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| 008 | 080129s2008 njuab b 001 0 eng d | ||
| 010 | _a 2007044567 | ||
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| 035 | _a(OCoLC)166873192 | ||
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_aTC175 _b.J52 2008 |
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_a627 _222 |
| 100 | 1 |
_aJi, Zhen-Gang, _eauthor. _91065343 |
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| 245 | 1 | 0 |
_aHydrodynamics and water quality : _bmodeling rivers, lakes, and estuaries / _cZhen-Gang Ji. |
| 264 | 1 |
_aHoboken, N.J. : _bWiley-Interscience, _c[2008] |
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| 264 | 4 | _c©2008 | |
| 300 |
_axxii, 676 pages : _billustrations, maps ; _c25 cm + _e1 computer disc (12 cm) |
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| 336 |
_atext _btxt _2rdacontent |
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_acomputer dataset _bcod _2rdacontent _3Accompanying material |
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_aunmediated _bn _2rdamedia |
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_acomputer _bc _2rdamedia _3Accompanying material |
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_acomputer disc _bcd _2rdacarrier _3Accompanying material |
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| 500 | _aAccompanied by: 1 computer disc (CD-ROM) | ||
| 504 | _aIncludes bibliographical references (pages 649-670) and index. | ||
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_g1. _tIntroduction -- _g1.1. _tOverview -- _g1.2. _tUnderstanding Surface Waters -- _g1.3. _tModeling of Surface Waters -- _g1.4. _tAbout This Book -- _g2. _tHydrodynamics -- _g2.1. _tHydrodynamic Processes -- _g2.1.1. _tWater Density -- _g2.1.2. _tConservation Laws -- _g2.1.2.1. _tConservation of mass -- _g2.1.2.2. _tConservation of momentum -- _g2.1.3. _tAdvection and Dispersion -- _g2.1.4. _tMass Balance Equation -- _g2.1.5. _tAtmospheric Forcings -- _g2.1.6. _tCoriolis Force and Geostrophic Flow -- _g2.2. _tGoverning Equations -- _g2.2.1. _tBasic Approximations -- _g2.2.1.1. _tBoussinesq approximation -- _g2.2.1.2. _tHydrostatic approximation -- _g2.2.1.3. _tQuasi-3D approximation -- _g2.2.2. _tEquations in Cartesian Coordinates -- _g2.2.2.1. _t1D equations -- _g2.2.2.2. _t2D vertically averaged equations -- _g2.2.2.3. _t2D laterally averaged equations -- _g2.2.2.4. _t3D equations in sigma coordinate -- _g2.2.3. _tVertical Mixing and Turbulence Models -- _g2.2.4. _tEquations in Curvilinear Coordinates -- _g2.2.4.1. _tCurvilinear coordinates and model grid -- _g2.2.4.2. _t3D equations in sigma and curvilinear coordinates -- _g2.2.5. _tInitial Conditions and Boundary Conditions -- _g2.2.5.1. _tInitial conditions -- _g2.2.5.2. _tSolid boundary conditions -- _g2.3. _tTemperature -- _g2.3.1. _tHeatflux Components -- _g2.3.1.1. _tSolar radiation -- _g2.3.1.2. _tLongwave radiation -- _g2.3.1.3. _tEvaporation and latent heat -- _g2.3.1.4. _tSensible heat -- _g2.3.2. _tTemperature Formulations -- _g2.3.2.1. _tBasic equations -- _g2.3.2.2. _tSurface boundary condition -- _g2.3.2.3. _tBed heat exchange -- _g2.4. _tHydrodynamic Modeling -- _g2.4.1. _tHydrodynamic Parameters and Data Requirements -- _g2.4.1.1. _tHydrodynamic