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100   $a19890907d1990      ua         0
101 0 $aeng
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181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 10$aGround water models $escientific and regulatory applications /$fWater Science and Technology Board, Committee on Ground Water Modeling Assessment, Commission of Physical Sciences, Mathematics, and Resources, National Research Council
205   $a1st ed.
210  1$aWashington, D.C. :$cNational Academy Press,$d1990.
215   $a1 online resource (xv, 303 pages) $cillustrations
300   $aBibliographic Level Mode of Issuance: Monograph
311 0 $a0-309-03993-2 
320   $aIncludes bibliographical references.
327   $aGROUND WATER MODELS -- Copyright -- Preface -- Contents -- Overview, Conclusions, and Recommendations -- OVERVIEW -- CONCLUSIONS AND RECOMMENDATIONS -- Models and Subsurface Processes -- Conclusions -- Models and Decisionmaking -- Conclusions -- Recommendations -- Maintaining Scientific Integrity -- Conclusions -- Recommendations -- Recommendations for the Future -- 1 Introduction -- THE GROWTH IN THE USE OF MODELS -- REFERENCES -- 2 Modeling of Processes -- INTRODUCTION -- Ground Water Flow -- Multiphase Flow -- Dissolved Contaminant Transport -- Advection -- Diffusion -- Dispersion -- Radioactive Decay -- Sorption -- Precipitation and Dissolution -- Acid/Base Reactions -- Complexation -- Hydrolysis/Substitution -- Redox Reactions -- Biological Transformations -- WHAT IS A MODEL? -- Governing Equations -- Boundary and Initial Conditions and Parameter Values -- Solving Flow and Transport Equations -- REFERENCES -- 3 Flow Processes -- INTRODUCTION -- SATURATED CONTINUUM FLOW -- State of the Art -- Implications for the Use of Saturated Continuum Flow Models in Decisionmaking -- Spatial Dimensionality -- Boundary Conditions -- Transient Versus Steady State -- Discretization -- Velocity Computation -- Parameter Values -- FLOW IN THE UNSATURATED ZONE -- Characterization of the Unsaturated Zone -- CONCEPTS OF WATER FLOW IN THE UNSATURATED ZONE -- FRACTURE FLOW -- Theory of Flow in Fractures -- Strategies for Modeling -- ISSUES IN MODELING -- A Fractured Medium as a Continuum -- Computational Constraints on Discrete Network Models -- Uncertainty in Establishing the Network Geometry -- Adequacy of Modeling Technology -- REFERENCES -- 4 Transport -- INTRODUCTION -- TRANSPORT OF CONSERVATIVE SOLUTES -- NONCONSERVATIVE SOLUTES -- Equilibrium and Kinetic Models of Reactions -- Abiotic Reactions -- Geochemical Models.
327   $aIncorporation of Abiotic Transformations into Solute Transport Models -- Phase Transfers -- Assessment of Kinetics -- Incorporation of Phase Transfers into Solute Transport Models -- Biological Reactions -- Microbiological Kinetics -- Incorporation of Biological Processes into Solute Transport Models -- TRANSPORT IN THE UNSATURATED ZONE -- Unsaturated Flow and Transport in Structured Soils -- MULTIPHASE TRANSPORT -- Seawater Intrusion -- Organic Fluid Contamination -- Governing Equations for Multiphase Flow -- Parameters and Initial and Boundary Conditions for Multiphase Flow -- Problems Associated with Multiphase Flow -- REFERENCES -- 5 Experience With Contaminant Flow Models in the Regulatory System -- INTRODUCTION -- U.S. NUCLEAR REGULATORY COMMISSION REGULATIONS AND GUIDANCE -- U.S. ENVIRONMENTAL PROTECTION AGENCY REGULATIONS AND GUIDANCE -- Superfund -- Law and Regulations -- Guidance -- Resource Conservation and Recovery Act -- Law and Regulations -- Guidance -- Underground Injection Control (UIC) Program -- Law and Regulations -- Guidance -- Conclusion -- SELECTED CASE STUDIES -- Vertical-Horizontal Spread (VHS) Model Background -- Model -- Application at a Particular Site -- Regulatory Context -- Discussion -- Madison Aquifer-Well Withdrawals from a Deep Regional Aquifer -- Background -- Initial Modeling Studies -- Initial Results -- Other Model Studies -- Regulatory Context -- Discussion -- Snake River Plain-Point Source of Contamination -- Background -- Hydrogeologic Setting -- Model Formulation -- Results and Conclusion -- Discussion -- Tucson Airport -- Background -- Hydrogeologic Setting -- Approach -- Model to Assess Relative Contributions -- Model of Source Contributions -- Results and Conclusions -- Regulatory Context -- Discussion -- S-Area, Niagara Falls, New York -- Background -- Site Conditions -- Model Formulation.
327   $aResults and Conclusions -- Regulatory Context -- Discussion -- NOTES -- BIBLIOGRAPHY -- 6 Issues in the Development and Use of Models -- INTRODUCTION -- THE PEOPLE PROBLEM -- UNCERTAINTY AND RELIABILITY -- The Sampling Process -- Process and Parameter Identification -- Input Estimation -- Model Validation and Accuracy Assessment -- ASSURING THE QUALITY OF MODELS -- QUALITY ASSURANCE PROCEDURES FOR CODE DEVELOPMENT -- Verification of Program Structure and Code -- Model Validation -- Recordkeeping -- Software Documentation -- Scientific and Technical Reviews -- MODEL APPLICATION -- BIBLIOGRAPHY -- 7 Research Needs -- INTRODUCTION -- USE OF MODELS -- SCIENTIFIC TRENDS AND RESEARCH -- Basic Understanding and Process Models -- Process Models -- Multiphase Fluid Flow and Transport Models -- Linking Geochemical and Physical Transport Models -- Probabilistic Methods -- Translation of State of the Art to State of the Practice -- Field-Scale Code Developments -- Validation or Accuracy Estimation Methods -- Advances in Computer Hardware and Numerical Methods -- Artificial Intelligence and Expert Systems -- Some Existing Applications -- Expert Systems in the Future -- Interdisciplinary Efforts -- POLICY TRENDS AND SUPPORT FOR RESEARCH -- REFERENCES -- Appendix: Biographical Sketches of Committee Members -- Index.
330   $aThe discovery of toxic pollution at Love Canal brought ground water contamination to the forefront of public attention. Since then, ground water science and modeling have become increasingly important in evaluating contamination, setting regulations, and resolving liability issues in court. A clearly written explanation of ground water processes and modeling, Ground Water Models focuses on the practical aspects of model application. It:  examines the role of models in regulation, litigation, and policy development; explains ground water processes and describes specific applications for models; presents emerging technologies; and offers specific recommendations for better use of ground water science in policy formation.
606   $aGroundwater$xMathematical models
606   $aWater-supply$xMathematical models
606   $aGroundwater flow
606   $aLiability for water pollution damages
615  0$aGroundwater$xMathematical models.
615  0$aWater-supply$xMathematical models.
615  0$aGroundwater flow.
615  0$aLiability for water pollution damages.
676   $a551.49/01/5118
712 02$aNational Research Council (U.S.) Committee on Ground Water Modeling Assessment.
801  0$bDLC
801  1$bDLC
801  2$bCLS
906   $aBOOK
912   $a9910957775003321
996   $aGround water models$94472614
997   $aUNINA
999   $aThis Record contains information from the Harvard Library Bibliographic Dataset, which is provided by the Harvard Library under its Bibliographic Dataset Use Terms and includes data made available by, among others the Library of Congress