen J (2012) Mechanical behaviour of deep rock salt under the operational conditions of gas storage. Int J Earth Sci Eng 5(6):1670–1676
Hampel A, Günther R, Salzer K, Minkley W, Pudewills A, Leuger B, Zapf D, Rokahr R, Herchen K, Wolters R et al (2010) BMBF-Verbundprojekt: Vergleich aktueller Stoffgesetze und Vorgehensweisen anhand von 3D-Modellberechnungen zum mechanischen Langzeitverhalten eines realen Untertagebauwerks im Steinsalz. Technical Report
Heusermann S, Lux K-H, Rokahr R (1983) Entwicklung mathematisch-mechanischer Modelle zur Beschreibung des Stoffverhaltens von Salzgestein in Abhängigkeit von der Zeit und der Temperatur auf der Grundlage von Laborversuchen mit begleitenden kontinuumsmechanischen Berechnungen nach der Methode der finiten Elemente. Fachinformationszentrum Energie, Physik, Mathematik, Karlsruhe
Heusermann S, Rolfs O, Schmidt U (2003) Nonlinear finite-element analysis of solution mined storage caverns in rock salt using the LUBBY2 constitutive model. Comput Struct 81(8–11):629–638; K.J Bathe 60th Anniversary Issue
Kolditz O, Görke U-J, Shao H, Wang W, Bauer S (eds) (2016) Thermo-hydro-mechanical-chemical processes in fractured porous media: modelling and benchmarking. Benchmarking initiatives. Terrestrial environmental sciences. Springer, Cham
Nagel T, Minkley W, Böttcher N, Naumov D, Görke U-J, Kolditz O (2017) Implicit numerical integration and consistent linearization of inelastic constitutive models of rock salt. Comput Struct 182:87–103
Sriapai T, Walsri C, Fuenkajorn K (2012) Effect of temperature on compressive and tensile strengths of salt. ScienceAsia 38(2):166–174
Zienkiewicz OC, Taylor RL, Zhu JZ (2005–2006) The finite element method set, 6th edn. Elsevier Butterworth-Heinemann, Oxford
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Nagel, T., Böttcher, N., Görke, UJ., Kolditz, O. (2017). Simulation of Laboratory Tests. In: Computational Geotechnics. SpringerBriefs in Energy(). Springer, Cham. https://doi.org/10.1007/978-3-319-56962-8_3
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