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Numerical Treatment of Multiphase Flows in Porous Media [electronic resource] : Proceedings of the International Workshop Held a Beijing, China, 2–6 August 1999 /
The need to predict, understand, and optimize complex physical and c- mical processes occurring in and around the earth, such as groundwater c- tamination, oil reservoir production, discovering new oil reserves, and ocean hydrodynamics, has been increasingly recognized. Despite their seemingly disparate natures, these geoscience problems have many common mathe- tical and computational characteristics. The techniques used to describe and study them are applicable across a broad range of areas. The study of the above problems through physical experiments, mat- matical theory, and computational techniques requires interdisciplinary col- boration between engineers, mathematicians, computational scientists, and other researchers working in industry, government laboratories, and univ- sities. By bringing together such researchers, meaningful progress can be made in predicting, understanding, and optimizing physical and chemical processes. The International Workshop on Fluid Flow and Transport in Porous - dia was successfully held in Beijing, China, August 2{6, 1999. The aim of this workshop was to bring together applied mathematicians, computational scientists, and engineers working actively in the mathematical and nume- cal treatment of ?uid ?ow and transport in porous media. A broad range of researchers presented papers and discussed both problems and current, state-of-the-art techniques.
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| Format: | Texto biblioteca |
| Language: | eng |
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Berlin, Heidelberg : Springer Berlin Heidelberg,
2000
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| Subjects: | Physics., Earth sciences., Continuum physics., Fluids., Condensed matter., Fluid mechanics., Classical Continuum Physics., Condensed Matter Physics., Engineering Fluid Dynamics., Fluid- and Aerodynamics., Numerical and Computational Physics., Earth Sciences, general., |
| Online Access: | http://dx.doi.org/10.1007/3-540-45467-5 |
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Physics. Earth sciences. Continuum physics. Fluids. Condensed matter. Fluid mechanics. Physics. Classical Continuum Physics. Condensed Matter Physics. Engineering Fluid Dynamics. Fluid- and Aerodynamics. Numerical and Computational Physics. Earth Sciences, general. Physics. Earth sciences. Continuum physics. Fluids. Condensed matter. Fluid mechanics. Physics. Classical Continuum Physics. Condensed Matter Physics. Engineering Fluid Dynamics. Fluid- and Aerodynamics. Numerical and Computational Physics. Earth Sciences, general. |
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Physics. Earth sciences. Continuum physics. Fluids. Condensed matter. Fluid mechanics. Physics. Classical Continuum Physics. Condensed Matter Physics. Engineering Fluid Dynamics. Fluid- and Aerodynamics. Numerical and Computational Physics. Earth Sciences, general. Physics. Earth sciences. Continuum physics. Fluids. Condensed matter. Fluid mechanics. Physics. Classical Continuum Physics. Condensed Matter Physics. Engineering Fluid Dynamics. Fluid- and Aerodynamics. Numerical and Computational Physics. Earth Sciences, general. Chen, Zhangxin. editor. Ewing, Richard E. editor. Shi, Zhong-Ci. editor. SpringerLink (Online service) Numerical Treatment of Multiphase Flows in Porous Media [electronic resource] : Proceedings of the International Workshop Held a Beijing, China, 2–6 August 1999 / |
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The need to predict, understand, and optimize complex physical and c- mical processes occurring in and around the earth, such as groundwater c- tamination, oil reservoir production, discovering new oil reserves, and ocean hydrodynamics, has been increasingly recognized. Despite their seemingly disparate natures, these geoscience problems have many common mathe- tical and computational characteristics. The techniques used to describe and study them are applicable across a broad range of areas. The study of the above problems through physical experiments, mat- matical theory, and computational techniques requires interdisciplinary col- boration between engineers, mathematicians, computational scientists, and other researchers working in industry, government laboratories, and univ- sities. By bringing together such researchers, meaningful progress can be made in predicting, understanding, and optimizing physical and chemical processes. The International Workshop on Fluid Flow and Transport in Porous - dia was successfully held in Beijing, China, August 2{6, 1999. The aim of this workshop was to bring together applied mathematicians, computational scientists, and engineers working actively in the mathematical and nume- cal treatment of ?uid ?ow and transport in porous media. A broad range of researchers presented papers and discussed both problems and current, state-of-the-art techniques. |
