Abstract:
This research presents the interpretation of data from well-logs , core samples and
subsurface stratigraphic and facies maps obtained from the Gullebi Oil Field, concession
NC7A, Ghadames Basin, NW Libya. The study aims at using well log approach in
establishing the sedimentary lithofacies, their successions and environments of deposition in
this field, and to find out the possible stratigraphic and structural factors that might
influencing the development of sandstone units of the Tahara Formation.
The palaeodepositional environments in the field were deduced by combining gamma
ray log trends with core data. Lithofacies interpretation was carried out using the gamma ray,
effective porosity and resistivity logs obtained from 16 wells. Correlation technique was used
to delineate the subsurface trends of these lithofacies.
Lithofacies identification shows that the entire well interval consists of sand, silt and
shale. Four GR-log motifs representing different lithofacies were recognized in the study
area: a funnel log shape representing beach to proximal deltaic lithofacies; a bell log shape
representing fluvial channel lithofacies; a serrated to spiky log shape representing
transgressive and deep marine slope to basinal shale/silt lithofacies and small scale irregular
serrated log shape representing lagoonal-mud flat lithofacies.
Three reservoir lithofacies associations in the Tahara Sandstones were defined based on
different compositions and diagenetic patterns, represent different reservoir qualities: good
quality lithofacies associated with the transitional beach to proximal deltaic sandstones of
fine to medium grained with total porosity of 20% and measured log-permeability 61md,
medium quality lithofacies associated with fluvial channel sandstones, fine to medium
grained, with total porosity 12% and measured log-permeability 7md, and low-quality
lithofacies associated with marginal deltaic silty sandstones, silt to very fine grained, with
total porosity 10% or even less with measured log-permeability 4md. The porosity and
permeability are better developed in areas of sandstone units deposited in beach-deltaic
environment.
By using the available well control points, isopach maps of the upper sand unit of the
lower Tahara sequence and the upper sand unit of the upper Tahara sequence have been
constructed and revealed that the accumulated thickness of both sand units is a function of
available space to fill and the degree of shallowing or deepening of the associated
depositional surface. Also regional log facies maps have been constructed for these two
selected sandstone units to easily define the distribution of the representative lithofacies and to delineate the arbitrary boundaries characterizing these studied units of the Tahara
Formation.
The stratigraphic factors that may influencing the development of the Tahara
Formation are better explained by sea level changes reflected on depositional lithofacies
types and sedimentation rates (thickness variations), the characteristic mineralogical
composition of the studied sandstone units and the differences in diagenetic processes.
Other structural factors that may be influencing the deposition of the Tahara Formation
related to paleostructural configuration of the Gullebi Field and the major NE-SW striking
bounding fault parallel to the axial plane of the Gullebi anticlinal ridge.