October Field is one of the most prolific offshore
oil fields in the Gulf of Suez of Egypt. It consists of a
number of marine platforms and produces oil from different reservoirs of different geological ages from the Lower Cretaceous to the Miocene. The aim of this study was toenhance a seismic-log evaluational procedure to evaluate the Miocene-aged Asl and Hawara Formations which encounter the main hydrocarbon and source rock potentials in the area North of October Oil Field. The well logging data, the borehole seismic data, and the velocity surveys are all used in this study. A number of synthetic seismograms are constructed and interpreted together with the deduced seismic impedance and reflection coefficient data for many wells in the study area. In addition, a comprehensive velocity analysis is performed using the seismic times and the computed average and interval velocities. These seismic-derived parameters are primarily used in recognizing and locating precisely the marl and sand sections of Asl Formation which show low to middle amplitudes. Furthermore, a quantitative well logging analysis is carried out over Asl and Hawara Formations to shed light over their hydrocarbon potentiality. Good oil saturation is exhibited by the Asl sand section which reaches to more than 90% in the southern parts of the study area. The petrophysical
characters of this sand are very good in terms of good
effective porosity (9% to13%), low shale volume (Vsh<
5%), and high oil saturation (Sh>85%). The sections of the Asl marl and the Hawara shale on the other hand are
considered completely wet. An integrated model making
use of the seismic- and log-derived properties is applied
over the two studied formations for better understanding the reservoir of interest. Many relations are constructed
between velocity, seismic impedance, and the rock pore
spaces on one hand and between the velocity, lithology, and
fluid content on the other hand. This study revealed that the
sand section attains very good oil-bearing potentiality in the study area and proved that the application of an integrated model of the log- and seismic-derived properties led to an enhanced evaluation of the Asl and Hawara Formations, good discrimination between their lithological components besides precise differentiation from the overlying Middle to Late Miocene sections |