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Physics. Earth sciences. Continuum physics. Fluids. Condensed matter. Fluid mechanics. Physics. Classical Continuum Physics. Condensed Matter Physics. Engineering Fluid Dynamics. Fluid- and Aerodynamics. Numerical and Computational Physics. Earth Sciences, general. |
| author |
Chen, Zhangxin. editor. Ewing, Richard E. editor. Shi, Zhong-Ci. editor. SpringerLink (Online service) |
| author_facet |
Chen, Zhangxin. editor. Ewing, Richard E. editor. Shi, Zhong-Ci. editor. SpringerLink (Online service) |
| author_sort |
Chen, Zhangxin. editor. |
| title |
Numerical Treatment of Multiphase Flows in Porous Media [electronic resource] : Proceedings of the International Workshop Held a Beijing, China, 2–6 August 1999 / |
| title_short |
Numerical Treatment of Multiphase Flows in Porous Media [electronic resource] : Proceedings of the International Workshop Held a Beijing, China, 2–6 August 1999 / |
| title_full |
Numerical Treatment of Multiphase Flows in Porous Media [electronic resource] : Proceedings of the International Workshop Held a Beijing, China, 2–6 August 1999 / |
| title_fullStr |
Numerical Treatment of Multiphase Flows in Porous Media [electronic resource] : Proceedings of the International Workshop Held a Beijing, China, 2–6 August 1999 / |
| title_full_unstemmed |
Numerical Treatment of Multiphase Flows in Porous Media [electronic resource] : Proceedings of the International Workshop Held a Beijing, China, 2–6 August 1999 / |
| title_sort |
numerical treatment of multiphase flows in porous media [electronic resource] : proceedings of the international workshop held a beijing, china, 2–6 august 1999 / |
| publisher |
Berlin, Heidelberg : Springer Berlin Heidelberg, |
| publishDate |
2000 |
| url |
http://dx.doi.org/10.1007/3-540-45467-5 |
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| _version_ |
1756269602573123584 |
| spelling |
KOHA-OAI-TEST:2163422018-07-30T23:51:43ZNumerical Treatment of Multiphase Flows in Porous Media [electronic resource] : Proceedings of the International Workshop Held a Beijing, China, 2–6 August 1999 / Chen, Zhangxin. editor. Ewing, Richard E. editor. Shi, Zhong-Ci. editor. SpringerLink (Online service) textBerlin, Heidelberg : Springer Berlin Heidelberg,2000.engThe need to predict, understand, and optimize complex physical and c- mical processes occurring in and around the earth, such as groundwater c- tamination, oil reservoir production, discovering new oil reserves, and ocean hydrodynamics, has been increasingly recognized. Despite their seemingly disparate natures, these geoscience problems have many common mathe- tical and computational characteristics. The techniques used to describe and study them are applicable across a broad range of areas. The study of the above problems through physical experiments, mat- matical theory, and computational techniques requires interdisciplinary col- boration between engineers, mathematicians, computational scientists, and other researchers working in industry, government laboratories, and univ- sities. By bringing together such researchers, meaningful progress can be made in predicting, understanding, and optimizing physical and chemical processes. The International Workshop on Fluid Flow and Transport in Porous - dia was successfully held in Beijing, China, August 2{6, 1999. The aim of this workshop was to bring together applied mathematicians, computational scientists, and engineers working actively in the mathematical and nume- cal treatment of ?uid ?ow and transport in porous media. A broad range of researchers presented papers and discussed both problems and current, state-of-the-art techniques.Mathematical and Numerical Techniques in Energy and Environmental Modeling -- Domain Decomposition for Some Transmission Problems in Flow in Porous Media -- Numerical Subgrid Upscaling of Two-Phase Flow in Porous Media -- Numerical Simulation of Multiphase