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With an emphasis on methodology, this reference provides a comprehensive examination of water movement as well as the movement of various pollutants in the earth's subsurface. The multidisciplinary approach integrates earth science, fluid mechanics, mathematics, statistics, and chemistry. Ideal for both professionals and students, this is a practical guide to the practices, procedures, and rules for dealing with groundwater.
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With an emphasis on methodology, this reference provides a comprehensive examination of water movement as well as the movement of various pollutants in the earth's subsurface. The multidisciplinary approach integrates earth science, fluid mechanics, mathematics, statistics, and chemistry. Ideal for both professionals and students, this is a practical guide to the practices, procedures, and rules for dealing with groundwater.
Dieser Download kann aus rechtlichen Gründen nur mit Rechnungsadresse in A, B, BG, CY, CZ, D, DK, EW, E, FIN, F, GR, HR, H, IRL, I, LT, L, LR, M, NL, PL, P, R, S, SLO, SK ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: John Wiley & Sons
- Seitenzahl: 488
- Erscheinungstermin: 11. Oktober 2006
- Englisch
- ISBN-13: 9780470044193
- Artikelnr.: 37289970
- Verlag: John Wiley & Sons
- Seitenzahl: 488
- Erscheinungstermin: 11. Oktober 2006
- Englisch
- ISBN-13: 9780470044193
- Artikelnr.: 37289970
GEORGE F. PINDER, PhD, is Director of the Research Center for Groundwater Remediation Design and Professor of Civil and Environmental Engineering, Mathematics, and Computer Science at the University of Vermont. He has published many important articles and books, including Groundwater Modeling Using Geographical Information Systems (Wiley). Dr. Pinder's research focuses on the development and application of applied mathematics, especially numerical mathematics, to solve groundwater contamination and supply problems using computers. MICHAEL A. CELIA, PhD, is Professor and Chair in the Department of Civil and Environmental Engineering at Princeton University. Dr. Celia conducts research in the areas of groundwater hydrology, numerical modeling, contaminant transport simulation, and multiphase flow physics.
Preface. 1. Water and the Subsurface Environment. 1.1 Groundwater
Hydrology. 1.2 Groundwater and the Hydrologic Cycle. 1.3 Groundwater as a
Resource. 1.4 Groundwater and the Subsurface. 1.5 The Near-surface
Environment. 1.6 Porosity. 1.7 SoilWater. 1.8 Groundwater Contamination.
1.9 Quantitative Analysis of Groundwater Problems. 1.10 Summary. 1.11
Problems. 2. Fluid Flow and Mass Transport. 2.1 Fluid Pressure. 2.2
Hydraulic Head. 2.3 Fluid Potential. 2.4 Concept of Saturation. 2.5 The
Darcy Experiment. 2.6 Fluid Flow andMass and Energy Fluxes. 2.7 Summary.
2.8 Problems. 3. The Geologic Setting. 3.1 Unconsolidated Deposits. 3.2
Consolidated Rocks. 3.3 Metamorphic Rocks. 3.4 Igneous Rocks. 3.5 Geologic
Time. 3.6 Field Investigation. 3.7 The Geohydrological Record. 3.8
TheMeasurement of State Variables. 3.9 Summary. 3.10 Problems. 4. Water
Movement in Geological Formations. 4.1 Conservation of FluidMass. 4.2
Conservation of FluidMass in a PorousMedium. 4.3 Groundwater Flow
Equations. 4.4 The Free Surface Condition. 4.5 Reduction in Dimensionality.
4.6 Salt-water Intrusion. 4.7 One-dimensional Formulation. 4.8 Cylindrical
Coordinates. 4.9 Summary. 4.10 Problems. 5. Analytical Solutions for Flow
Problems. 5.1 One-dimensional Flow Problems. 5.2 Two-dimensional Flow
Problems. 5.3 Summary. 5.4 Problems. 6. Well Hydraulics. 6.1 The Slug Test.
