Multiphase Flow in Porous Media [electronic resource] : Mechanics, Mathematics, and Numerics /

Multiphase Flow in Porous Media [electronic resource] : Mechanics, Mathematics, and Numerics /

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The past decade has seen remarkable growth in research related to petroleum reseIVoir simulation. This growth reflects several developments, not the least of which is the increased interest in oil recovery technologies requiring sophisticated engineer­ ing. Augmenting this interest has been the broader availability of supercomputers capable of handling the tremendous computational demands of a typical reseIVoir simulator. The field of reseIVoir simulation incorporates several major facets of applied mathematics. First, in view of the varieyt and complexity of the processes encoun­ tered, it is imperative that the modeler adopt a systematic approach to establishing the equations governing reseIVoir flows. Second, the mathematical structure of these flow equations needs to be carefully analyzed in order to develop appropriate and efficient numerical methods for their solution. Third, since some aspects of the discretized flow equations are typically stiff, one must develop efficient schemes for solving large sparse systems of linear equations. This monograph has three parts, each devoted to one of these three aspects of reseIVoir modeling. The text grew out of a set of lectures presented by the authors in the autumn of 1986 at the IBM Scientific Center in Bergen, Norway. We feel that it is only appropriate to caution the reader that many of the ideas that we present in this monograph do not reflect standard approaches in petroleum reseIVoir simulation. In fact, our aim is to outline promising new ways of attacking reseIVoir simulation prob­ lems, rather than to compile another textbook for the mainstream.

