Print this page
The Kuyumba Oil Field,
Mattioni, Luca1, Olivier Fonta1,
Sylvain Sarda1, Victor Ryabchenko2, Evgueni
Sokolov3, Reval Mukhametzyanov4,
Sergey Shlionkin5, Vladislav Zereninov5,
Irina Bobb1;.(1) Beicip-Franlab, Rueil Malmaison, France (2) Slavneft-Krasnoyarskneftegaz,Krasnoyarsk, Russia (3) Slavneft Moscow, Russia (4) Sibneft
E/P, Moscow, Russia;.(5)
Pre-Cambrian
reservoirs represent very promising targets for petroleum exploration and
production in 
data
(production data, PLT, welltest),
we performed a multi-disciplinary study, to analyse
the main types of fractures occurring within the reservoir, to predict their
occurrence in the reservoir and to determine the hydraulic properties of the
different fractures sets. Two main scales of fractures were firstly predicted
from the BHI images: joints and large-scale fractures (faults and fracture
swarms). Vsh content and mechanical beds thickness
were found to be the two main geological factors controlling the fracture
distribution. BHI acoustic images enabled to measure an S/T ratio (fracture
spacing/bed thickness) for each fracture set and for different shalyness. A 3D stochastic fracture model was then
generated incorporating the two scales of fractures and constrained by the
reservoir shalyness and the S/T ratio. The
calibration of the hydraulic properties of the fractures was achieved through
the second innovative part of our own methodology: the simulation of a
synthetic well test using the 3D fracture model and matched with the real data.
This resulted in the calibration of the hydraulic fractures conductivity for
each fracture type. The values were combined with the 3D stochastic fracture
model, to produce 3D
fracture properties models (porosity, permeability and
block size) for the considered oil field.