E-Book, Englisch, 302 Seiten, Web PDF
Fischer / List / Koh Mixing in Inland and Coastal Waters
1. Auflage 2013
ISBN: 978-0-08-051177-1
Verlag: Elsevier Science & Techn.
Format: PDF
Kopierschutz: 1 - PDF Watermark
E-Book, Englisch, 302 Seiten, Web PDF
ISBN: 978-0-08-051177-1
Verlag: Elsevier Science & Techn.
Format: PDF
Kopierschutz: 1 - PDF Watermark
This book is an outgrowth of research contributions and teaching experiences by all the authors in applying modern fluid mechanics to problems of pollutant transport and mixing in the water environment. It should be suitable for use in first year graduate level courses for engineering and science students, although more material is contained than can reasonably be taught in a one-year course, and most instructors will probably wish to cover only selected potions. The book should also be useful as a reference for practicing hydraulic and environmental engineers, as well as anyone involved in engineering studies for disposal of wastes into the environment. The practicing consulting or design engineer will find a thorough explanation of the fundamental processes, as well as many references to the current technical literature, the student should gain a deep enough understanding of basics to be able to read with understanding the future technical literature evolving in this evolving field.
J”rg Imberger is the Director of the Centre for Water Research and Professor of Environmental Engineering at the University of Western Australia (UWA), where he is a Vice-Chancellor's Distinguished Fellow. Imberger received his PhD at the University of California, Berkeley in 1970 and became Professor of Environmental Engineering at UWA in 1979.
Autoren/Hrsg.
Weitere Infos & Material
1;Front Cover
;1
2;Mixing in Inland and Coastal Waters;4
3;Copyright Page;5
4;Table of Contents;6
5;Preface;12
6;Acknowledgments;14
7;Chapter 1. Concepts and Defínitions;18
7.1;1.1 The Role of Hydrology and Hydraulic Engineering in Environmental Management;18
7.2;1.2 Environmental Hydraulics;23
7.3;1.3 Strategies and Approaches for Problem Solving;26
7.4;1.4 Basic Definitions and Concepts;33
7.5;1.5 Dimensional Analysis;40
8;Chapter 2. Fickian Diffusion;47
8.1;2.1 Fick's Law of Diffusion;47
8.2;2.2 The Random Walk and Molecular Diffusion;52
8.3;2.3 Some Mathematics of the Diffusion Equation;55
8.4;2.4 Advective Diffusion;67
9;Chapter 3. Turbulent Diffusion;72
9.1;3.1 Introduction;72
9.2;3.2 Some Statistical Concepts;77
9.3;3.3 Diffusion of the Ensemble Mean Concentration;82
9.4;3.4 Relative Diffusion of Clouds;88
9.5;3.5 Summary;94
10;Chapter 4. Shear Flow Dispersion;97
10.1;4.1 Dispersion in Laminar Shear Flow;97
10.2;4.2 Dispersion in Turbulent Shear Flow;108
10.3;4.3 Dispersion in Unsteady Shear Flow;111
10.4;4.4 Dispersion in Two Dimensions;116
10.5;4.5 Dispersion in Unbounded Shear Flow;119
11;Chapter 5. Mixing in Rivers;121
11.1;5.1 Turbulent Mixing in Rivers;122
11.2;5.2 Longitudinal Dispersion in Rivers;141
11.3;5.3 A Numerical Analysis for the Initial Period;156
11.4;5.4 Measurement of Stream Discharge by Tracer Techniques;159
11.5;5.5 Dispersion of Decaying Substances;162
12;Chapter 6. Mixing in Reservoirs;165
12.1;6.1 Reservoir Behavior;167
12.2;6.2 External Energy Sources for Mixing;178
12.3;6.3 Vertical Mixing in the Epilimnion;186
12.4;6.4 Vertical Mixing in the Hypolimnion;212
12.5;6.5 Horizontal Mixing in Reservoirs;216
12.6;6.6 Outflow Dynamics;218
12.7;6.7 Mixing of Inflows;226
12.8;6.8 Uses of a Numerical Model: An Example;237
13;Chapter 7. Mixing in Estuaries;246
13.1;7.1 Introduction and Classification;246
13.2;7.2 The Causes of Mixing in Estuaries;248
13.3;7.3 Cross-Sectional Mixing in Estuaries;266
13.4;7.4 Longitudinal Dispersion and Salinity Intrusion;270
13.5;7.5 One-Dimensional Analysis of Dispersion of Wastes;280
14;Chapter 8. River and Estuary Models;296
14.1;8.1 Considerations in Choosing a Model;297
14.2;8.2 Numerical Models;301
14.3;8.3 Physical Models;313
14.4;8.4 Summary;331
15;Chapter 9. Turbulent Jets and Plumes;332
15.1;9.1 Introduction;332
15.2;9.2 Jets and Plumes;334
15.3;9.3 Environmental Parameters;358
15.4;9.4 Buoyant Jet Problems and the Entrainment Hypothesis;382
15.5;9.5 Boundary Effects on Turbulent Buoyant Jets;394
15.6;9.6 Summary;406
16;Chapter 10. Design of Ocean Wastewater Discharge Systems;407
16.1;10.1 The Design Process;407
16.2;10.2 Mixing Phenomena;409
16.3;10.3 Outfall and Diffuser Hydraulics;429
16.4;10.4 An Example Design: The Sand Island Outfall in Honolulu, Hawaii;438
16.5;10.5 Design of Structures for Thermal Discharges;443
17;Appendix A: An Estimator for the Density of Seawater;460
18;Appendix B: Fluid Properties;467
19;Notation for Chapters 1–9;472
20;References;476
21;Author Index;490
22;Subject Index;495