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Main Authors: Allen, Myron Bartlett. author., Behie, Grace Alda. author., Trangenstein, John Arthur. author., SpringerLink (Online service)
Format: Texto biblioteca
Language:eng
Published: New York, NY : Springer US, 1988
Subjects:Chemistry., Physical chemistry., Mineral resources., Mechanics., Applied mathematics., Engineering mathematics., Physical Chemistry., Mineral Resources., Appl.Mathematics/Computational Methods of Engineering.,
Online Access:http://dx.doi.org/10.1007/978-1-4613-9598-0
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id KOHA-OAI-TEST:227026
record_format koha
institution COLPOS
collection Koha
country México
countrycode MX
component Bibliográfico
access En linea
En linea
databasecode cat-colpos
tag biblioteca
region America del Norte
libraryname Departamento de documentación y biblioteca de COLPOS
language eng
topic Chemistry.
Physical chemistry.
Mineral resources.
Mechanics.
Applied mathematics.
Engineering mathematics.
Chemistry.
Physical Chemistry.
Mineral Resources.
Appl.Mathematics/Computational Methods of Engineering.
Mechanics.
Chemistry.
Physical chemistry.
Mineral resources.
Mechanics.
Applied mathematics.
Engineering mathematics.
Chemistry.
Physical Chemistry.
Mineral Resources.
Appl.Mathematics/Computational Methods of Engineering.
Mechanics.
spellingShingle Chemistry.
Physical chemistry.
Mineral resources.
Mechanics.
Applied mathematics.
Engineering mathematics.
Chemistry.
Physical Chemistry.
Mineral Resources.
Appl.Mathematics/Computational Methods of Engineering.
Mechanics.
Chemistry.
Physical chemistry.
Mineral resources.
Mechanics.
Applied mathematics.
Engineering mathematics.
Chemistry.
Physical Chemistry.
Mineral Resources.
Appl.Mathematics/Computational Methods of Engineering.
Mechanics.
Allen, Myron Bartlett. author.
Behie, Grace Alda. author.
Trangenstein, John Arthur. author.
SpringerLink (Online service)
Multiphase Flow in Porous Media [electronic resource] : Mechanics, Mathematics, and Numerics /
description The past decade has seen remarkable growth in research related to petroleum reseIVoir simulation. This growth reflects several developments, not the least of which is the increased interest in oil recovery technologies requiring sophisticated engineer­ ing. Augmenting this interest has been the broader availability of supercomputers capable of handling the tremendous computational demands of a typical reseIVoir simulator. The field of reseIVoir simulation incorporates several major facets of applied mathematics. First, in view of the varieyt and complexity of the processes encoun­ tered, it is imperative that the modeler adopt a systematic approach to establishing the equations governing reseIVoir flows. Second, the mathematical structure of these flow equations needs to be carefully analyzed in order to develop appropriate and efficient numerical methods for their solution. Third, since some aspects of the discretized flow equations are typically stiff, one must develop efficient schemes for solving large sparse systems of linear equations. This monograph has three parts, each devoted to one of these three aspects of reseIVoir modeling. The text grew out of a set of lectures presented by the authors in the autumn of 1986 at the IBM Scientific Center in Bergen, Norway. We feel that it is only appropriate to caution the reader that many of the ideas that we present in this monograph do not reflect standard approaches in petroleum reseIVoir simulation. In fact, our aim is to outline promising new ways of attacking reseIVoir simulation prob­ lems, rather than to compile another textbook for the mainstream.
format Texto
topic_facet Chemistry.
Physical chemistry.
Mineral resources.
Mechanics.
Applied mathematics.
Engineering mathematics.
Chemistry.
Physical Chemistry.
Mineral Resources.
Appl.Mathematics/Computational Methods of Engineering.
Mechanics.
author Allen, Myron Bartlett. author.
Behie, Grace Alda. author.
Trangenstein, John Arthur. author.
SpringerLink (Online service)
author_facet Allen, Myron Bartlett. author.
Behie, Grace Alda. author.
Trangenstein, John Arthur. author.
SpringerLink (Online service)
author_sort Allen, Myron Bartlett. author.
title Multiphase Flow in Porous Media [electronic resource] : Mechanics, Mathematics, and Numerics /
title_short Multiphase Flow in Porous Media [electronic resource] : Mechanics, Mathematics, and Numerics /
title_full Multiphase Flow in Porous Media [electronic resource] : Mechanics, Mathematics, and Numerics /
title_fullStr Multiphase Flow in Porous Media [electronic resource] : Mechanics, Mathematics, and Numerics /
title_full_unstemmed Multiphase Flow in Porous Media [electronic resource] : Mechanics, Mathematics, and Numerics /
title_sort multiphase flow in porous media [electronic resource] : mechanics, mathematics, and numerics /
publisher New York, NY : Springer US,
publishDate 1988
url http://dx.doi.org/10.1007/978-1-4613-9598-0
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AT behiegracealdaauthor multiphaseflowinporousmediaelectronicresourcemechanicsmathematicsandnumerics
AT trangensteinjohnarthurauthor multiphaseflowinporousmediaelectronicresourcemechanicsmathematicsandnumerics
AT springerlinkonlineservice multiphaseflowinporousmediaelectronicresourcemechanicsmathematicsandnumerics
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spelling KOHA-OAI-TEST:2270262018-07-31T00:08:12ZMultiphase Flow in Porous Media [electronic resource] : Mechanics, Mathematics, and Numerics / Allen, Myron Bartlett. author. Behie, Grace Alda. author. Trangenstein, John Arthur. author. SpringerLink (Online service) textNew York, NY : Springer US,1988.engThe past decade has seen remarkable growth in research related to petroleum reseIVoir simulation. This growth reflects several developments, not the least of which is the increased interest in oil recovery technologies requiring sophisticated engineer­ ing. Augmenting this interest has been the broader availability of supercomputers capable of handling the tremendous computational demands of a typical reseIVoir simulator. The field of reseIVoir simulation incorporates several major facets of applied mathematics. First, in view of the varieyt and complexity of the processes encoun­ tered, it is imperative that the modeler adopt a systematic approach to establishing the equations governing reseIVoir flows. Second, the mathematical structure of these flow equations needs to be carefully analyzed in order to develop appropriate and efficient numerical methods for their solution. Third, since some aspects of the discretized flow equations are typically stiff, one must develop efficient schemes for solving large sparse systems of linear equations. This monograph has three parts, each devoted to one of these three aspects of reseIVoir modeling. The text grew out of a set of lectures presented by the authors in the autumn of 1986 at the IBM Scientific Center in Bergen, Norway. We feel that it is only appropriate to caution the reader that many of the ideas that we present in this monograph do not reflect standard approaches in petroleum reseIVoir simulation. In fact, our aim is to outline promising new ways of attacking reseIVoir simulation prob­ lems, rather than to compile another textbook for the mainstream.I. Basic Mechanics of Oil Reservoir Flows -- 0. An Overview of Petroleum Reservoirs -- 1. Elements of Continuum Mechanics -- 2. Flow Equations in Porous Media -- 3. Transport Equations in Porous Media -- 4. Flows With Interphase Mass Transfer -- 5. Fluid-Phase Thermodynamics -- 6. Nonisothermal Flows -- II. Numerical Analysis of Reservoir Fluid Flow -- 1. Model Problems in Reservoir Fluid Flow -- 2. Mathematical Structure of the Black-Oil Model -- 3. Numerical Methods for Partial Differential Equations -- III. Numerical Linear Algebra for Reservoir Simulation -- 1. Basic Black-Oil Model (?-Model) -- 2. Difference Methods -- 3. Direct and Iterative Solution Methods -- 4. Associated Topics.The past decade has seen remarkable growth in research related to petroleum reseIVoir simulation. This growth reflects several developments, not the least of which is the increased interest in oil recovery technologies requiring sophisticated engineer­ ing. Augmenting this interest has been the broader availability of supercomputers capable of handling the tremendous computational demands of a typical reseIVoir simulator. The field of reseIVoir simulation incorporates several major facets of applied mathematics. First, in view of the varieyt and complexity of the processes encoun­ tered, it is imperative that the modeler adopt a systematic approach to establishing the equations governing reseIVoir flows. Second, the mathematical structure of these flow equations needs to be carefully analyzed in order to develop appropriate and efficient numerical methods for their solution. Third, since some aspects of the discretized flow equations are typically stiff, one must develop efficient schemes for solving large sparse systems of linear equations. This monograph has three parts, each devoted to one of these three aspects of reseIVoir modeling. The text grew out of a set of lectures presented by the authors in the autumn of 1986 at the IBM Scientific Center in Bergen, Norway. We feel that it is only appropriate to caution the reader that many of the ideas that we present in this monograph do not reflect standard approaches in petroleum reseIVoir simulation. In fact, our aim is to outline promising new ways of attacking reseIVoir simulation prob­ lems, rather than to compile another textbook for the mainstream.Chemistry.Physical chemistry.Mineral resources.Mechanics.Applied mathematics.Engineering mathematics.Chemistry.Physical Chemistry.Mineral Resources.Appl.Mathematics/Computational Methods of Engineering.Mechanics.Springer eBookshttp://dx.doi.org/10.1007/978-1-4613-9598-0URN:ISBN:9781461395980

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