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Abstract: Modelling Flow in Faulted Sandstone Reservoirs

Thomas Manzocchi, Philip S. Ringrose, John R. Underhill

Faults that are too small to be detected seismically are often modelled probabilistically. This work investigates some of the assumptions inherent in these techniques, in particular regarding scaling relationships and Previous HitfaultNext Hit geometries.

Probabilistic techniques extrapolate the scaling properties of seismically resolved Previous HitfaultNext Hit systems, usually by assuming that Previous HitfaultNext Hit populations are self-similar. Self-similarity is assumed based on a power-law relationship between Previous HitfaultNext Hit frequency and Previous HitfaultNext Hit size. Such a relationship only proves scale-invariance of a particular geometrical characteristic of the system. For a truly self-similar system, all Previous HitfaultNext Hit system attributes must have complementary power-law slopes. Field datasets have been studied from high porosity sandstone outcrops in the north of England and Utah. A comparison of the power-law gradients of various Previous HitfaultNext Hit system attributes shows that scaling is highly lithology controlled, and that these Previous HitfaultNext Hit systems may be self-affine but are not self-similar.

Small scale faults in porous sandstones are flow baffles, and so flow is controlled not only by Previous HitfaultNext Hit density, but also by the geometrical architecture of the Previous HitfaultNext Hit system. A probabilistic Previous HitfaultNext Hit placement methodology cannot represent the complex Previous HitfaultNext Hit architecture present at a small scale. Flow simulation models on Previous HitfaultNext Hit systems with various geometrical characteristics show that effective permeability is highly sensitive to Previous HitfaultNext Hit geometry, as well as Previous HitfaultNext Hit density. An improvement to a probabilistic Previous HitfaultNext Hit placement methodology based on the Previous HitfaultTop connectivity characteristics allows a better assessment of the effect of small-scale faults on reservoir flow behaviour.

AAPG Search and Discovery Article #90956©1995 AAPG International Convention and Exposition Meeting, Nice, France