6.2 Pumping Tests. 6.3 Summary. 6.4 Problems. 7. Numerical Solutions of the
Groundwater Flow Equation. 7.1 Introduction to NumericalMethod. 7.2
Polynomial Approximation Theory. 7.3 Finite-differenceMethods. 7.4 Finite
ElementMethods. 7.5 Finite Volume Formulation. 7.6 Finite ElementMethod and
the Transient Flow Equation. 7.7 Simulation under Parameter Uncertainty.
7.8 Summary. 7.9 Problems. 8. Contamination of Subsurface Water. 8.1 Types
of Contaminants. 8.2 Mass Conservation. 8.3 Mass Conservation in a
PorousMedium. 8.4 Retardation. 8.5 Chemical Reactions. 8.6 Numerical
Solution to the Groundwater Transport Equations. 8.7 Summary. 8.8 Problems.
9. Groundwater-Surface Water Interaction. 9.1 Introduction. 9.2 Fluid
Dynamics Near the Stream. 9.3 Chemical Interaction. 9.4 Summary. 9.5
Problems. 10. Remediation. 10.1 Pump-and-Treat. 10.2 Soil Vapor Extraction
(SVE. 10.3 Air Sparing. 10.4 Some Basic Chemistry. 10.5 Permeable Reactive
Barriers. 10.6 Bioremediation. 10.7 Optimal Design of Remediation and
Management Strategies. 10.8 Summary. 10.9 Problems. 11. Multi-fluid Flow
and Transport. 11.1 Problems involvingMultiple Fluids. 11.2 Governing
Equations. 11.3 The Unsaturated Zone and Richards' Equation. 11.4 Solution
Methods Multi-fluid Flow Equations. 11.5 Summary. 11.6 Problems.
Hydrology. 1.2 Groundwater and the Hydrologic Cycle. 1.3 Groundwater as a
Resource. 1.4 Groundwater and the Subsurface. 1.5 The Near-surface
Environment. 1.6 Porosity. 1.7 SoilWater. 1.8 Groundwater Contamination.
1.9 Quantitative Analysis of Groundwater Problems. 1.10 Summary. 1.11
Problems. 2. Fluid Flow and Mass Transport. 2.1 Fluid Pressure. 2.2
Hydraulic Head. 2.3 Fluid Potential. 2.4 Concept of Saturation. 2.5 The
Darcy Experiment. 2.6 Fluid Flow andMass and Energy Fluxes. 2.7 Summary.
2.8 Problems. 3. The Geologic Setting. 3.1 Unconsolidated Deposits. 3.2
Consolidated Rocks. 3.3 Metamorphic Rocks. 3.4 Igneous Rocks. 3.5 Geologic
Time. 3.6 Field Investigation. 3.7 The Geohydrological Record. 3.8
TheMeasurement of State Variables. 3.9 Summary. 3.10 Problems. 4. Water
Movement in Geological Formations. 4.1 Conservation of FluidMass. 4.2
Conservation of FluidMass in a PorousMedium. 4.3 Groundwater Flow
Equations. 4.4 The Free Surface Condition. 4.5 Reduction in Dimensionality.
4.6 Salt-water Intrusion. 4.7 One-dimensional Formulation. 4.8 Cylindrical
Coordinates. 4.9 Summary. 4.10 Problems. 5. Analytical Solutions for Flow
Problems. 5.1 One-dimensional Flow Problems. 5.2 Two-dimensional Flow
Problems. 5.3 Summary. 5.4 Problems. 6. Well Hydraulics. 6.1 The Slug Test.
6.2 Pumping Tests. 6.3 Summary. 6.4 Problems. 7. Numerical Solutions of the
Groundwater Flow Equation. 7.1 Introduction to NumericalMethod. 7.2
Polynomial Approximation Theory. 7.3 Finite-differenceMethods. 7.4 Finite
ElementMethods. 7.5 Finite Volume Formulation. 7.6 Finite ElementMethod and
the Transient Flow Equation. 7.7 Simulation under Parameter Uncertainty.
7.8 Summary. 7.9 Problems. 8. Contamination of Subsurface Water. 8.1 Types
of Contaminants. 8.2 Mass Conservation. 8.3 Mass Conservation in a
PorousMedium. 8.4 Retardation. 8.5 Chemical Reactions. 8.6 Numerical
Solution to the Groundwater Transport Equations. 8.7 Summary. 8.8 Problems.
