Mesoscale Meteorological ModelingAcademic Press, 8 okt 2013 - 760 pagina's The 3rd edition of Mesoscale Meteorological Modeling is a fully revised resource for researchers and practitioners in the growing field of meteorological modeling at the mesoscale. Pielke has enhanced the new edition by quantifying model capability (uncertainty) by a detailed evaluation of the assumptions of parameterization and error propagation. Mesoscale models are applied in a wide variety of studies, including weather prediction, regional and local climate assessments, and air pollution investigations. - Broad expansion of the concepts of parameterization and parameterization methodology - Addition of new modeling approaches, including modeling summaries and summaries of data sets - All-new section on dynamic downscaling |
Inhoudsopgave
| 1 | |
| 3 | |
| 23 | |
| 41 | |
| 55 | |
6 Coordinate Transformations | 111 |
7 Traditional Parameterizations | 143 |
8 New Parameterization Approaches | 225 |
11 Model Evaluation | 373 |
12 Mesoscale Modeling and Satellite Simulator | 407 |
13 Examples of Mesoscale Models | 427 |
14 SynopticScale Background | 501 |
The Solution of Eqs 926 and 945 | 571 |
Model Summaries | 575 |
Geolocation of the Satellite Field of View1 | 601 |
| 605 | |
Overige edities - Alles bekijken
Veelvoorkomende woorden en zinsdelen
advection aerosols albedo approximation Atmos atmosphere average boundary conditions boundary layer Chapter circulations component computational constant convective coordinate system cumulus clouds cyclone defined dependent variables derived discussed domain dynamic effects equations evaluated example extratropical cyclone FIGURE flow flux divergence function geostrophic wind given by Eq grid points heat height horizontal ideal gas law illustrated interactions lifting condensation level linear longwave mesoscale model mesoscale systems meteorological motion nonhydrostatic nonlinear numerical model observed parameterization parameters parcel perturbation Pielke planetary boundary layer potential temperature precipitation predicted pressure gradient pressure gradient force radiation region represent representation satellite saturation scale scheme sea breeze Section shortwave simulation soil solution spatial specific humidity squall line surface synoptic terrain turbulent values velocity vertical water vapor wave wavelength wind zero αρ θα θο ρο ди др ду дх