Application of an integrated workflow for shallow-hazard characterization using a 3D high-resolution survey offshore Azerbaijan

Abstract: A methodology has been developed for quantitative prediction of shallow-hazard zones based on 3D high-resolution (3DHR) seismic and shallow-log data. The main goal of the integrated workflow is to produce an optimal structural image, conduct an AVO feasibility study and, if applicable, identify AVO trends within the depositional sequences of the shallow overburden at the Azeri field offshore Azerbaijan. Shallow, near-surface geologic-engineering hazards and features are not always visible on seismic volumes ty… Show more

“…They occurred in a close basin formed by terrigenous input provided by turbidity currents and deltas (e.g., Abdullayev, 2000). Complex diapiric structures occur in the fold core of the KAD anticline and are fed by overpressured muds, which produce a characteristic low-velocity zone and a shallow seismic attenuation (Lee et al, 1998;Gherasim et al, 2015;Hill et al, 2015). Most of the mud-diapir bodies are developed within the PS units, with a diapir head situated just below the PS-top, although the more mature structures occurring in the KAD fold culmination achieve exceptionally the Akchagyl Unit.…”

3D geometry of a shale-cored anticline in the western South Caspian Basin (offshore Azerbaijan)

“…They occurred in a close basin formed by terrigenous input provided by turbidity currents and deltas (e.g., Abdullayev, 2000). Complex diapiric structures occur in the fold core of the KAD anticline and are fed by overpressured muds, which produce a characteristic low-velocity zone and a shallow seismic attenuation (Lee et al, 1998;Gherasim et al, 2015;Hill et al, 2015). Most of the mud-diapir bodies are developed within the PS units, with a diapir head situated just below the PS-top, although the more mature structures occurring in the KAD fold culmination achieve exceptionally the Akchagyl Unit.…”

3D geometry of a shale-cored anticline in the western South Caspian Basin (offshore Azerbaijan)

Numerical simulation of mechanical compaction of deepwater shallow sediments

Shallow Water Flows (SWF) evaluation by 3D seismic studies in the South Caspian Basin, Iran