9. Groundwater-Surface Water Interaction. 9.1 Introduction. 9.2 Fluid
Dynamics Near the Stream. 9.3 Chemical Interaction. 9.4 Summary. 9.5
Problems. 10. Remediation. 10.1 Pump-and-Treat. 10.2 Soil Vapor Extraction
(SVE. 10.3 Air Sparing. 10.4 Some Basic Chemistry. 10.5 Permeable Reactive
Barriers. 10.6 Bioremediation. 10.7 Optimal Design of Remediation and
Management Strategies. 10.8 Summary. 10.9 Problems. 11. Multi-fluid Flow
and Transport. 11.1 Problems involvingMultiple Fluids. 11.2 Governing
Equations. 11.3 The Unsaturated Zone and Richards' Equation. 11.4 Solution
Methods Multi-fluid Flow Equations. 11.5 Summary. 11.6 Problems.
Preface. 1. Water and the Subsurface Environment. 1.1 Groundwater
Hydrology. 1.2 Groundwater and the Hydrologic Cycle. 1.3 Groundwater as a
Resource. 1.4 Groundwater and the Subsurface. 1.5 The Near-surface
Environment. 1.6 Porosity. 1.7 SoilWater. 1.8 Groundwater Contamination.
1.9 Quantitative Analysis of Groundwater Problems. 1.10 Summary. 1.11
Problems. 2. Fluid Flow and Mass Transport. 2.1 Fluid Pressure. 2.2
Hydraulic Head. 2.3 Fluid Potential. 2.4 Concept of Saturation. 2.5 The
Darcy Experiment. 2.6 Fluid Flow andMass and Energy Fluxes. 2.7 Summary.
2.8 Problems. 3. The Geologic Setting. 3.1 Unconsolidated Deposits. 3.2
Consolidated Rocks. 3.3 Metamorphic Rocks. 3.4 Igneous Rocks. 3.5 Geologic
Time. 3.6 Field Investigation. 3.7 The Geohydrological Record. 3.8
TheMeasurement of State Variables. 3.9 Summary. 3.10 Problems. 4. Water
Movement in Geological Formations. 4.1 Conservation of FluidMass. 4.2
Conservation of FluidMass in a PorousMedium. 4.3 Groundwater Flow
Equations. 4.4 The Free Surface Condition. 4.5 Reduction in Dimensionality.
4.6 Salt-water Intrusion. 4.7 One-dimensional Formulation. 4.8 Cylindrical
Coordinates. 4.9 Summary. 4.10 Problems. 5. Analytical Solutions for Flow
Problems. 5.1 One-dimensional Flow Problems. 5.2 Two-dimensional Flow
Problems. 5.3 Summary. 5.4 Problems. 6. Well Hydraulics. 6.1 The Slug Test.
6.2 Pumping Tests. 6.3 Summary. 6.4 Problems. 7. Numerical Solutions of the
Groundwater Flow Equation. 7.1 Introduction to NumericalMethod. 7.2
Polynomial Approximation Theory. 7.3 Finite-differenceMethods. 7.4 Finite
ElementMethods. 7.5 Finite Volume Formulation. 7.6 Finite ElementMethod and
the Transient Flow Equation. 7.7 Simulation under Parameter Uncertainty.
7.8 Summary. 7.9 Problems. 8. Contamination of Subsurface Water. 8.1 Types
of Contaminants. 8.2 Mass Conservation. 8.3 Mass Conservation in a
PorousMedium. 8.4 Retardation. 8.5 Chemical Reactions. 8.6 Numerical
Solution to the Groundwater Transport Equations. 8.7 Summary. 8.8 Problems.
