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Title: Development of a fully three-dimensional simulator for analysis and design of hydraulic fracturing

Conference · · Soc. Pet. Eng. AIME, Pap.; (United States)
OSTI ID:5198214
; ;

This paper describes the formulation and numerical implementation of the framework for a full three-dimensional hydraulic fracturing simulator (3DHFRAC). Solid rock deformation is described by efficient singular integral equation techniques and fluid flow in the fracture is captured by effective viarational/finite-element methods. The choice of (local vs. global) interpolation techniques allows the same mesh to be used for both processes, and major mesh regeneration costs are greatly reduced. The computationally prohibitive problem of fluid flow near and propagation of the fracture perimeter is rendered tractable by means of a leading-edge concept, which draws on existing experience with simpler models. Testing of the model components is demonstrated by solving some crack-opening and fluid flow problems with existing solutions; then the overall model is verified with reference to simpler models, for circular, CGD and P3DH-type fracture geometries. Further, the containment role of barriers to fracture growth-specifically confining stress variations between reservoir and adjacent strata--is demonstrated; the more general potential of the model to describe the role of the many other mechanisms is emphasized, thus allowing calibration of simpler models or even direct use for treatment design.

Research Organization:
Massachusetts Inst. of Technology
OSTI ID:
5198214
Report Number(s):
CONF-830305-
Journal Information:
Soc. Pet. Eng. AIME, Pap.; (United States), Vol. SPE/DOE 11631; Conference: SPE symposium on low permeability, Denver, CO, USA, 14 Mar 1983
Country of Publication:
United States
Language:
English

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Related Subjects

03 NATURAL GAS
HYDRAULIC FRACTURING
COMPUTERIZED SIMULATION
DEFORMATION
DESIGN
FLUID FLOW
NATURAL GAS WELLS
RESERVOIR ROCK
SIMULATORS
THREE-DIMENSIONAL CALCULATIONS
ANALOG SYSTEMS
COMMINUTION
FRACTURING
FUNCTIONAL MODELS
SIMULATION
WELLS
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