Environmental Hydraulics - Modeling Software

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Informationen zum Autor Jean-Michel Tanguy is a French civil engineer who passed a master degree in Ice Hydraulics and a PhD in River Sediment Transport Modelling at Laval University! Quebec. Klappentext 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 indispensable to implement all these simulation tools. Volume 2 presents the different theories in an integrated approach: mathematical models as well as conceptual models, used by all disciplines to represent these processes. Volume 3 identifies the main numerical methods used in all these scientific fields to translate mathematical models into numerical tools. Volume 4 is composed of a series of case studies, dedicated to practical applications of these tools in engineering problems. To complete this presentation, volume 5 identifies and describes the modeling software in each discipline. Zusammenfassung 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 indispensable to implement all these simulation tools. Volume 2 presents the different theories in an integrated approach: mathematical models as well as conceptual models, used by all disciplines to represent these processes. Volume 3 identifies the main numerical methods used in all these scientific fields to translate mathematical models into numerical tools. Volume 4 is composed of a series of case studies, dedicated to practical applications of these tools in engineering problems. To complete this presentation, volume 5 identifies and describes the modeling software in each discipline. Inhaltsverzeichnis 19773592 ...

Sommario

Introduction xv

PART 1. 3D MODELS 1

Chapter 1. Non-Linear Waves With REFLUX 3D 3
Philippe SERGENT

1.1. Context 3

1.2. Data required for implementation 13

1.3. Specific numerical methods 14

1.4. Modeling options 17

1.5. Results output by the code, and operation 21

1.6. Examples of models 25

1.7. Bibliography 25

Chapter 2. Current Modeling with TELEMAC3D 29
Jacques CHORDA and Marie-Madeleine MAUBOURGUET

2.1. TELEMAC3D: 3D hydrodynamics at a free surface 29

2.2. Equations used in TELEMAC3D 30

2.3. Choices of 3D mesh 31

2.4. Specific features 31

2.5. Simple transition from TELEMAC2D to TELEMAC3D 32

2.6. Application example 32

2.7. Bibliography 34

Chapter 3. Atmospheric Modeling 35
Jean PAILLEUX

3.1. The rise of modeling as a tool in meteorology 35

3.2. Operational weather forecasting models 36

3.3. Towards kilometer-scale numerical forecasting - the AROME model 40

3.4. Bibliography 43

Chapter 4. Groundwater Flow Modeling in Porous Media Using MARTHE 45
Dominique THIÉRY

4.1. Application area 45

4.2. References 46

4.3. Technical features 47

4.4. Structure of the code 49

4.5. WinMarthe preprocessor 51

4.6. Simulation of the migration of a pollution plume 54

4.7. Complex hydrogeological configurations 56

4.8. Biphasic simulation of saline intrusion 59

4.9. Infiltration of imiscible TCE (tetracholoethylene) into heterogenous sand initially saturated with water 60

4.10. Biphasic simulation of water injected at four points into an aquifier initially saturated with oil 60

4.11. Biphasic simulation of methane storage in an aquifer 60

PART 2. 2D MODELS 63

Chapter 5. Meteorology and Hydrology 65
Florence HABETS

5.1. Bibliography 69

Chapter 6. Hydrological Modeling with MARINE 71
Marie-Madeleine MAUBOURGUET

6.1. General description of MARINE 71

6.2. Description of pre-processing 72

6.3. Description of the hydrological module 73

6.4. Description of river transport 78

6.5. Application examples 78

6.6. Bibliography 80

Chapter 7. Distributed Hydrological Modeling - the ATHYS Platform 83
Christophe BOUVIER, Anne CRESPY, Agnès L'AOUR-DUFOUR, François Noël CRES, François DESCLAUX and Arthur MARCHANDISE

7.1. General description of ATHYS 83

7.2. Pre-processing phase 84

7.3. Description hydrological models 86

7.4. Description of post-processing 92

7.5. Applications 93

7.6. Conclusions and future directions 99

7.7. Bibliography 100

Chapter 8. Operational Applications of the LARSIM Model for Flood Forecasting 101
Norbert DEMUTH

8.1. The problem 101

8.2. Structure of the LARSIM model 101

8.3. Operational mode - summary 102

8.4. Quality control and validation of input data 103

8.5. Spatial interpolation of rainfall data 105

8.6. Launching a forecasting simulation 105

8.7. Analysis of results, and experiments performed by the flood prediction services 105

8.8. Bibliography 107

Chapter 9. Real-Time Runoff - Infiltration Models: TOPMODEL 109
Georges-Marie SAULNIER

9.1. Introduction 109

9.2. TOPMODEL philosophy 110

9.3. Advantages of TOPMODEL 113

9.4. Forcing and predicted variables in TOPMODEL 113

9.5. Analytical basis 116

9.6. Bibliography 117Chapter 10. Currents with TELEMAC2D 119
Marie-Madeleine MAUBOURGUET and Jacques CHORDA

10.1. TELEMAC2D: hydrodynamics and the environment 119

10.2. The TELEMAC system 120

10.3. Original features and customizable code 121

10.4. TELEMAC as a training tool for hydraulic engineers 122

10.5. Bibliography 126

Chapter 11. 2D Model of Sediment Transport with RUBAR 20TS 129
André PAQUIER

11.1. Description of the 2D RUBAR 20TS model 129

11.2. Bibliography 138

Chapter 12. NAVMER: Ship Trajectory Simulator 139
Yann HOLLOCOU

12.1. The simulator 139

12.2. Simulations of a passenger vessel on the Seine 140

12.3. Sixth crossing on the Seine 141

12.4. Le Havre Port 2000: navig

Info autore

Jean-Michel Tanguy, Ministry of Sustainable Development, France.

Riassunto

This series of five volumes proposes an integrated description of physical processes modeling used by scientific disciplines from meteorology to coastal morphodynamics.