Intepretation, modelling, and halokinetic evolution of salt diapirs in the Nordkapp Basin

Master's thesis in Petroleum geosciences engineering The Nordkapp Basin provides one of the examples of salt diapirism in the southwestern Barents Sea, becoming an area of interest for hydrocarbon exploration during the last 30 years. Several exploration wells have been drilled close to salt st...

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Bibliographic Details
Main Author: Rojo Moraleda, Luis Alberto
Format: Master Thesis
Language:English
Published: University of Stavanger, Norway 2015
Subjects:
Nordkapp Basin
petroleumsgeologi
petroleumsteknologi
halokinesis
seismic attributes
salt restoration
VDP::Technology: 500::Rock and petroleum disciplines: 510::Geological engineering: 513
VDP::Mathematics and natural science: 400::Geosciences: 450::Petroleum geology and petroleum geophysics: 464
Barents Sea
Nordkapp
Online Access:http://hdl.handle.net/11250/300552
Description
Summary:Master's thesis in Petroleum geosciences engineering The Nordkapp Basin provides one of the examples of salt diapirism in the southwestern Barents Sea, becoming an area of interest for hydrocarbon exploration during the last 30 years. Several exploration wells have been drilled close to salt structures, finding hydrocarbons shows but not commercial reservoirs. Consequently, it is of critical importance to get a better understating about salt kinematics, which plays an important role creating structural traps and controlling the distribution of reservoirs around salt structures. In this study, we use 3D seismic data and well data located in the southwestern sub-basin of the Nordkapp Basin. Different mapping attribute workflows are used with the aim of defining salt structures, salt-related structural elements, strata terminations, and halokinetic sequences. Therefore, the main objective is to improve mapping techniques and get a better understanding of salt geometries and movement through time, which can provide insights on basin infill. Preliminary work reveals that the salt was deposited during the Late Carboniferous-Early Permian and was remobilized several times during the Triassic, Late Cretaceous and Cenozoic. Seismic multi-trace attributes like Dip illumination and Variance seem to be very suitable for defining salt bodies. Dip illumination produces and excellent definition of the salt body, and Variance is used to identify locations where the salt flank locations are difficult to define. To identify salt-related structural elements, the attribute Ant tracking is applied on the Chaos volume attribute. The so-called Chaos attribute highlights areas where the seismic shows large variation in the locally estimated dip and azimuth. Ant tracking searches for high energy surfaces (fault planes) provided by attributes such as Variance or Chaos and consequently, is reducing the noise inherited to these volumes attributes. Attributes like Cosine of Phase and frequency filters enhances the continuity of reflectors ...

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