Equation predicts non-Darcy flow coefficient
Journal Article
·
· Oil and Gas Journal; (United States)
OSTI ID:6761910
An equation has been derived for obtaining a non-Darcy flow coefficient that facilitates gas well remedial treatment calculations and production performance evaluations. For high-capacity gas wells, pressure drop near the well bore cannot be estimated from the Darcy equation in which the pressure gradient is proportional to the flow velocity (laminar flow). To describe the additional pressure drop in the transition of the laminar-turbulent flow regime, Forchheimer proposed an equation in which the non-Darcy term is proportional to the flow velocity squared. To determine the coefficient of proportionality, the non-Darcy flow coefficient, [beta], empirical data or semitheoretical equations are used. As a result of non-Darcy flow, estimates of the coefficient from build-up pressure test values of the apparent skin become rate dependent. For this reason, the nature of the skin, formation (true) skin or rate dependent skin, is important for designing remedial treatments or for evaluating the productivity of a perforated gas well. A semitheoretical equation is proposed in this article for relating the non-Darcy flow coefficient, [beta] (cm[sup [minus]1]), to effective gas permeability, k[sub g] (Darcies), porosity, [phi], and irreducible water saturation, S[sub w].
- OSTI ID:
- 6761910
- Journal Information:
- Oil and Gas Journal; (United States), Journal Name: Oil and Gas Journal; (United States) Vol. 91:11; ISSN OIGJAV; ISSN 0030-1388
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
03 NATURAL GAS
030300* -- Natural Gas-- Drilling
Production
& Processing
CALCULATION METHODS
EQUATIONS
FLUID FLOW
FLUID MECHANICS
GAS FLOW
LAMINAR FLOW
MECHANICS
NATURAL GAS WELLS
PERFORMANCE
PERMEABILITY
POROSITY
PRESSURE DROP
PRESSURIZATION
PRODUCTION
SATURATION
TESTING
TURBULENT FLOW
WATER SATURATION
WELL SERVICING
WELLS
030300* -- Natural Gas-- Drilling
Production
& Processing
CALCULATION METHODS
EQUATIONS
FLUID FLOW
FLUID MECHANICS
GAS FLOW
LAMINAR FLOW
MECHANICS
NATURAL GAS WELLS
PERFORMANCE
PERMEABILITY
POROSITY
PRESSURE DROP
PRESSURIZATION
PRODUCTION
SATURATION
TESTING
TURBULENT FLOW
WATER SATURATION
WELL SERVICING
WELLS