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Investigation of the effect of gel residue on hydraulic fracture conductivity using dynamic fracture conductivity test

The key to producing gas from tight gas reservoirs is to create a long, highly
conductive flow path, via the placement of a hydraulic fracture, to stimulate flow from the
reservoir to the wellbore. Viscous fluid is used to transport proppant into the fracture.
However, these same viscous fluids need to break to a thin fluid after the treatment is over
so that the fracture fluid can be cleaned up. In shallower, lower temperature (less than
250oF) reservoirs, the choice of a fracture fluid is very critical to the success of the
treatment. Current hydraulic fracturing methods in unconventional tight gas reservoirs
have been developed largely through ad-hoc application of low-cost water fracs, with little
optimization of the process. It seems clear that some of the standard tests and models are
missing some of the physics of the fracturing process in low-permeability environments.
A series of the extensive laboratory “dynamic fracture conductivity” tests have
been conducted. Dynamic fracture conductivity is created when proppant slurry is
pumped into a hydraulic fracture in low permeability rock. Unlike conventional fracture
conductivity tests in which proppant is loaded into the fracture artificially, we pump
proppant/ fracturing fluid slurries into a fracture cell, dynamically placing the proppant
just as it occurs in the field.
Test results indicate that increasing gel concentration decreases retained fracture
conductivity for a constant gas flow rate and decreasing gas flow rate decreases retained
fracture conductivity. Without breaker, the damaging effect of viscous hydraulic
fracturing fluids on the conductivity of proppant packs is significant at temperature of
150oF. Static conductivity testing results in higher retained fracture conductivity when
compared to dynamic conductivity testing.

Identiferoai:union.ndltd.org:tamu.edu/oai:repository.tamu.edu:1969.1/ETD-TAMU-2102
Date15 May 2009
CreatorsMarpaung, Fivman
ContributorsHill, A. Daniel
Source SetsTexas A and M University
Languageen_US
Detected LanguageEnglish
TypeBook, Thesis, Electronic Thesis, text
Formatelectronic, application/pdf, born digital

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