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W2479343827 abstract "While there is debate concerning total gas-hydrate reserves, researchers have suggested boundary surfaces of stable hydrates are far larger than originally anticipated. Recently, a theoretical basis has begun to emerge supporting the hypothesis that pore pressures may increase on hydrate dissociation. Therefore, re-assessment of risk (e.g. earthquake triggers) to seafloor installations is required. Typically, regional seismic assessments exclude site-scale sediment property data. Consequently, the potential for underestimating risk is significant, particularly when shear strengths are reduced by increased pore pressure. This suggests, for example, there is a need for improved geophysical and geotechnical property-models for sediment-hosted methane-hydrates. Typically, seismic hazard assessments utilize only the ‘engineering soil’ to model the control of local geology on earthquake ground motion. While ground motion amplification caused by the weakest, shallowest sediments is reported widely, similar studies including contributions from deeper geological units are rare. Using a conservative infinite slope model, a methodology is presented for mapping the factor of safety; it is based on modelling sediments on the continental shelf and slope through use of existing geological-lithological models and compatible earthquake time series (Musson et al., 1997; Jackson et al., 1999). Defining lithologies, we derive the soil and rock properties needed in simulating the propagation of earthquake ground motion from bedrock to the seabed through the sediment column. A perceived problem in modelling ground motion amplification in the deeper subsurface is a lack of engineering geotechnical data. However, for such studies we show density and shear wave velocity data from conventional downhole logs (e.g. Ocean Drilling Program and reservoir characterisation) can by incorporated directly, being primary parameters in standard ground motion modelling. Results are presented for synthetic models showing changes in lithology in the deeper subsurface can significantly affect earthquake induced ground motion at the surface. A field example, from the AFEN slide west of Shetland, on the UK Atlantic continental slope is presented where we compare the traditional ‘shallow’ approach to ground motion amplification modelling with one utilizing geological data to depths of 1.8 km and known lithologies to greater depths. Our results suggest the use of ‘soil’ properties to depths in excess of 600 mbsf is significant. The use of earthquake time series matching the site are also shown to have a significant impact; we have compiled an earthquake catalogue for the region, developed a seismo-tectonic source model, and used a probabilistic approach to predict effective ground accelerations at required return periods. From this base we modeled reductions in Factor of Safety to be expected as a consequence of hydrate dissociation. To simulate hydrate dissociation we modeled increasing pore pressures in our physical property models which in turn cause reductions in shear strength and shear wave" @default.
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W2479343827 date "2004-01-01" @default.
W2479343827 modified "2023-09-26" @default.
W2479343827 title "SLOPE STABILITY ISSUES IN HYDRATE BEARING SEDIMENTS UNDER SEISMIC LOADING" @default.
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