Advanced search
Publication Cover
Critical Reviews in Environmental Control Volume 17, 1987 - Issue 3
Journal homepage
42
Views
12
CrossRef citations to date
0
Altmetric
Original Articles

Mathematical modeling of solute transport in the subsurface

Thomas G. Naymik Environmental Sciences Department, Battelle Memorial Institute, Columbus, Ohio; Department of Geology and Mineralogy, Ohio State University, Columbus, Ohio
&
R. Allan Freeze Department of Geological Sciences, University of British Columbia, Vancouver, British Columbia, Canada
Pages 229-251 | Published online: 09 Jan 2009

Bibliography

  • Abriola , L. M. and Pinder , G. F. 1985 . A multiphase approach to the modeling of porous media contamination by organic compounds. I. Equation development . Water Resour. Res. , 21 : 11
  • Anderson , M. P. 1983 . “ Movement of contaminants in groundwater: groundwater transport — advection and dispersion ” . In Groundwater Contamination: Product of a Technological Society , Natl. Res. Counc. Geophys. Study 37 Washington, D.C. : National Academy Press .
  • Barcelona , M. J. and Naymik , T. G. 1984 . Dynamics of a fertilizer contaminant plume in groundwater . Environ. Sci. Technol. , 18 : 257
  • Corapcioglu , M. Y. and Haridas , A. 1984 . Transport and fate of microorganisms in porous media: a theoretical investigation . J. Hydrol. , 72 : 149
  • Domenico , P. A. and Robbins , G. A. 1984 . A dispersion scale effect in model calibrations and field tracer experiments . J. Hydrol. , 70 : 123
  • Faust , C. R. 1985 . Transport of immiscible fluids within and below the unsaturated zone: a numerical model . Water Resour. Res. , 21 : 587
  • Frind , E. O. and Mantanga , G. B. 1985 . The dual formulation of flow for contaminant transport modeling. I. Review of theory and accuracy aspects . Water Resour. Res. , 21 : 272
  • Gelhar , L. W. and Axness , C. L. 1983 . Three‐dimensional stochastic analysis of macrodispersion in aquifers . Water Resour. Res. , 19 : 161
  • Gillham , R. W. and Cherry , J. A. Contaminant migration in saturated unconsolidated geologic deposits . Proc. Conf. Recent Trends in Hydrogeology . pp. 31 Boulder : Geological Society of America . Special Paper No. 189,
  • Gillham , R. W. , Sudicky , E. A. , Cherry , J. A. and Frind , E. O. 1984 . An advection‐diffusion concept for solute transport in heterogeneous unconsolidated geological deposits . Water Resour. Res. , 20 : 369
  • Gorelick , S. M. 1983 . A review of distributed parameter groundwater management modeling methods . Water Resour. Res. , 19 : 305
  • Gorelick , S. M. , Voss , C. I. , Gill , P. E. , Murray , W. , Saunders , M. A. and Wright , M. H. 1984 . Aquifer reclamation design: the use of contaminant transport simulation combined with nonlinear programming . Water Resour. Res. , 20 : 415
  • Grisak , G. E. and Pickens , J. F. 1980 . Solute transport through fractured media. I. The effect of matrix diffusion . Water Resour. Res. , 16 : 719
  • Gray , W. G. and Hoffman , J. L. 1983 . A numerical model study of groundwater contamination from Price's landfill. New Jersey. I. Data base and flow simulation. II. Sensitivity analysis and contaminant plume simulation . Ground Water , 21 : 7 21, 15, 1983.
  • Gureghian , A. B. , Ward , D. S. and Cleary , R. W. 1981 . A finite element model for the migration of leachate from a sanitary landfill in Long Island, New York. II. Application . Water Resour. Bull. , 17 : 62
  • Huyakorn , P. S. , Lester , B. H. and Faust , C. R. 1983 . Finite element techniques for modeling groundwater flow in fractured aquifers . Water Resour. Res. , 19 : 1019
  • Javandel , I. , Doughty , C. and Tsang , C. F. 1984 . Groundwater Transport: Handbook of Mathematical Models , Water Res. Monogr. No. 10 Washington, D.C. : American Geophysical Union .
