Non-linear effects of pore pressure increase on seismic event generation in a multi-degree-of-freedom rate-and-state model of tectonic fault sliding

Non-linear effects of pore pressure increase on seismic event generation in a multi-degree-of-freedom rate-and-state model of tectonic fault sliding

The influence of fluid injection on tectonic fault sliding and seismic event generations was studied by a multi-degree-of-freedom rate-and-state friction model with a two-parametric friction law. A system of blocks (up to 25 blocks) elastically connected to each other and connected by elastic spring...

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Veröffentlicht in:Nonlinear processes in geophysics 2017-05, Vol.24 (2), p.215-225
Hauptverfasser: Turuntaev, Sergey B, Riga, Vasily Y
Format: Artikel
Sprache:eng
Schlagworte:
Degrees of freedom
Dependence
Earthquakes
Effective stress
Elastic properties
Faults (Geology)
Fluid injection
Friction
Injection
Mathematical models
Nonlinearity
Observations
Parameters
Pore pressure
Pressure effects
Seismic activity
Seismicity
Shear stress
Sliding
Slip
Slumping
Spring
Springs (elastic)
Stiffness
Stress
Stresses
Substrates
Tectonics
Velocity
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Zusammenfassung:The influence of fluid injection on tectonic fault sliding and seismic event generations was studied by a multi-degree-of-freedom rate-and-state friction model with a two-parametric friction law. A system of blocks (up to 25 blocks) elastically connected to each other and connected by elastic springs to a constant-velocity moving driver was considered. Variation of the pore pressure due to fluid injection led to variation of effective stress between the first block and the substrate. Initially the block system was in a steady-sliding state; then, its state was changed by the pore pressure increase. The influence of the model parameters (number of blocks, spring stiffness, velocity weakening parameter) on the seismicity variations was considered. Various slip patterns were obtained and analysed.
ISSN:1607-7946
1023-5809
1607-7946
DOI:10.5194/npg-24-215-2017