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Title: Non-Darcy gas flow through propped fractures; Effects of partial saturation, gel damage, and stress

Journal Article · · SPE (Society of Petroleum Engineers) Production Engineering; (USA)
DOI:https://doi.org/10.2118/16899-PA· OSTI ID:5341832
; ;  [1]
  1. National Institute for Petroleum and Energy Research (US)
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The authors discuss work to identify and quantify important parameters affecting gas production through propped fractures under a non-Darcy gas flow regime. The gas flow capacity of a simulated propped fracture was studied systematically to determine the effects of partial saturation, gel damage, and stress conditions. The flow-capacity response of the 20/40-mesh sand tested throughout this project was affected significantly by variations in the effective gas porosity of the proppant pack. Permeability and non-Darcy flow characteristics were correlated to effective gas porosity. Partial saturation was found to be a key parameter influencing the permeability and non-Darcy gas flow behavior of a proppant pack. Partially saturated fractures may result from incomplete removal of fracturing fluid, mobility of formation waters, or production of condensates. The partial saturation of the proppant pack, in effect, changes the open porosity available for gas flow, which adversely affects gas permeability and non-Darcy flow parameters. The results from this investigation demonstrate that non-Darcy gas flow behavior through propped fractures in which a saturation phase is present cannot be estimated from results using dry-proppant-pack tests.

OSTI ID:
5341832
Journal Information:
SPE (Society of Petroleum Engineers) Production Engineering; (USA), Vol. 4:4; ISSN 0885-9221
Country of Publication:
United States
Language:
English

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Related Subjects

02 PETROLEUM
OIL WELLS
WELL STIMULATION
RESERVOIR ROCK
PERMEABILITY
GAS FLOW
GELS
HYDRAULIC FRACTURING
OIL SATURATION
PARAMETRIC ANALYSIS
POROSITY
PROPPING AGENTS
STRESSES
VARIATIONS
COLLOIDS
COMMINUTION
DISPERSIONS
FLUID FLOW
FRACTURING
SATURATION
STIMULATION
WELLS
020300* - Petroleum- Drilling & Production