relation: https://episodesplatform.eu/eprints/1545/ title: Pore pressure diffusion and the mechanism of reservoir-induced seismicity creator: Talwani, Pradeep creator: Acree, Steve subject: Collective properties of seismicity subject: Technology-seismicity interaction subject: Reservoir impoundment description: The study of reservoir-induced seismicity offers a controlled setting to understand the physics of the earthquake process. Data from detailed investigations at reservoirs in South Carolina suggested that the mechanism of transmission of stress to hypocentral locations is by a process of diffusion of pore pressure (Pp). These results were compared with available worldwide data. The ‘seismic’ hydraulic diffusivity, α s , was estimated from various seismological observations, and was found to be a good estimate of the material hydraulic diffusivity, α. Application of these results to a dedicated experiment to understand RIS at Monticello Reservoir, S.C., suggested that the diffusing Pp front plays a dual role in the triggering of seismicity. The spatial and temporal pattern of RIS can be explained by the mechanical effect of diffusion of Pp with a characteristic hydraulic diffusivity within an order of magnitude of 5×104 cm2/s, corresponding to permeability values in the millidarcy range. The triggering of seismicity is due to the combined mechanical effect of Pp in reducing the strength and, possibly, the chemical effect in reducing the coefficient of friction between the clays in the pre-existing fractures and the rocks that enclose these fractures. publisher: Springer Verlag date: 1985 type: Article type: PeerReviewed identifier: Talwani, Pradeep and Acree, Steve (1985) Pore pressure diffusion and the mechanism of reservoir-induced seismicity. Pure and Applied Geophysics, 122 (6). pp. 947-965. DOI: https://doi.org/10.1007/BF00876395 relation: http://dx.doi.org/10.1007/BF00876395 relation: doi:10.1007/BF00876395