  • Jury , W. A. 1983 . “ Chemical transport modeling: current approaches and unresolved problems ” . In Chemical Mobility and Reactivity in Soil Systems , Madison : ASA, SSSA . chap. 4.
  • Kincaid , C. T. , Morrey , J. R. and Rogers , J. E. 1984 . Geohydrochemical Models, Volume 1: Process Description and Computer Code Selection , Volume 1 , Electric Power Research Institute . EA‐3417,
  • Lewis , B. D. and Goldstein , F. J. 1982 . Evaluation of a Predictive Ground‐Water Solute‐Transport Model at the Idaho National Engineering Laboratory , U.S. Geological Survey Water‐Resources Investigations No. 82 to 85 Idaho
  • Lichtner , P. C. 1985 . Continuum model for simultaneous chemical reactions and mass transport in hydrothermal systems . Geochim. Cosmochim. Acta , 49 : 779
  • Macalady , D. L. , Tratnyek , P. G. and Grundl , T. J. 1986 . Abiotic reactions of anthropogenic organic chemicals in anaerobic systems: a critical review . J. Contam. Hydrol. , 1 : 1
  • McCarty , P. L. , Reinhard , M. and Rittman , B. E. 1981 . Trace organics in groundwater . Environ. Sci. Technol. , 15 : 40
  • Mercer , J. W. and Faust , C. R. 1980 . Gound‐water modeling: an overview . Ground Water , 18 : 108
  • Mercer , J. W. and Faust , C. R. 1980 . Ground‐water modeling: mathematical models . Ground Water , 18 : 212
  • Narasimhan , T. N. 1982 . Multidimensional numerical simulation of fluid flow in fractured porous media . Water Resour. Res. , 18 : 1235
  • Naymik , T. G. and Barcelona , M. J. 1981 . Characterization of a contaminant plume in ground water, Meredosia, Illinois . Ground Water , 19 : 517
  • Neretnieks , I. 1983 . A note on fracture flow dispersion mechanisms in the ground . Water Resour. Res. , 19 : 364
  • Pickens , J. F. and Grisak , G. E. 1981 . Modelings of scale‐dependent dispersion hydrogeologic systems . Water Resour. Res. , 17 : 1701
  • Pickens , J. F. , Jackson , R. E. , Inch , K. J. and Merritt , W. F. 1981 . Measurement of distribution coefficients using a radial injection dual‐tracer test . Water Resour. Res. , 17 : 529
  • Pinder , G. F. 1984 . Groundwater contaminant transport modeling . Environ. Sci. Technol. , 18 : 108A
  • Plummer , L. N. , Parkhurst , D. L. and Thorstenson , D. C. 1983 . Development of reaction models for ground‐water systems . Geochim. Cosmochim. Acta , 47 : 665
  • Robbins , G. A. and Domenico , P. A. 1984 . Determining dispersion coefficients and sources of model‐dependent scaling . J. Hydrol. , 75 : 195
  • Robson , S. G. 1981 . “ Computer simulation of movement of DIMP‐contaminated groundwater near the Rocky Mountain Arsenal, Colorado ” . In Permeability and Groundwater Contaminant Transport , ASTM STP 746 Edited by: Zimmie , T. F. and Riggs , C. O. 209 American Society for Testing and Materials .
  • Robson , S. G. and Saulnier , G. J. Jr. 1981 . Hydrogeochemistry and Simulated Solute Transport, Piceance Basin, Northwestern Colorado , Geological Survey Professional Paper No. 1196 Washington, D.C.
