Hydrocarbon prospectivity of pinch-out zone of Jurassic deposits in Southwestern part of South Taimyr Monocline

A comprehensive analysis has been conducted on the geological structure of the entire Jurassic interval within the southwestern part of the South Taymyr Monocline, which has allowed a more precise understanding of the structure of the Khabei gas field and the identification of prospective objects of...

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Bibliographic Details
Published in:Georesursy
Main Authors: Ivan S. Igonin, Evgeniy A. Zyza, Irina Yu. Kuleshova, Polina E. Zherzhova, Anna V. Kiryanina, Andrey N. Bondarev
Format: Article in Journal/Newspaper
Language:English
Russian
Published: Georesursy Ltd. 2023
Subjects:
structure-lithological traps
filling of erosional incisions
khabei licence block
hydrocarbon resources
seismic data
Geology
QE1-996.5
Taymyr
Taimyr
Online Access:https://doi.org/10.18599/grs.2023.3.9
https://doaj.org/article/cc9531dfbf774759941a2c89fc0c776e
Description
Summary:A comprehensive analysis has been conducted on the geological structure of the entire Jurassic interval within the southwestern part of the South Taymyr Monocline, which has allowed a more precise understanding of the structure of the Khabei gas field and the identification of prospective objects of similar geological pattern. The study utilized CDP 2D seismic data, covering a total length of 7835 kilometers, as well as results from exploratory and appraisal drilling. Based on visual analysis of temporal cross-sections, an assumption has been made regarding the correlation between reservoir development zones and paleo-channel systems of the Lower-Middle Jurassic deposits. In order to identify and locate such systems, an analysis of temporal cross-sections, maps of total Jurassic deposit thickness, and maps of dynamic attributes were conducted. As a result, areas of development of large paleo-channel systems (paleo-valleys) within the South Taymyr Monocline have been delineated through integration. These identified zones are characterized by relatively shallow burial depths of up to 2.5 km, the absence of abnormally high reservoir pressures (AHBP), and comparably high filtration-capacity properties for Jurassic reservoirs (porosity – 22%, permeability – 25–50 mD). However, considering the complexity of these objects’ structures and the uncertainties caused by the low degree of geological-geophysical exploration in the study area, it is recommended to conduct additional seismic surveys (CDP 3D) to maturate the objects for exploration drilling.

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