TY  - JOUR
N2  - The 3-D seismic dataset is a key tool to analyze and understand the mechanism of structural and stratigraphic hydrocarbon (HC) trapping in the subsurface. Conventionally used subsurface seismic characterization methods for fractures are based on the theory of effective anisotropy medium. The aim of this work is to improve the structural images with dense sampling of 3-D survey to evaluate structural and stratigraphic models for reservoir development to predict reservoir quality. The present study of the Gullfaks Field, located in the Norwegian North Sea Gullfaks sector, identifies the shallowest structural elements. The steepness of westward structural dip decreases eastward during the Upper Jurassic to Lower Cretaceous deposition. Reservoir sands consist of the Middle Jurassic deltaic deposits and Lower Jurassic fluvial channel and delta plain deposits. Sediment supply steadily prevails on sea-level rise and the succession displays a regressive trend indicated by a good continuous stacking pattern. The key factor for the development of reservoirs in the Gullfaks Field is fault transmissibility with spatially distributed pressure. The majority of mapped faults with sand-to-sand contacts are non-sealing, which provide restriction for the HC flow between the fault blocks. The traps for HC accumulation occur between the post-rift and syn-rift strata, i.e. antiform set by extensional system, unconformity trap at the top of syn-deposition, and structural trap due to normal faults. Overall reservoir quality in the studied area is generally excellent with average 35 porosity and permeability in the Darcy range. Our findings are useful to better understand the development of siliciclastic reservoirs in similar geological settings worldwide. © 2021 The Authors
VL  - 2
JF  - Energy Geoscience
AV  - none
EP  - 297
KW  - Faulting; Flow of fluids; Image enhancement; Petroleum reservoir engineering; Sea level; Seismology; Stratigraphy
KW  -  3-D seismic model; 3-D seismics; Gullfaks Fields; Jurassic; Lower Cretaceous; Mesozoic; Mesozoic stratigraphic boundary; Reservoir quality; Seismic model; Structural traps
KW  -  Deposits
KW  -  data interpretation; data set; enhanced oil recovery; hydrocarbon exploration; hydrocarbon generation; hydrocarbon reservoir; Jurassic-Cretaceous boundary; three-dimensional modeling
KW  -  Atlantic Ocean; Gullfaks Field; North Sea
PB  - KeAi Communications Co.
UR  - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85118265350&doi=10.1016%2fj.engeos.2021.06.001&partnerID=40&md5=123a1e7672e80b1d28152e41816157bf
TI  - 3-D seismic interpretation of stratigraphic and structural features in the Upper Jurassic to Lower Cretaceous sequence of the Gullfaks Field, Norwegian North Sea: A case study of reservoir development
SN  - 26667592
ID  - scholars14374
A1  - Usman, M.
A1  - Siddiqui, N.A.
A1  - Garzanti, E.
A1  - Jamil, M.
A1  - Imran, Q.S.
A1  - Ahmed, L.
Y1  - 2021///
N1  - cited By 5
SP  - 287
IS  - 4
ER  -