parameters -- _g2.4.1.2. _tData requirements -- _g2.4.2. _tCase Study I: Lake Okeechobee -- _g2.4.2.1. _tBackground -- _g2.4.2.2. _tData sources -- _g2.4.2.3. _tModel setup -- _g2.4.2.4. _tModel calibration -- _g2.4.2.5. _tHydrodynamic processes in the lake -- _g2.4.2.6. _tDiscussions and conclusions -- _g2.4.3. _tCase Study II: St. Lucie Estuary and Indian River Lagoon -- _g2.4.3.1. _tBackground -- _g2.4.3.2. _tModel setup -- _g2.4.3.3. _tTidal elevation and current in SLE /IRL -- _g2.4.3.4. _tTemperature and salinity -- _g2.4.3.5. _tDiscussions on hydrodynamic processes -- _g2.4.3.6. _tConclusions -- _g3. _tSediment Transport -- _g3.1. _tOverview -- _g3.1.1. _tProperties of Sediment -- _g3.1.2. _tProblems Associated with Sediment -- _g3.2. _tSediment Processes -- _g3.2.1. _tParticle Settling -- _g3.2.2. _tHorizontal Transport of Sediment -- _g3.2.3. _tResuspension and Deposition -- _g3.2.4. _tEquations for Sediment Transport -- _g3.2.5. _tTurbidity and Secchi Depth -- _g3.3. _tCohesive Sediment -- _g3.3.1. _tVertical Profiles of Cohesive Sediment Concentrations -- _g3.3.2. _tFlocculation -- _g3.3.3. _tSettling of Cohesive Sediment -- _g3.3.4. _tDeposition of Cohesive Sediment -- _g3.3.5. _tResuspension of Cohesive Sediment -- _g3.4. _tNoncohesive Sediment -- _g3.4.1. _tShields Diagram -- _g3.4.2. _tSettling and Equilibrium Concentration -- _g3.4.3. _tBed Load Transport -- _g3.5. _tSediment Bed -- _g3.5.1. _tCharacteristics of Sediment Bed -- _g3.5.2. _tA Model for Sediment Bed -- _g3.6. _tWind Waves -- _g3.6.1. _tWave Processes -- _g3.6.2. _tWind Wave Characteristics -- _g3.6.3. _tWind Wave Models -- _g3.6.4. _tCombined Flows of Wind Waves and Currents -- _g3.6.5. _tCase Study: Wind Wave Modeling in Lake Okeechobee -- _g3.6.5.1. _tBackground -- _g3.6.5.2. _tMeasured data and model setup -- _g3.6.5.3. _tModel calibration and verification -- _g3.6.5.4. _tDiscussions -- _g3.7. _tSediment Transport Modeling -- _g3.7.1. _tSediment Parameters and Data Requirements -- _g3.7.2. _tCase Study I: Lake Okeechobee -- _g3.7.2.1. _tBackground -- _g3.7.2.2. _tModel configuration -- _g3.7.2.3. _tModel calibration and verification -- _g3.7.2.4. _tDiscussions and conclusions -- _g3.7.3. _tCase Study II: Blackstone River -- _g3.7.3.1. _tBackground -- _g3.7.3.2. _tData sources and model setup -- _g3.7.3.3. _tHydrodynamic and sediment simulation -- _g4. _tPathogens and Toxics -- _g4.1. _tOverview -- _g4.2. _tPathogens -- _g4.2.1. _tBacteria, Viruses, and Protozoa -- _g4.2.2. _tPathogen Indicators -- _g4.2.3. _tProcesses Affecting Pathogens -- _g4.3. _tToxic Substances -- _g4.3.1. _tToxic Organic Chemicals -- _g4.3.2. _tMetals -- _g4.3.3. _tSorption and Desorption -- _g4.4. _tFate and Transport Processes -- _g4.4.1. _tMathematical Formulations -- _g4.4.2. _tProcesses Affecting Fate and Decay -- _g4.4.2.1. _tMineralization and decomposition -- _g4.4.2.2. _tHydrolysis -- _g4.4.2.3. _tPhotolysis -- _g4.4.2.4. _tBiodegradation -- _g4.4.2.5. _tVolatilization -- _g4.4.2.6. _tPH -- _g4.5. _tContaminant Modeling -- _g4.5.1. _tCase Study I: St. Lucie Estuary and Indian River Lagoon -- _g4.5.1.1. _tAnalysis of measured copper data -- _g4.5.1.2. _tSediment and copper modeling results -- _g4.5.1.3. _tSummary and discussions -- _g4.5.2. _tCase Study II: Rockford Lake -- _g4.5.2.1. _tBackground -- _g4.5.2.2. _tData sources and model setup -- _g4.5.2.3. _tModel results -- |
