Numerical modelling of complex slope deformations

Benko, Boris

01 January 1997

This thesis presents the analysis of complex slope deformations through the application of numerical modelling techniques. Complex slope deformations, in this thesis, include cases where the use of more conventional analytical tools such as limit equilibrium techniques or the use of empirical criteria are not readily applicable. Such a scenario often results from adverse geological and environmental conditions or from human activity. Examples of complex slope deformations are the influence of underground mining on a slope, or situations where rigid jointed rocks overly relatively weak layers. The use of numerical modelling techniques, both continuum and discontinuum, in the analysis of slope stability problems has increased rapidly in the last decade and proved valuable in the analysis of complex geomechanical problems. Two numerical modeling programs FLAC (Fast Lagrangian Analysis of Continua) and UDEC (Universal Distinct Element Code) were used in this thesis. Three main groups of problems were investigated: (1) The analysis of deformation associated with rigid jointed rocks overlying relatively weak layers including a case study involving deformation taking place in the foundation of the Spis Castle in Slovakia. It was demonstrated that the type of deformation in such cases depends on the strength, deformability and thickness of the weak layer as well as the jointing pattern of the overlying rocks. It was shown, that the deformations at Spis castle are governed primarily by the presence of a weak, plastic "creep zone" under the base of the travertine blocks on which the castle is founded. (2) The analysis of toppling deformation in a weak rock slope comprising several lithostratigraphic units at the Luscar Mine, Alberta. It was found that the instability mechanism in the initial phase was flexural toppling, confined to a distinct quasi-linear failure surface which provided the shear plane for subsequent sliding movement. A prediction of slope stability for a planned mine extension in the same pit was made, thereby determining "safe excavation limits". (3) The analysis of interaction between underground mining and slope instability. The analyses of various slope deformation mechanisms that can be induced by underground mining are presented. The analysis of the Frank Slide in southwestern Alberta illustrated the critical role of underground mining at the base of the Turtle Mountain on triggering the final slope failure. The analyses present within this thesis demonstrate the application of numerical modelling techniques in the characterization of complex slope deformations. New interpretations of existing failure mechanisms were presented in the case of the Frank Slide, and improved understanding of the failure mechanism and slope deformation were gained in the Luscar Mine and Spis Castle case studies. Furthermore, hypothetical modelling studies relevant to underground mining and block-type deformations allow an increased understanding of complex slope deformations.

Fast Lagrangian Analysis of Continua

FLAC

landslides

slope instability

geomechanics

UDEC

Universal Distinct Element Code

Charakterisierung des hydromechanischen Verhaltens der Gesteine des Mittleren Buntsandsteins im Hinblick auf eine geothermische Nutzung: Strukturgeologische Geländeaufnahmen, gesteinsmechanische Untersuchungen und numerische Modellierungen / Characterisation of hydro-mechanical processes in the Middle Buntsandstein formation with regard to the utilisation of geothermal energy: Field studies, geomechanical measurements and numerical modelling

Müller, Christian

21 July 2009

No description available.

550 Geowissenschaften

Mathematics and Computer Science

Geothermie

diskrete Kluft-Modelle

Kluftsysteme

Sedimentgesteine

Buntsandstein

hydromechanische Modellierungen

Strömungsmodellierungen

Gesteinsmechanik

Gesteinstechnische Eigenschaften

Barton-Bandis-Modell

geothermal energy

discrete fracture networks

DFN

fracture flow

fluid flow

sedimentary rocks

universal distinct element code

UDEC

Buntsandstein

hydromechanical modelling

Barton-Bandis-model

38.58

56.20

38.25

38.28

38.59

VRG 000: Geothermalfelder

UC 000: Angewandte Hydrologie

UA 300: Modellsysteme {Hydrologie}

VKA100