SPE Journal
Volume 18,
Number 2,
April 2013,
pp. 296-308
Summary
It has been demonstrated experimentally that Leverett's J-function
yields almost unique dimensionless drainage capillary pressure curves in
relatively homogeneous rocks at strongly water-wet conditions, whereas for
imbibition at mixed-wet conditions, it does not work satisfactorily because the
permeability dependency on capillary pressure has been reported to be weak. The
purpose of this study is to formulate a new dimensionless capillary pressure
function for mixed-wet conditions on the basis of pore-scale modeling, which
could overcome these restrictions. We simulate drainage, wettability
alteration, and imbibition in 2D rock images by use of a semianalytical
pore-scale model that represents the identified pore spaces as cross sections
of straight capillary tubes. The fluid configurations occurring during drainage
and imbibition in the highly irregular pore spaces are modeled at any capillary
pressure and wetting condition by combining the free-energy minimization with
an arc meniscus (AM)-determining procedure that identifies the intersections of
two circles moving in opposite directions along the pore boundary. Circle
rotation at pinned contact lines accounts for mixed-wet conditions. Capillary
pressure curves for imbibition are simulated for different mixed-wet conditions
in Bentheim sandstone samples, and the results are scaled by a newly proposed
improved J-function that accounts for differences in formation
wettability induced by different initial water saturations after primary
drainage. At the end of primary drainage, oil-wet-pore wall segments are
connected by many water-wet corners and constrictions that remain occupied by
water. The novel dimensionless capillary pressure expression accounts for these
conditions by introducing an effective contact angle that depends on the
initial water saturation and is related to the wetting property measured at the
core scale by means of a wettability index.
The accuracy of the proposed J-function is tested on 36 imbibition
capillary pressure curves for different mixed-wet conditions that are simulated
with the semianalytical model in scanning-electron-microscope (SEM) images of
Bentheim sandstone. The simulated imbibition capillary pressure curves and the
reproduced curves, based on the proposed J-function, are in good
agreement for the mixed-wet conditions considered in this study. The detailed
behavior is explained by analyzing the fluid displacements occurring in the
pore spaces. It is demonstrated that the proposed J-function could be
applied to mixed-wet conditions to generate a family of curves describing
different wetting states induced by assigning different wetting properties on
the solid surfaces or by varying the initial water saturation after primary
drainage. The variability of formation wettability and permeability could be
described more accurately in reservoir-simulation models by means of the
proposed J-function, and hence the opportunity arises for improved
evaluation of core-sample laboratory experiments and reservoir performance.
© 2012. Society of Petroleum Engineers
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History
- Original manuscript received:
22 February 2012
- Meeting paper published:
14 April 2012
- Revised manuscript received:
14 June 2012
- Manuscript approved:
25 September 2012
- Published online:
28 December 2012
- Version of record:
5 April 2013
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