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_g5. _tWater Quality and Eutrophication -- _g5.1. _tOverview -- _g5.1.1. _tEutrophication -- _g5.1.2. _tAlgae -- _g5.1.3. _tNutrients -- _g5.1.3.1. _tNitrogen cycle -- _g5.1.3.2. _tPhosphorus cycle -- _g5.1.3.3. _tLimiting nutrients -- _g5.1.4. _tDissolved Oxygen -- _g5.1.5. _tGoverning Equations for Water Quality Processes -- _g5.1.5.1. _tHydrodynamic effects -- _g5.1.5.2. _tTemperature effects -- _g5.1.5.3. _tMichaelis-Menton formulation -- _g5.1.5.4. _tState variables in water quality models -- _g5.2. _tAlgae -- _g5.2.1. _tAlgal Biomass and Chlorophyll -- _g5.2.2. _tEquations for Algal Processes -- _g5.2.3. _tAlgal Growth -- _g5.2.3.1. _tNutrients for algal growth -- _g5.2.3.2. _tSunlight for algal growth and photosynthesis -- _g5.2.4. _tAlgal Reduction -- _g5.2.4.1. _tBasal metabolism -- _g5.2.4.2. _tAlgal predation -- _g5.2.4.3. _tAlgal settling -- _g5.2.5. _tSilica and Diatom -- _g5.2.6. _tPeriphyton -- _g5.3. _tOrganic Carbon -- _g5.3.1. _tDecomposition of Organic Carbon -- _g5.3.2. _tEquations for Organic Carbon -- _g5.3.3. _tHeterotrophic Respiration and Dissolution -- _g5.4. _tPhosphorus -- _g5.4.1. _tEquations for Phosphorus State Variables -- _g5.4.1.1. _tParticulate organic phosphorus -- _g5.4.1.2. _tDissolved organic phosphorus -- _g5.4.1.3. _tTotal phosphate -- _g5.4.2. _tPhosphorus Processes -- _g5.4.2.1. _tSorption and desorption of phosphate -- _g5.4.2.2. _tEffects of algae on phosphorus -- _g5.4.2.3. _tMineralization and hydrolysis -- _g5.5. _tNitrogen -- _g5.5.1. _tForms of Nitrogen -- _g5.5.2. _tEquations for Nitrogen State Variables -- _g5.5.2.1. _tParticulate organic nitrogen -- _g5.5.2.2. _tDissolved organic nitrogen -- _g5.5.2.3. _tAmmonium nitrogen -- _g5.5.2.4. _tNitrate nitrogen -- _g5.5.3. _tNitrogen Processes -- _g5.3.1.1. _tEffects of algae -- _g5.3.1.2. _tMineralization and hydrolysis -- _g5.3.1.3. _tNitrification -- _g5.3.1.4. _tDenitrification -- _g5.3.1.5. _tNitrogen fixation -- _g5.6. _tDissolved Oxygen -- _g5.6.1. _tBiochemical Oxygen Demand -- _g5.6.2. _tProcesses and Equations of Dissolved Oxygen -- _g5.6.3. _tEffects of Photosynthesis and Respiration -- _g5.6.4. _tReaeration -- _g5.6.5. _tChemical Oxygen Demand -- _g5.7. _tSediment Fluxes -- _g5.7.1. _tSediment Diagenesis Model -- _g5.7.1.1. _tThree fluxes of the sediment diagenesis model -- _g5.7.1.2. _tTwo-layer structure of benthic sediment -- _g5.7.1.3. _tThree G classes of sediment organic matter -- _g5.7.1.4. _tState variables of the sediment diagenesis model -- _g5.7.2. _tDepositional Fluxes -- _g5.7.3. _tDiagenesis Fluxes -- _g5.7.4. _tSediment Fluxes -- _g5.7.4.1. _tBasic equations -- _g5.7.4.2. _tParameters for sediment fluxes -- _g5.7.4.3. _tAmmonium nitrogen flux -- _g5.7.4.4. _tNitrate nitrogen flux -- _g5.7.4.5. _tPhosphate phosphorus flux -- _g5.7.4.6. _tChemical oxygen demand and sediment oxygen demand -- _g5.7.5. _tSilica -- _g5.7.6. _tCoupling with Sediment Resuspension -- _g5.8. _tSubmerged Aquatic Vegetation -- _g5.8.1. _tIntroduction -- _g5.8.2. _tEquations for a SAV Model -- _g5.8.2.1. _tShoots production and respiration -- _g5.8.2.2. _tCarbon