ASCE 9780784405505 2002
$35.21
Waterbody Hydrodynamic and Water Quality Modeling
| Published By | Publication Date | Number of Pages |
| ASCE | 2002 | 232 |
John Eric Edinger introduces waterbody hydrodynamic and water quality modeling techniques and the properties of different models through hands-on software.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 10 | Contents |
| 18 | 1. INTROGLLVHT Hydrodynamic and Water Quality Modeling 1.1 The Hydrodynamic and Transport Model |
| 19 | 1.2 Example Flow Regimes |
| 21 | 1.3 The Water Quality Models |
| 23 | 1.4 INTROGLLVHT Model Folder 1.5 The Bathymetry Setup Routine and Its Application |
| 25 | 1.6 The Input File Routine |
| 26 | 1.7 The Generalmodel.exe Routine 1.8 Example Applications |
| 27 | 1.9 The DMA Win.exe |
| 36 | 2. The Input Data File 2.1 Description of Input Data File |
| 42 | 2.2 Application Input Data File |
| 44 | 2.3 Applying the INTROGLLVHT Input File.exe Routine |
| 50 | 3. Executing the Model, Output Files, and Water Quality Model Default Parameters 3.1 Executing the Model |
| 51 | 3.2 Description of Output Files |
| 55 | 3.3 Water Quality Model Default Parameter Files |
| 68 | 4. Application of the Temperature, Salinity, First-Order Decay Constituent Model to Estuaries and Coastal Waters 4.1 The Estuarine EST_TSC_01 Application |
| 71 | 4.2 Determination of Residence and Flushing Times |
| 74 | 4.3 Estuary with Groundwater Inflow |
| 75 | 4.4 Coastal Applications |
| 98 | 5. Application of the Temperature, Salinity, First-Order Decay Constituent Model to Lakes and Reservoirs 5.1 Lake with Cold Water Inflow |
| 101 | 5.2 Closed Loop Cooling Reservoir with Skimmer Walls |
| 118 | 6. Application of the Dissolved Oxygen Depression Model 6.1 Application to a Tank Test |
| 120 | 6.2 Application to a Simple Stream |
| 122 | 6.3 Application to a Reservoir |
| 134 | 7. Application of the Water Quality Dissolved Particulate Eutrophication Model |
| 135 | 7.1 Tank Tests of Water Quality Dissolved Particulate Model Properties |
| 137 | 7.2 Reservoir Applications of the Water Quality Dissolved Particulate Model |
| 138 | 7.3 The Closed Loop Cooling Reservoir |
| 139 | 7.4 An Example Lake Study Problem |
| 140 | 7.5 Application of the Water Quality Dissolved Particulate Model to Estuaries and Coastal Waters |
| 143 | 7.6 Density Dependent Phytoplankton Grazing |
| 158 | 8. Application of the Sediment Scour and Deposition Model 8.1 Application of the Sediment Scour and Deposition Model to a River |
| 160 | 8.2 Application of Sediment Scour and Deposition to a Tidal River |
| 162 | 8.3 Application of the Scour/Deposition Model to a Coastal Water Project 8.4 Application of Sediment Scour and Deposition to a Coastal Water Project with a Marina Breakwater |
| 172 | 9. Generalized Longitudinal Lateral Vertical Hydrodynamic Transport Relationships 9.1 Fundamentals of Momentum Balances |
| 173 | 9.2 Detailed Relationships |
| 174 | 9.3 Computational Scheme |
| 176 | 9.4 Formulation of the Generalized Longitudinal Lateral Vertical Hydrodynamic Transport Numerical Hydrodynamic Computation |
| 178 | 9.5 Numerical Formulation of the Generalized Longitudinal Lateral Vertical Hydrodynamic Transport Relationship |
| 180 | 9.6 INTROGLLVHT Model Limitations |
| 184 | 10. First-Order Decay and Sediment Relationships 10.1 First-Order Decay 10.2 Decay Rates 10.3 Analytical Solution 10.4 Half-Life from Kinetic Coefficients |
| 185 | 10.5 Computation of Residence Time |
| 188 | 11. Surface Heat Exchange Relationships 11.1 Approximation to Surface Heat Exchange Formulation |
| 189 | 11.2 Excess Temperature |
| 190 | 11.3 Short-Wave Solar Radiation 11.4 Coefficient of Surface Heat Exchange and Equilibrium Temperature 11.5 Response Temperature |
| 191 | 11.6 Plant Heat Rejection, Pumping Rate, and Temperature Rise |
| 194 | 12. Dissolved Oxygen Depression Relationships 12.1 The Dissolved Oxygen Depression Processes |
| 195 | 12.2 Analytical Solution of the Dissolved Oxygen Depression Relationship |
| 196 | 12.3 Reaeration Formulas for Streams |
| 198 | 13. The Water Quality Dissolved Particulate Eutrophication Model 13.1 The Water Quality Dissolved Particulate Model Nutrient Cycles and Processes 13.2 The Water Quality Dissolved Particulate Model Constituent Relationships |
| 202 | 13.3 Rates and Constants in the Water Quality Dissolved Particulate Model 13.4 A Higher-Order Water Quality Modeling |
| 212 | 14. Sediment Scour and Deposition Relationships 14.1 Sediment Transport Relationships |
| 213 | 14.2 Definition of Sediment Rate |
| 214 | 14.3 Relationship Between Model Input Parameters |
| 215 | Glossary B C D |
| 216 | E F G H I J K M |
| 217 | N P R S |
| 218 | T V W Z |
| 219 | References |
| 224 | Index A B C |
| 225 | D |
| 226 | E F |
| 227 | G H I J K L |
| 228 | M N O P |
| 229 | Q R S |
| 231 | T U V |
| 232 | W Z |
Related products
-
ASCE 9780784405604 2005
Handbook of Concrete Bridge Management Published By Publication Date Number of Pages ASCE 2005 495
-
ASCE 9780784408575 2007
Snow Loads Published By Publication Date Number of Pages ASCE 2007 174
-
ASCE 9780784409305 2007
Geotechnical Baseline Reports for Construction Published By Publication Date Number of Pages ASCE 2007 73
-
ASCE 9780784408506 2007
Modeling Complex Engineering Structures Published By Publication Date Number of Pages ASCE 2007 378