  • Rubin , J. 1983 . Transport of reacting solutes in porous media: relation between mathematical nature of problem formulation and chemical nature of reactions . Water Resour. Res. , 19 : 1231
  • Schwartz , F. W. , Smith , L. and Crowe , A. S. 1983 . A stochastic analysis of macroscopic dispersion in fractured media . Water Resour. Res. , 19 : 1253
  • Smith , L. and Schwartz , F. W. 1980 . Mass transport. I. A stochastic analysis of macroscopic dispersion . Water Resour. Res. , 16 : 303
  • Starr , R. C. , Gillham , R. W. and Sudicky , E. A. 1985 . Experimental investigation of solute transport in stratified porous media. II. The reactive case . Water Resour. Res. , 21 : 1043
  • Sudicky , E. A. , Gillham , R. W. and Frind , E. O. 1985 . Experimental investigation of solute transport in stratified porous media. I. The nonreactive case . Water Resour. Res. , 21 : 1035
  • Sykes , J. F. , Pahwa , S. B. , Lantz , R. B. and Ward , D. S. 1982 . Numerical simulation of flow and contaminant migration at an extensively monitored landfill . Water Resour. Res. , 18 : 1687
  • Valocchi , A. J. 1985 . Validity of the local equilibrium assumption for modeling sorbing solute transport through homogeneous soils . Water Resour. Res. , 21 : 808
  • Van Genuchten , M. T. , Tang , D. H. and Guennelon , R. 1984 . Some exact solutions for solute transport through soils containing large macropores . Water Resour. Res. , 20 : 335
  • Yeh , G. T. 1985 . Comparisons of successive iteration and direct methods to solve finite element equations of aquifer contaminant transport . Water Resour. Res. , 21 : 272

References

  • Pinder , G. F. 1984 . Groundwater contaminant transport modeling . Environ. Sci. Technol. , 18 : 108A
  • Gillham , R. W. and Cherry , J. A. Contaminant migration in saturated unconsolidated geologic deposits . Proc. Conf. Recent Trends Hydrogeol. pp. 31 Boulder : Geological Society of America . Special Paper No. 189,
  • Cambell , J. , Rakers , J. and Reeves , M. 1983 . The need for contaminant transport modeling in industrial waste disposal . Miner. Energy Resour. , 26 : 1
  • Graves , B. 1986 . Ground water software — trimming the confusion . Ground Water Monitoring Rev. , 6 : 44
  • Mercer , J. W. and Faust , C. R. 1980 . Ground‐water modeling: an overview . Ground Water , 18 : 108
  • Ross , B. , Mercer , J. W. , Thomas , S. D. and Lester , B. H. 1982 . Benchmark Problems for Repository Siting Models , Reston : Geotrans, Inc. . NUREG/CR‐3097,
  • Freeze , R. A. and Cherry , J. A. 1979 . Groundwater , Englewood Cliffs, N.J. : Prentice‐Hall .
  • Gillham , R. W. , Sudicky , E. A. , Cherry , J. A. and Frind , E. O. 1984 . An advection‐diffusion concept for solute transport in heterogeneous unconsolidated geological deposits . Water Resour. Res. , 20 : 369
  • Güven , O. , Molz , F. J. and Melville , J. G. 1984 . An analysis of dispersion in a stratified aquifer . Water Resour. Res. , : 20
  • Matheron , G. and de Marsily , G. 1980 . Is transport in porous media always diffusive? A counterexample . Water Resour. Res. , 16 : 901
  • Simmons , C. S. 1980 . Relationships in Dispersive Mass Transport and Stochastic Convective Flow Through Hydrologie Systems , Richland : Pacific Northwest Laboratory . Rep. PNL‐3302,
  • Smith , L. and Schwartz , F. W. 1980 . Mass transport. I. A stochastic analysis of macroscopic dispersion . Water Resour. Res. , 16 : 303
  • Smith , L. and Schwartz , F. W. 1981 . Mass transport. II. Analysis of uncertainty in prediction . Water Resour. Res. , 17 : 351
  • Dagan , G. 1982 . Stochastic modeling of groundwater flow by unconditional and conditional probabilities. II. The solute transport . Water Resour. Res. , 18 : 835
  • Gelhar , L. W. and Axness , C. L. 1983 . Three‐dimensional stochastic analysis of macrodispersion in aquifers . Water Resour. Res. , 19 : 161
  • Anderson , M. P. 1983 . “ Movement of contaminants in groundwater: groundwater transport — advection and dispersion ” . In Groundwater Contamination: Product of a Technological Society , Natl. Res. Counc. Geophys. Study 37 Washington, D.C. : National Academy Press .