transport and roots respiration -- _g5.8.2.3. _tEpiphytes production and respiration -- _g5.8.3. _tCoupling with the Water Quality Model -- _g5.8.3.1. _tOrganic carbon coupling -- _g5.8.3.2. _tDissolved oxygen coupling -- _g5.8.3.3. _tPhosphorus coupling -- _g5.8.3.4. _tNitrogen coupling -- _g5.8.3.5. _tTotal suspended solid coupling -- _g5.9. _tWater Quality Modeling -- _g5.9.1. _tModel Parameters and Data Requirements -- _g5.9.1.1. _tWater quality parameters -- _g5.9.1.2. _tData requirements -- _g5.9.2. _tCase Study I: Lake Okeechobee -- _g5.9.2.1. _tBackground -- _g5.9.2.2. _tModel setup and data sources -- _g5.9.2.3. _tWater quality modeling results -- _g5.9.2.4. _tSAV modeling results -- _g5.9.2.5. _tDiscussions and Summary -- _g5.9.3. _tCase Study II: St. Lucie Estuary and Indian River Lagoon -- _g5.9.3.1. _tModel setup -- _g5.9.3.2. _tWater quality model calibration and verification -- _g5.9.3.3. _tHydrodynamic and water quality processes in the SLE -- _g5.9.3.4. _tSummary and conclusions -- _g6. _tExternal Sources and TMDL -- _g6.1. _tPoint Sources and Nonpoint Sources -- _g6.2. _tAtmospheric Deposition -- _g6.3. _tWetlands and Ground Water -- _g6.3.1. _tWetlands -- _g6.3.2. _tGround Water -- _g6.4. _tWatershed Processes and TMDL Development -- _g6.4.1. _tWatershed Processes -- _g6.4.2. _tTotal Maximum Daily Load (TMDL) -- _g7. _tMathematical Modeling and Statistical Analyses -- _g7.1. _tMathematical Models -- _g7.1.1. _tNumerical Models -- _g7.1.2. _tModel Selection -- _g7.1.3. _tSpatial Resolution and Temporal Resolution -- _g7.2. _tStatistical Analyses -- _g7.2.1. _tStatistics for Model Performance Evaluation -- _g7.2.2. _tCorrelation and Regression -- _g7.2.3. _tSpectral Analysis -- _g7.2.4. _tEmpirical Orthogonal Function (EOF) -- _g7.2.5. _tEOF Case Study -- _g7.3. _tModel Calibration and Verification -- _g7.3.1. _tModel Calibration -- _g7.3.2. _tModel Verification and Validation -- _g7.3.3. _tSensitivity Analysis -- _g8. _tRivers -- _g8.1. _tCharacteristics of Rivers -- _g8.2. _tHydrodynamic Processes in Rivers -- _g8.2.1. _tRiver Flow and the Manning Equation -- _g8.2.2. _tAdvection and Dispersion in Rivers -- _g8.2.3. _tFlow over Dams -- _g8.3. _tSediment and Water Quality Processes in Rivers -- _g8.3.1. _tSediment and Contaminants in Rivers -- _g8.3.2. _tImpacts of River Flow on Water Quality -- _g8.3.3. _tEutrophication and Periphyton in Rivers -- _g8.3.4. _tDissolved Oxygen in Rivers -- _g8.4. _tRiver Modeling -- _g8.4.1. _tCase Study I: Blackstone River -- _g8.4.1.1. _tModeling metals in the Blackstone River -- _g8.4.1.2. _tImpacts of sediment and metals sources -- _g8.4.1.3. _tDiscussion and conclusions -- _g8.4.2. _tCase Study II: Susquehanna River -- _g8.4.2.1. _tBackground -- _g8.4.2.2. _tModel application -- _g8.4.2.3. _tDiscussions -- |