Flow in Fractured Porous Media -- The Modified Method of Characteristics for Compressible Flow in Porous Media -- A Numerical Algorithm for Single Phase Fluid Flow in Elastic Porous Media -- On the Discretization of Interface Problems with Perfect and Imperfect Contact -- Finite Element Analysis for Pseudo Hyperbolic Integral-Differential Equations -- A CFL-Free Explicit Scheme with Compression for Linear Hyperbolic Equations -- Maximizing Cache Memory Usage for Multigrid Algorithms for Applications of Fluid Flow in Porous Media -- A Locally Conservative Eulerian-Lagrangian Method for Flow in a Porous Medium of a Mixture of Two Components Having Different Densities -- Validation of Non-darcy Well Models Using Direct Numerical Simulation -- Mathematical Treatment of Diffusion Processes of Gases and Fluids in Porous Media -- Implementation of a Locally Conservative Eulerian-Lagrangian Method Applied to Nuclear Contaminant Transport -- Application of a Class of Nonstationary Iterative Methods to Flow Problems -- Reservoir Thermal Recover Simulation on Parallel Computers -- A Class of Lattice Boltzmann Models with the Energy Equation -- Block Implicit Computation of Flow Field in Solid Rocket Ramjets -- Stable Conforming and Nonconforming Finite Element Methods for the Non-newtonian Flow -- Numerical Simulation of Compositional Fluid Flow in Porous Media -- Parallelization of a Compositional Reservoir Simulator -- Relationships among Some Conservative Discretization Methods -- Parallel Methods for Solving Time-Dependent Problems Using the Fourier-Laplace Transformation -- Cascadic Multigrid Methods for Parabolic Pressure Problems -- Estimation in the Presence of Outliers: The Capillary Pressure Case -- A Comparison of ELLAM with ENO/WENO Schemes for Linear Transport Equations -- An Accurate Approximation to Compressible Flow in Porous Media with Wells -- Fast Convergent Algorithms for Solving 2D Integral Equations of the First Kind -- A Two-Grid Finite Difference Method for Nonlinear Parabolic Equations -- A Compact Operator Method for the Omega Equation -- Domain Decomposition Algprithm for a New Characteristic Mixed Finite Element Method for Compressible Miscible Displacement -- A Boundary Element Method for Viscous Flow on Multi-connected Domains -- A Characteristic Difference Method for 2D Nonlinear Convection-Diffusion Problems -- Fractional Step Methods for Compressible Multicomponent Flow in Porous Media -- A Model and Its Solution Method for a Generalized Unsteady Seepage Flow Problem -- Domain Decomposition Preconditioners for Non-selfconjugate Second Order Elliptic Problems -- Performance of MOL for Surface Motion Driven by a Laplacian of Curvature -- A High-Order Upwind Method for Convection-Diffusion Equations with the Newmann Boundary Condition.The need to predict, understand, and optimize complex physical and c- mical processes occurring in and around the earth, such as groundwater c- tamination, oil reservoir production, discovering new oil reserves, and ocean hydrodynamics, has been increasingly recognized. Despite their seemingly disparate natures, these geoscience problems have many common mathe- tical and computational characteristics. The techniques used to describe and study them are applicable across a broad range of areas. The study of the above problems through physical experiments, mat- matical theory, and computational techniques requires interdisciplinary col- boration between engineers, mathematicians, computational scientists, and other researchers working in industry, government laboratories, and univ- sities. By bringing together such researchers, meaningful progress can be made in predicting, understanding, and optimizing physical and chemical processes. The International Workshop on Fluid Flow and Transport in Porous - dia was successfully held in Beijing, China, August 2{6, 1999. The aim of this workshop was to bring together applied mathematicians, computational scientists, and engineers working actively in the mathematical and nume- cal treatment of ?uid ?ow and transport in porous media. A broad range of researchers presented papers and discussed both problems and current, state-of-the-art techniques.Physics.Earth sciences.Continuum physics.Fluids.Condensed matter.Fluid mechanics.Physics.Classical Continuum Physics.Condensed Matter Physics.Engineering Fluid Dynamics.Fluid- and Aerodynamics.Numerical and Computational Physics.Earth Sciences, general.Springer eBookshttp://dx.doi.org/10.1007/3-540-45467-5URN:ISBN:9783540454670 |