9. Groundwater-Surface Water Interaction. 9.1 Introduction. 9.2 Fluid
Dynamics Near the Stream. 9.3 Chemical Interaction. 9.4 Summary. 9.5
Problems. 10. Remediation. 10.1 Pump-and-Treat. 10.2 Soil Vapor Extraction
(SVE. 10.3 Air Sparing. 10.4 Some Basic Chemistry. 10.5 Permeable Reactive
Barriers. 10.6 Bioremediation. 10.7 Optimal Design of Remediation and
Management Strategies. 10.8 Summary. 10.9 Problems. 11. Multi-fluid Flow
and Transport. 11.1 Problems involvingMultiple Fluids. 11.2 Governing
Equations. 11.3 The Unsaturated Zone and Richards' Equation. 11.4 Solution
Methods Multi-fluid Flow Equations. 11.5 Summary. 11.6 Problems.
Hydrology. 1.2 Groundwater and the Hydrologic Cycle. 1.3 Groundwater as a
Resource. 1.4 Groundwater and the Subsurface. 1.5 The Near-surface
Environment. 1.6 Porosity. 1.7 SoilWater. 1.8 Groundwater Contamination.
1.9 Quantitative Analysis of Groundwater Problems. 1.10 Summary. 1.11
Problems. 2. Fluid Flow and Mass Transport. 2.1 Fluid Pressure. 2.2
Hydraulic Head. 2.3 Fluid Potential. 2.4 Concept of Saturation. 2.5 The
Darcy Experiment. 2.6 Fluid Flow andMass and Energy Fluxes. 2.7 Summary.
2.8 Problems. 3. The Geologic Setting. 3.1 Unconsolidated Deposits. 3.2
Consolidated Rocks. 3.3 Metamorphic Rocks. 3.4 Igneous Rocks. 3.5 Geologic
Time. 3.6 Field Investigation. 3.7 The Geohydrological Record. 3.8
TheMeasurement of State Variables. 3.9 Summary. 3.10 Problems. 4. Water
Movement in Geological Formations. 4.1 Conservation of FluidMass. 4.2
Conservation of FluidMass in a PorousMedium. 4.3 Groundwater Flow
Equations. 4.4 The Free Surface Condition. 4.5 Reduction in Dimensionality.
4.6 Salt-water Intrusion. 4.7 One-dimensional Formulation. 4.8 Cylindrical
Coordinates. 4.9 Summary. 4.10 Problems. 5. Analytical Solutions for Flow
Problems. 5.1 One-dimensional Flow Problems. 5.2 Two-dimensional Flow
Problems. 5.3 Summary. 5.4 Problems. 6. Well Hydraulics. 6.1 The Slug Test.
6.2 Pumping Tests. 6.3 Summary. 6.4 Problems. 7. Numerical Solutions of the
Groundwater Flow Equation. 7.1 Introduction to NumericalMethod. 7.2
Polynomial Approximation Theory. 7.3 Finite-differenceMethods. 7.4 Finite
ElementMethods. 7.5 Finite Volume Formulation. 7.6 Finite ElementMethod and
the Transient Flow Equation. 7.7 Simulation under Parameter Uncertainty.
7.8 Summary. 7.9 Problems. 8. Contamination of Subsurface Water. 8.1 Types
of Contaminants. 8.2 Mass Conservation. 8.3 Mass Conservation in a
PorousMedium. 8.4 Retardation. 8.5 Chemical Reactions. 8.6 Numerical
Solution to the Groundwater Transport Equations. 8.7 Summary. 8.8 Problems.
9. Groundwater-Surface Water Interaction. 9.1 Introduction. 9.2 Fluid
Dynamics Near the Stream. 9.3 Chemical Interaction. 9.4 Summary. 9.5
Problems. 10. Remediation. 10.1 Pump-and-Treat. 10.2 Soil Vapor Extraction
(SVE. 10.3 Air Sparing. 10.4 Some Basic Chemistry. 10.5 Permeable Reactive
Barriers. 10.6 Bioremediation. 10.7 Optimal Design of Remediation and
Management Strategies. 10.8 Summary. 10.9 Problems. 11. Multi-fluid Flow
and Transport. 11.1 Problems involvingMultiple Fluids. 11.2 Governing
Equations. 11.3 The Unsaturated Zone and Richards' Equation. 11.4 Solution
Methods Multi-fluid Flow Equations. 11.5 Summary. 11.6 Problems.