Reservoir characterization of the Lower Cretaceous clastic wedges in the southwestern Barents Sea using seismic analysis and rock physics diagnostic

Master's thesis in Petroleum geosciences engineering The southwestern Barents Sea is an underexplored area of the Norwegian continental shelf, with a few discoveries in Triassic and Jurassic reservoirs. Recently drilled exploration wells on the Loppa High and the surrounding margins have encoun...

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Bibliographic Details
Main Author: Iqbal, Javed
Other Authors: Escalona, Alejandro
Format: Master Thesis
Language:English
Published: University of Stavanger, Norway 2016
Subjects:
petroleumsteknologi
petroleumsgeologi
petroleum geosciences engineering
seismic analysis
rock physics diagnostics
well log facies
VDP::Technology: 500::Rock and petroleum disciplines: 510::Geological engineering: 513
Barents Sea
Loppa
Hammerfest
Hammerfest Basin
Online Access:http://hdl.handle.net/11250/2414775
Description
Summary:Master's thesis in Petroleum geosciences engineering The southwestern Barents Sea is an underexplored area of the Norwegian continental shelf, with a few discoveries in Triassic and Jurassic reservoirs. Recently drilled exploration wells on the Loppa High and the surrounding margins have encountered hydrocarbon bearing clastic wedges in Lower Cretaceous strata. Previous studies have proposed two different depositional environments for these wedges: 1) deep marine fans and, 2) shallow marine transition with tidal influence. Consequently, further studies are required for better understanding of the depositional environment and the reservoir properties of the wedges. This study focusses on reservoir characterization of the Lower Cretaceous clastic wedges along the southern margin of the Loppa High in the Hammerfest Basin. The main objectives of this study are: 1) to define the depositional environment using well logs and seismic data and, 2) to investigate the reservoir properties using rock physics diagnostic. The dataset includes nine wells and four 3D seismic cubes which have been used to define the depositional environment of the wedges. Ten seismic facies (SF1, SF2 …SF10) have been interpreted on the basis of seismic character and gamma-ray log response. Five types of the wedges (Type 1, Type 2…Type 5) have been identified on the basis of seismic facies whereas Type 1 and 4 also have well logs to support the interpretation. Seismic derived attributes such as variance, chaos and sweetness reveal the lobate shape fan delta (Type 4 wedge) and fan shaped submarine fans (Type 3 and 5 wedges). Sweetness attribute differentiates the fan delta and submarine fans based on their sand and shale content which further delimit these depositional bodies. Depending upon the location of the wedges in the basin, the depositional environment ranges from transitional shallow marine to deep marine. The shallow marine environments include coastal/delta plain, fan delta, land slope aprons, and shelf canyons which are restricted to ...

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