  • Pickens , J. F. , Jackson , R. E. , Inch , K. J. and Merritt , W. F. 1981 . Mesurement of distribution coefficients using a radial injection dual‐tracer test . Water Resour. Res. , 17 : 529
  • Plummer , L. N. , Parkhurst , D. L. and Thorstenson , D. C. 1983 . Development of reaction models for ground‐water systems . Geochim. Cosmochim. Acta , 47 : 665
  • Rubin , J. 1983 . Transport of reacting solutes in porous media: relation between mathematical nature of problem formulation and chemical nature of reactions . Water Resour. Res. , 19 : 1231
  • James , R. V. and Rubin , J. 1979 . “ Applicability of the local equilibrium assumption to transport through soils affected by ion exchange ” . In Chemical Modeling in Aqueous Systems , ACS Symp. Ser. No. 93 Edited by: Jenne , E. A. 225 Washington, D.C. : American Chemical Society .
  • Valocchi , A. J. 1985 . Validity of the local equilibrium assumption for modeling sorbing solute transport through homogeneous soils . Water Resour. Res. , 21 : 808
  • Macalady , D. L. , Tratnyek , P. G. and Grundl , T. J. 1986 . Abiotic reactions of anthropogenic organic chemicals in anaerobic systems: a critical review . J. Contam. Hydrol. , 1 : 1
  • Baughman , G. L. , Paris , D. F. and Steen , W. C. 1980 . “ Quantitative expression of biotransformation ” . In Biotransformation and Fate of Chemicals in the Aquatic Environment , Edited by: Maki , A. W. , Dickson , K. L. and Cairns , J. Jr. 105 Washington, D.C. : Am. Soc. Microbiol. .
  • Paris , D. F. , Steen , W. C. , Baughman , G. L. and Barnett , T. J. 1981 . Second‐order model to predict microbial degradation of organic compounds in natural waters . Appl. Environ. Microbiol. , 41 : 603
  • Hutzinger , O. , ed. 1982 . The Handbook of Environmental Chemistry , Vol. 2 , New York : Springer‐Verlag . (Part B),
  • Wolfe , N. L. 1980 . Organophosphate and organophosphorothioate esters: application of linear free energy relationships to estimate hydrolysis rate constants for use in environmental fate assessment . Chemosphere , 9 : 571
  • Macalady , D. L. and Wolfe , N. L. 1983 . New perspectives on the hydrolytic degradation of the organophosphorothioate insecticide chlorpyrifos . J. Agric. Food Chem. , 31 : 1139
  • Macalady , D. L. and Wolfe , N. L. 1984 . “ Abiotic hydrolysis of sorbed pesticides ” . In Treatment and Disposal of Pesticide Wastes , ACS Symp. Ser. No. 259 Edited by: Krueger , R. F. and Seiber , J. N. 221 Washington, D.C. : American Chemical Society .
  • Macalady , D. L. and Wolfe , N. L. 1985 . Effects of sediment sorption on abiotic hydrolyses. I. Organophosphorothioate esters . J. Agric. Food Chem. , 33 : 167
  • Perdue , E. M. and Wolfe , N. L. 1983 . Prediction of buffer catalysis in field and laboratory studies of pollutant hydrolysis reactions . Environ. Sci. Technol. , 17 : 635
  • Mill , T. , Mabey , W. R. , Bomberger , D. C. , Chou , T. W. , Hendry , D. G. and Smith , J. H. 1982 . Laboratory Protocols for Evaluating the Fate of Organic Chemicals in Air and Water , Rep. No. 600/3–82–022 Washington, D. C. : U.S. Environmental Protection Agency .