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_g9. _tLakes and Reservoirs -- _g9. _t1 Characteristics of Lakes and Reservoirs -- _g9.1.1. _tKey Factors Controlling a Lake -- _g9.1.2. _tVertical Stratification -- _g9.1.3. _tBiological Zones in Lakes -- _g9.1.4. _tCharacteristics of Reservoirs -- _g9.1.5. _tLake Pollution and Eutrophication -- _g9.2. _tHydrodynamic Processes -- _g9.2.1. _tInflow, Outflow, and Water Budget -- _g9.2.2. _tWind Forcing and Vertical Circulations -- _g9.2.3. _tSeasonal Variations of Stratification -- _g9.2.4. _tGyres -- _g9.2.5. _tSeiches -- _g9.3. _tSediment and Water Quality Processes in Lakes -- _g9.3.1. _tSediment Deposition in Reservoirs and Lakes -- _g9.3.2. _tAlgae and Nutrient Stratifications -- _g9.3.3. _tDissolved Oxygen Stratifications -- _g9.3.4. _tInternal Cycling and Limiting Functions in Shallow Lakes -- _g9.4. _tLake Modeling -- _g9.4.1. _tCase Study I: Lake Tenkiller -- _g9.4.1.1. _tIntroduction -- _g9.4.1.2. _tData sources and model setup -- _g9.4.1.3. _tHydrodynamic simulation -- _g9.4.1.4. _tWater quality simulation -- _g9.4.1.5. _tDiscussion and conclusions -- _g9.4.2. _tCase Study II: Lake Okeechobee -- _g9.4.2.1. _tSediment and nutrient fluxes into the Fisheating Bay -- _g9.4.2.2. _tImpact of Hurricane Irene -- _g9.4.2.3. _tImpacts of SAV on nutrient concentrations -- _g10. _tEstuaries and Coastal Waters -- _g10.1. _tIntroduction -- _g10.2. _tTidal Processes -- _g10.2.1. _tTides -- _g10.2.2. _tTidal Currents -- _g10.2.3. _tHarmonic Analysis -- _g10.3. _tHydrodynamic Processes in Estuaries -- _g10.3.1. _tSalinity -- _g10.3.2. _tEstuarine Circulation -- _g10.3.3. _tStratifications of Estuaries -- _g10.3.3.1. _tHighly stratified estuaries -- _g10.3.3.2. _tModerately stratified estuaries -- _g10.3.3.3. _tVertically mixed estuaries -- _g10.3.3.4. _tAn example of estuarine stratifications -- _g10.3.4. _tFlushing Time -- _g10.4. _tSediment and Water Quality Processes in Estuaries -- _g10.4.1. _tSediment Transport under Tidal Forcing -- _g10.4.2. _tFlocculation of Cohesive Sediment and Sediment Trapping -- _g10.4.3. _tEutrophication in Estuaries -- _g10.5. _tEstuarine and Coastal Modeling -- _g10.5.1. _tOpen Boundary Conditions -- _g10.5.2. _tCase Study I: Morro Bay -- _g10.5.2.1. _tIntroduction -- _g10.5.2.2. _tField data measurements -- _g10.5.2.3. _tModel setup -- _g10.5.2.4. _tWetting and drying approaches -- _g10.5.2.5. _tWet cell mapping -- _g10.5.2.6. _tHydrodynamic processes in Morro Bay -- _g10.5.2.7. _tSummary and conclusions -- _g10.5.3. _tCase Study II: St. Lucie Estuary and Indian River Lagoon -- _g10.5.3.1. _tTen-year simulations -- _g10.5.3.2. _tInfluence of sea level rise on water quality -- _gAppendix A. _tEnvironmental Fluid Dynamics Code -- _g1. _tOverview -- _g2. _tHydrodynamics -- _g3. _tSediment Transport -- _g4. _tToxic Chemical Transport and Fate -- _g5. _tWater Quality and Eutrophication -- _g6. _tNumerical Schemes -- _g7. _tDocumentation and Application Aids -- _gAppendix B. _tConversion Factors -- _gAppendix C. _tContents of Electronic Files -- _g1. _tChannel Model -- _g2. _tSt. Lucie Estuary and Indian River Lagoon Model -- _g3. _tLake Okeechobee Environmental Model -- _g4. _tDocumentation and Utility Programs. |
| 520 | _a"Hydrodynamics and Water Quality presents an integrated approach to hydrodynamics, sediment process, toxic fate, and transport. It illustrates principles, basic processes, mathematical descriptions, and practical applications associated with surface waters. Additionally, it provides scientifically sound approaches to identify surface water problems and to simulate these waterbodies numerically."--Publisher description. | ||
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