Marine Turbulence: Theories, Observations, and ModelsHelmut Z. Baumert, John H. Simpson, Jürgen Sündermann This is the first book to give a comprehensive overview of measurement techniques and theories for marine turbulence and mixing processes. The book includes a CD-ROM containing source codes of turbulence models and observational data sets from all over the world. Written by a team of 53 world-leading experts, Marine Turbulence represents a rich source of data and methods for students and scientists in oceanography, hydrology, limnology, and meteorology, as well as marine, naval and civil engineers. |
Contents
IAMARIS Bei den Mühren 69A D20457 | 2 |
3 | 15 |
228 | 19 |
8 | 24 |
5 | 34 |
8 | 41 |
6 | 53 |
7 | 66 |
32 | 277 |
1 | 283 |
Youyu | 318 |
Hartmut Peters | 324 |
SAIC Powder Mill Road Suite 400 Beltsville | 334 |
34 | 346 |
312 | 355 |
internal waves | 383 |
48 | 75 |
8 | 78 |
CNRS and Université de Lille 1 UMR ELICO | 80 |
Hans Burchard | 158 |
See Chapter 19 | 159 |
15 | 165 |
49 | 175 |
Alfred J Wüest | 197 |
81 | 200 |
Applied Aquatic Ecology APEC Limnolog | 203 |
25 | 210 |
21 | 220 |
JeanLuc Devenon | 238 |
Lakshmi Kantha | 244 |
31 | 254 |
University of South Florida Department | 396 |
52 | 406 |
35 | 411 |
OBSERVATIONAL | 415 |
53 | 423 |
See Chapter 19 | 460 |
3 | 472 |
Boris Galperin | 544 |
U M M Gulledelle 100 B1200 Brussels | 548 |
Prologue | 549 |
University of South Florida Department | 557 |
Susan Adcock | 558 |
John Huthnance | 616 |
Common terms and phrases
ADCP average B-plane Baltic Sea baroclinic barotropic Baumert bottom boundary layer bulence buoyancy Cambridge University Press CARTUM Project cascade Chapter circulation closure coefficient component computed constant convection density depth diffusivity dissipation rate dynamics eddy viscosity effects enstrophy equation estimates field fluctuations fluid flux forcing function geostrophic gradient halocline heton homogeneous horizontal instability intermittency internal waves internal-wave isopycnals isotropic jets k-ɛ model kinetic energy Kolmogorov large-scale length scale linear Marine Turbulence measurements microstructure mixed layer modes momentum observed ocean parameter parameterization Prandtl number processes profiles range regime Reynolds number Reynolds stress Richardson number Rossby waves rotation scalar Section sediment sensors shear probe simulations slope spatial spectral spectrum stratified stress structure surface temperature theory thermocline three-dimensional tidal tion tracer transport turbulence model turbulent flows two-dimensional v₁ values variables velocity vertical vortex vorticon water column wavenumber zonal
Popular passages
Page xiii - School of Ocean and Earth Science and Technology University of Hawaii at Manoa Mr.