  • Mill , T. , Hendry , D. G. and Richardson , H. 1980 . Free‐radical oxidants in natural waters . Science , 207 : 886
  • Hoffman , M. R. 1980 . Trace metal catalysis in aquatic environments . Environ. Sci. Technol. , 14 : 1061
  • Roberts , P. V. , McCarty , P. L. , Reinhard , M. and Schremer , J. 1980 . Organic contaminant behavior during groundwater recharge . J. Water Pollut. Control Fed. , 52 : 161
  • McCarty , P. L. , Reinhard , M. and Rittman , B. E. 1981 . Trace organics in groundwater . Environ. Sci. Technol. , 15 : 40
  • Karickhoff , S. W. 1984 . Organic pollutant sorption in aquatic systems . J. Hydraul. Eng. , 110 : 707
  • Coates , J. T. and Elzerman , A. W. 1986 . Desorption kinetics for selected PCB congeners from river sediments . J. Contam. Hydrol. , 1 : 191
  • Burns , L. A. 1983 . “ Fate of chemicals in aquatic systems: process models and computer codes ” . In Fate of Chemicals in the Environment , ACS Symp. Ser. No. 225 Edited by: Swann , R. L. and Eschenroeder , A. 25 Washington, D.C. : American Chemical Society .
  • Corapcioglu , M. Y. and Haridas , A. 1984 . Transport and fate of microorganisms in porous media: a theoretical investigation . J. Hydrol. , 72 : 149
  • Faust , C. R. 1985 . Transport of immiscible fluids within and below the unsaturated zone: a numerical model . Water Resour. Res. , 21 : 587
  • Abriola , L. M. and Pinder , G. F. 1985 . A multiphase approach to the modeling of porous media contamination by organic compounds. I. Equation development . Water Resour. Res. , 21 : 11
  • Hochmuth , D. P. 1981 . Two‐Phase Flow of Immiscible Fluids in Groundwater Systems , Fort Collins : Colorado State University . Master's thesis,
  • Gray , W. G. and Hoffman , J. L. 1983 . A numerical model study of groundwater contamination from Price's landfill, New Jersey. I. Data base and flow simulation. II. Sensitivity analysis and contaminant plume simulation . Ground Water , 21 : 7 21, 15, 1983.
  • Yeh , G. T. 1985 . Comparisons of successive iteration and direct methods to solve finite element equations of aquifer contaminant transport . Water Resour. Res. , 21 : 272
  • Hayes , L. , Pinder , G. and Celia , M. 1981 . Alternating‐direction colocation for rectangular regions . Comp. Meth. Appl. Mech. Eng. , 17 : 265
  • Lapidus , L. and Pinder , G. F. 1982 . Numerical Solution of Partial Differential Equations in Science and Engineering , New York : John Wiley & Sons .
  • Frind , E. O. The principal direction technique: a new approach to groundwater contaminant transport modeling . Proc. 4th Int. Conf. Finite Elements in Water Resources . pp. 25 New York : Springer‐Verlag .
  • Frind , E. O. and Pinder , G. F. The principal direction technique for solution of the advection‐dispersion equation . Proc. 10th World Congr. Int. Assoc. Mathematics and Computer Simulations . Montreal : Concordia University .
  • Frind , E. O. The principal direction technique for advective‐dispersive transport simulation in three‐dimensions . Proc. 5th Int. Conf. Finite Elements in Water Resources . pp. 363 New York : Springer‐Verlag .
  • Hageman , L. A. and Young , D. M. 1981 . Applied Iterative Methods , 386 New York : Academic Press .
  • Rose , C. W. , Chichester , F. W. , Williams , J. R. and Ritchie , J. T. 1982 . A contribution to simplified models for solute transport . J. Environ. Qual. , 11 : 146
  • Jury , W. A. 1982 . Simulation of solute transport using a transfer function model . Water Resour. Res. , 18 : 363
  • Jury , W. A. , Stolzy , L. H. and Shouse , P. 1982 . A field test of the transfer function model for predicting solution transport . Water Resour. Res. , 18 : 369
  • Sharma , M. L. , Gander , G. A. and Hunt , C. G. 1980 . Spatial variability of infiltration in a watershed . J. Hydrol. , 45 : 101
  • Jury , W. A. 1983 . “ Chemical transport modeling: current approaches and unresolved problems ” . In Chemical Mobility and Reactivity in Soil Systems , Madison : ASA, SSSA . chap. 4.
