Method for Computing Unsteady Flows in Porous Media
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A01=E Ozkan
A01=R Raghavan
advanced algorithm development
Author_E Ozkan
Author_R Raghavan
boundary condition modeling
Category=PBKJ
Category=PBW
computational geoscience
Dimensionless Fracture Conductivity
Distributional Interpretation
Duhamel's Formula
Duhamel’s Formula
E Ozkan
Elliptic PDE
eq_isMigrated=1
eq_isMigrated=2
eq_nobargain
extraction point simulation
Fissure System
Laplace Transformation
Layered Porous Media
Pore Volume Compressibility
Porous Media
R Raghavan
saturated porous systems
Self-adjoint Elliptic Operator
Source Density
three dimensional flow analysis
Total Production Rate
unsteady porous media flow visualization
Van Everdingen
Volumetric Source
Wellbore Pressure
Wellbore Storage Effects
Product details
- ISBN 9780582078116
- Weight: 250g
- Dimensions: 156 x 234mm
- Publication Date: 15 May 1995
- Publisher: Taylor & Francis Ltd
- Publication City/Country: GB
- Product Form: Paperback
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Self-contained and concise, this Research Note provides a basis to study unsteady flow in saturated porous media. It provides for the development of algorithms that examine three-dimensional flows subject to complicated boundary conditions that are a natural consequence of flow in geological systems. A new way to understand the flow in porous media is presented. The authors pay attention to computational considerations, and options for developing codes are addressed. The note consists of five chapters: the first is introductory; the second and third are devoted to showing how one arrives at the solutions of interest; the fourth chapter presents various reformulations to aid computations and presents a few illustrative examples; the fifth chapter is a natural progression of the first four chapters to more complicated visualizations of flow in porous media.
