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Environmental Hydraulics : Modeling Software /
This series of five volumes proposes an integrated description of physical processes modeling used by scientific disciplines from meteorology to coastal morphodynamics. Volume 1 describes the physical processes and identifies the main measurement devices used to measure the main parameters that are...
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
London :
Wiley,
2013.
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| Colección: | ISTE.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Cover; Modeling Software; Title Page; Copyright Page; Table of Contents; Introduction; PART 1. 3D MODELS; Chapter 1. Non-Linear Waves With REFLUX 3D; 1.1. Context; 1.1.1. System of equations to be solved; 1.1.2. h-s method; 1.1.3. Linear dispersion; 1.1.4. Vertical profiles; 1.1.5. Linear shoaling; 1.1.6. Non-linear analysis; 1.2. Data required for implementation; 1.3. Specific numerical methods; 1.3.1. Variational formulation; 1.3.2. Lax-Wendroff scheme; 1.3.3. TVD scheme with slope limiter; 1.4. Modeling options; 1.4.1. Wave breaking; 1.4.2. Treatment of the moving boundary.
- 1.4.3. Treatment of an open boundary1.4.4. Generation of the incident wave; 1.5. Results output by the code, and operation; 1.5.1. Distortion of a wave by a trapezoidal bar; 1.5.2. Breaking; 1.5.3. Migration of an undersea sandbar; 1.6. Examples of models; 1.7. Bibliography; Chapter 2. Current Modeling with TELEMAC3D; 2.1. TELEMAC3D: 3D hydrodynamics at a free surface; 2.2. Equations used in TELEMAC3D; 2.3. Choices of 3D mesh; 2.4. Specific features; 2.5. Simple transition from TELEMAC2D to TELEMAC3D; 2.6. Application example; 2.7. Bibliography; Chapter 3. Atmospheric Modeling.
- 3.1. The rise of modeling as a tool in meteorology3.2. Operational weather forecasting models; 3.3. Towards kilometer-scale numerical forecasting
- the AROME model; 3.3.1. Other applications of atmospherical modeling; 3.4. Bibliography; Chapter 4. Groundwater Flow Modeling in Porous Media Using MARTHE; 4.1. Application area; 4.2. References; 4.3. Technical features; 4.3.1. Classic hydrodynamics; 4.3.2. Hydrodispersive transport; 4.3.3. Unsaturated zone, density, temperature; 4.3.4. Automatic initialization, optimization; 4.3.5. Specialized uses; 4.3.6. Gridding; 4.3.7. Flow calculation.
- 4.3.8. Transport calculation4.3.9. Geochemical interactions; 4.4. Structure of the code; 4.5. WinMarthe preprocessor; 4.5.1. Preparation and visualization of data; 4.5.2. Plan view and vertical cross-sections using the WinMarthe preprocessor; 4.5.3. WinMarthe preprocessor: exporting to MAPINFO; 4.5.4. Alluvial groundwater modeling under an industrial site; 4.5.5. Modeling using an irregular mesh and an embedded sub-mesh; 4.6. Simulation of the migration of a pollution plume; 4.6.1. Infiltration of a pollutant across the unsaturated zone and subsequent migration within the water table.
- 4.7. Complex hydrogeological configurations4.7.1. Density effects
- coupled hydraulic and thermal simulation; 4.8. Biphasic simulation of saline intrusion; 4.9. Infiltration of imiscible TCE (tetracholoethylene) into heterogenous sand initially saturated with water; 4.10. Biphasic simulation of water injected at four points into an aquifier initially saturated with oil; 4.11. Biphasic simulation of methane storage in an aquifer; PART 2. 2D MODELS; Chapter 5. Meteorology and Hydrology; 5.1. Bibliography; Chapter 6. Hydrological Modeling with MARINE; 6.1. General description of MARINE.