  • Bouma , J. 1981 . Soil morphology and preferential flow along macropores . Agric. Water Manage. , 3 : 235
  • Beven , K. and Germann , P. 1981 . Macropores and water flow in soils . Water Resour. Res. , 18 : 1131
  • Wierenga , P. J. Solute transport through soils: mobile‐immobile water concepts . Proc. Symp. Unsaturated Flow and Transport Modeling . Edited by: Arnold , E. M. , Gee , G. W. and Nelson , R. W. Richland : Pacific Northwest Laboratory . Rep. NUREG/CP‐0030,
  • Van Genuchten , M. T. , Tang , D. H. and Guennelon , R. 1984 . Some exact solutions for solute transport through soils containing large macropores . Water Resour. Res. , 20 : 335
  • Rasmuson , A. and Neretnieks , I. 1980 . Exact solution for diffusion in particles and longitudinal dispersion in packed beds . AIChE J. , 26 : 686
  • Rasmuson , A. and Neretnieks , I. 1981 . Migration of radionuclides in fissured rock: the influence of micropore diffusion and longitudinal dispersion . J. Geophys. Res. , 86 (B5) : 3749
  • Tang , D. H. , Frind , E. O. and Sudicky , E. A. 1981 . Contaminant transport in fractured porous media: analytical solution for a single fracture . Water Resour. Res. , 17 : 555
  • Sudicky , E. A. and Frind , E. O. 1982 . Contaminant transport in fractured porous media: analytical solutions for a system of parallel fractures . Water Resour. Res. , 18 : 1634
  • Grisak , G. E. and Pickens , J. F. 1981 . An analytical solutions for solute transport through fractured media with matrix diffusion . J. Hydrol. , 52 : 47
  • Grisak , G. E. and Pickens , J. F. 1980 . Solute transport through fractured media. I. The effect of matrix diffusion . Water Resour. Res. , 16 : 719
  • Skopp , J. , Gardner , W. R. and Tyler , E. J. 1981 . Solute movement in structured soils: two‐region model with small interaction . Soil Sci. Soc. Am J , 45 : 837
  • Davidson , J. M. , Rao , P. S. C. , Green , R. E. and Selim , H. M. 1980 . “ Evaluation of conceptual models for solute behavior in soil‐water systems ” . In Agrochemicals in Soils , Edited by: Banin , A. and Kafkafi , U. 241 New York : Pergamon Press .
  • van Genuchten , M. T. 1981 . Non‐Equilibrium Transport Parameters From Miscible Displacement Experiments , Res. Rep. No. 119 Riverside : U.S. Department of Agriculture .
  • Rao , P. S. C. , Jessup , R. E. , Rolston , D. E. , Davidson , J. M. and Kilcrease , D. P. 1980 . Experimental and mathematical description on nonadsorbed solute transfer by diffusion in spherical aggregates . Soil Sci. Soc. Am. J. , 44 : 684
  • Murali , V. and Aylmore , L. A. G. 1983 . Competitive adsorption during solute transport in soils. III. A review of experimental evidence of competitive adsorption and an evaluation of simple competition models . Soil Sci. , 136 : 279
  • Murali , V. and Aylmore , L. A. G. 1983 . Competitive adsorption during solute transport in soils. I. Mathematical models . Soil Sci. , 135 : 143
  • Murali , V. and Aylmore , L. A. G. 1983 . Competitive adsorption during solute transport in soils. II. Simulations of competitive adsorption . Soil Sci. , 135 : 203
  • Long , J. C. S. , Remer , J. S. , Wilson , C. R. and Witherspoon , P. A. 1982 . Porous media equivalents for networks of discontinuous fractures . Water Resour. Res. , 18 : 645
  • Huyakorn , P. S. , Lester , B. H. and Faust , C. R. 1983 . Finite element techniques for modeling groundwater flow in fractured aquifers . Water Resour. Res. , 19 : 1019
  • Bibby , R. 1981 . Mass transport of solutes in dual‐porosity media . Water Resour. Res. , 17 : 1075
  • Narasimhan , T. N. 1982 . Multidimensional numerical simulation of fluid flow in fractured porous media . Water Resour. Res. , 18 : 1235
  • Grisak , G. E. and Pickens , J. F. 1980 . Solute transport through fractured media. II. Column study of fractured till . Water Resour. Res. , 16 : 731
  • Grisak , G. E. and Pickens , J. F. 1981 . An analytical solution for solute transport through fractured media with matrix diffusion . J. Hydrol. , 52 : 47
  • Neretnieks , I. 1980 . Diffusion in the rock matrix: an important factor in radionuclide retardation? . J. Geophys. , 85 : 4379
  • Noorishad , J. and Mehran , M. 1982 . An upstream finite element method for solution of transient transport equation in fractured porous media . Water Resour. Res. , 18 : 588
  • Smith , L. and Schwartz , F. W. 1981 . Mass transport. III. Role of hydraulic conductivity data in prediction . Water Resour. Res. , 17 : 1463
  • Simmons , C. S. 1982 . A stochastic‐convective transport representation of dispersion in one‐dimensional porous media systems . Water Resour. Res. , 18 : 1193
  • Gelhar , L. W. and Axness , C. L. 1981 . Stochastic analysis of macrodispersion in three‐dimensionally heterogeneous aquifers , Rep. H‐8, Hydrol. Res. Prog. Socorro : N.M. Inst. Mining Technol. .
  • Schwartz , F. W. , Smith , L. and Crowe , A. S. 1983 . A stochastic analysis of macroscopic dispersion in fractured media . Water Resour. Res. , 19 : 1253
  • Gorelick , S. M. , Voss , C. I. , Gill , P. E. , Murray , W. , Saunders , M. A. and Wright , M. H. 1984 . Aquifer reclamation design: the use of contaminant transport simulation combined with nonlinear programming . Water Resour. Res. , 20 : 415
  • Lehr , J. H. and Nielsen , D. M. 1982 . Aquifer restoration and ground‐water rehabilitation: a light at the end of the tunnel . Groundwater , 20 : 650
  • Landon , R. A. and Sylvester , K. A. Delineation of subsurface oil contamination and recommended containment/cleanup . Proc. 2nd Natl. Symp. Aquifer Restoration and Groundwater Monitoring . pp. 335 Columbus : National Water Well Association .
  • Yaniga , P. M. Alternatives in the decontamination for hydrocarbon‐contaminated aquifers . Proc. 2nd Natl. Symp. Aquifer Restoration and Groundwater Monitoring . pp. 47 Columbus : National Water Well Association .
  • Stover , E. L. Removal of volatile organics from contaminated ground water . Proc. 2nd Natl. Symp. Aquifer Restoration and Groundwater Monitoring . pp. 77 Columbus : National Water Well Association .
  • McBride , K. K. Decontamination of ground water for volatile organic chemicals: select studies in New Jersey . Proc. 2nd Natl. Symp. Aquifer Restoration and Groundwater Monitoring . pp. 339 Columbus : National Water Well Association .
  • Ohneck , R. J. and Gardner , G. L. Restoration of an aquifer contaminated by an accidental spill of organic chemicals . Proc. 2nd Natl. Symp. Aquifer Restoration and Groundwater Monitoring . pp. 339 Columbus : National Water Well Association .
  • Osiensky , J. L. , Williams , R. E. and Staub , W. P. Ground‐water pumpback system of a uranium tailings disposal site . Proc. 2nd Natl. Symp. Aquifer Restoration and Groundwater Monitoring . pp. 30 Columbus : National Water Well Association .
  • Molsather , L. R. and Barr , K. D. Retrofit leachate collection system for an existing landfill: a case history . Proc. 2nd Natl. Symp. Aquifer Restoration and Groundwter Monitoring . pp. 316 Columbus : National Water Well Association .
  • Giddings , T. The utilization of a ground‐water dam for leachate containment at a landfill site . Proc. 2nd Natl. Symp. Aquifer Restoration and Groundwater Monitoring . pp. 23 Columbus : National Water Well Association .
  • Gorelick , S. M. and Remson , I. 1982 . Optimal location and management of waste disposal facilities affecting groundwater quality . Water Resour. Bull. , 18 : 43
  • Gorelick , S. M. and Remson , I. 1982 . Optimal dynamic management modeling methods . Wafer Resour. Res. , 18 : 71
  • Gorelick , S. M. 1983 . A review of distributed parameter groundwater management modeling methods . Water Resour. Res. , 19 : 305
  • Ubbes , W. F. and Duguid , J. O. Geotechnical Assessment and Instrumentation Needs for Isolation of Nuclear Waste in Crystalline Rocks: Symposium Proceedings . Columbus : Office of Crystalline Repository Development, Battelle Memorial Institute . BMI/OCRD‐24, CONF‐841–296,
  • Read , D. , Williams , D. R. and Liew , S. K. 1985 . A coupled approach to radioerlement modeling in the United Kingdom . Int. Symp. Coupled Processes Affecting the Performance of a Nuclear Waste Repository . 1985 , Berkeley. pp. 109
  • Sykes , J. F. , Wilson , J. L. and Andrews , R. W. 1985 . Sensitivity analysis for steady state groundwater flow using adjoint operators . Water Resour. Res. , 21 : 359
  • Robson , S. G. 1981 . “ Computer simulation of movement of DIMP‐contaminated groundwater near the Rocky Mountain Arsenal, Colorado ” . In Permeability and Groundwater Contaminant Transport , ASTM STP 746 Edited by: Zimmie , T. F. and Riggs , C. O. 209 Philadelphia : American Society for Testing and Materials .
  • Gray , W. G. and Hoffman , J. L. 1983 . A numerical model study of ground‐water contamination from Price's landfill, New Jersey. I. Data base and flow simulation . Ground Water , 21 : 7
  • Gray , W. G. and Hoffman , J. L. 1983 . A numerical model study of ground‐water contamination from Price's landfill, New Jersey. II. Sensitivity analysis and contaminant plume simulation . Ground Water , 21 : 15
  • Robson , S. G. and Saulnier , G. J. Jr. 1981 . Hydrogeochemistry and Simulated Solute Transport, Piceance Basin, Northwestern Colorado , Geological Survey Professional Paper No. 1196 Washington
  • Gureghian , A. B. , Ward , D. S. and Cleary , R. W. 1981 . A finite element model for the migration of leachate from a sanitary landfill in Long Island, New York. II. Application . Water Resour. Bull. , 17 : 62
  • Lewis , B. D. and Goldstein , F. J. 1982 . Evaluation of a Predictive Ground‐Water Solute‐Transport Model at the Idaho National Engineering Laboratory , U.S. Geological Survey Water‐Resources Investigations No. 82 to 85 Idaho
  • Prickett , T. A. , Naymik , T. G. and Lonnquist , C. G. 1981 . A “Random‐Walk” Solute Transport Model for Selected Groundwater Quality Evaluations , Bull. No. 65 Champaign : Illinois Department of Energy and Natural Resources .
  • Naymik , T. G. and Barcelona , M. J. 1981 . Characterization of a contaminant plume in ground water, Meredosia, Illinois . Ground Water , 19 : 517
  • Barcelona , M. J. and Naymik , T. G. 1984 . Dynamics of a fertilizer contaminant plume in groundwater . Environ. Sci. Tcchnol. , 18 : 257
  • Sykes , J. F. , Pahwa , S. B. , Lantz , R. B. and Ward , D. S. 1982 . Numerical simulation of flow and contaminant migration at an extensively monitored landfill . Water Resour. Res. , 18 : 1687
  • Bredehoeft , J. F. 1983 . Ground water: a review . Rev. Geophys. Space Phys. , 21 (3) : 760
  • Tsang , C. F. and Mangold , D. C. , eds. 1984 . Panel Report on Coupled Thermo‐Mechanical‐Hydro‐Chemical Processes Associated with a Nuclear Waste LBL‐18250 Berkeley

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.