Spelling suggestions: "subject:"meteorology - tropics."" "subject:"meteorology - antropics.""
1 |
Background studies for a climatology of the intertropical convergence zone in the Western Central Pacific areaSandoval, Angelito Rivera, January 1967 (has links)
Thesis (Ph. D.)--University of Wisconsin--Madison, 1967. / Vita. Typescript. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references.
|
2 |
Quantification of tropical cyclone steering江熾榮, Kong, Che-wing. January 1984 (has links)
published_or_final_version / Geography and Geology / Doctoral / Doctor of Philosophy
|
3 |
An observational study of the energetics and dynamical aspects of GATE cloud clustersWang, Jough-tai 21 November 1986 (has links)
Thermodynamical and dynamical aspects of tropical cloud
clusters are studied using data from the GARP Atlantic Tropical
Experiment (GATE). The data set used in this study is a
three-dimensional gridded set of upper-air analyses constructed by
Ooyama and Chu (Hurricane Research Division, AOML/NOAA and
SSEC-University of Wisconsin) for wind data and Esbensen (Oregon
State University) for thermodynamic data. The energy and momentum
budgets are estimated on the scale of large cloud clusters.
A strong upper-tropospheric heat source and middle-tropospheric
drying are characteristic features of the mature stage
of the observed cloud clusters. The heat source, moisture sink and
the virtual heat flux for cloud clusters are larger than the
corresponding quantities from GATE easterly-wave composites. The
surface precipitation estimates produced from the vertically
integrated moisture budget are consistent with direct observations.
From the momentum budget study, the following conclusions are
drawn concerning the cumulus momentum effects. In the growing
stage, the mesoscale and cumulus scale effect tends to: 1) provide
a vertically integrated net sink for westerly momentum around the
cluster center; 2) induce a convergent circulation in the lower
layer. In the mature stage, the effects are to: 1) induce a
divergent circulation in the upper layer and maintain a vorticity
couplet pattern; 2) maintain a weak convergent circulation in the
lower layer; and 3) cause a relatively weak easterly acceleration
in the upper layer at the center. A hypothesis is postulated to
illustrate the convective dynamical effects.
A simple barotropic non-divergent model was constructed to
investigate the large-scale response to the hypothesized cumulus
momentum forcing similar to that found in the GATE cloud-cluster
momentum budget. The numerical results show that the cumulus
momentum forcing is a plausible kinetic energy source for the
mesoscale wavenumber spectrum. The sporadic nature of the
convective mass flux does not have a significant effect on the
large-scale dynamical response for physically realistic parameters
in a barotropic non-divergent dynamical system. / Graduation date: 1987
|
4 |
The impact of ENSO on the extratropicsJin, Daeho. January 2008 (has links)
Thesis (Ph.D.)--George Mason University, 2008. / Vita: p. 160. Thesis director: Ben P. Kirtman. Submitted in partial fulfillment of the requirements for the degree of Doctor of Philosophy in Climate Dynamics. Title from PDF t.p. (viewed July 18, 2008). Includes bibliographical references (p. 152-159). Also issued in print.
|
5 |
An airborne investigation of the structure of the atmospheric boundary layer over the tropical oceanDonelan, Mark Anthony January 1970 (has links)
Across the air-sea interface there is a transfer of momentum, heat and moisture. Knowledge of these is essential to the understanding of oceanic and atmospheric circulations.
This study is an investigation of the vertical turbulent transfers of momentum, heat and moisture in the boundary layer of the atmosphere using an instrumented light aircraft. The data were collected at several altitudes between 18 m and 500 m in the Atlantic trade wind zone east of the island of Barbados. Since the tropical ocean is the primary source of heat input to the atmospheric heat engine, good estimates, in this region, of the transfers of heat and moisture and their vertical variations are essential to any global numerical atmospheric prediction scheme.
The fluctuations of the velocity components, temperature and humidity and the transfers of momentum, heat and moisture were investigated, primarily by means of their spectra and cospectra. It was found that: ninety percent of the heat input to the atmosphere was in the form of latent heat; the sensible heat flux was positive (upward) at the small scales generated near the surface and negative at the large scales due to subsiding air; the latent heat flux was positive at all scales and similar in spectral distribution
to the momentum flux; the flow appeared to be anisotropic even at scales one hundred times smaller than the distance from the boundary; the drag coefficient, from direct measurements of the momentum flux (or stress), was
(1.45±0.08) x 10⁻³; shear generated turbulence was not entirely dissipated locally. / Science, Faculty of / Earth, Ocean and Atmospheric Sciences, Department of / Graduate
|
6 |
Statistical relationships between the mesoscale organization of convection, precipitation and the large-scale wind fields during the GATEDe Silva, Sirilath J. 06 December 1990 (has links)
Data from the GARP Atlantic Tropical Experiment (GATE) was analysed
in an exploratory manner to discover the characteristics of mesoscale
organization of convection and it's relationship to large-scale wind profiles.
Automated methods were developed to identify the convective cells and their
linear organization. These automated methods use a median high-pass filter
to identify enhanced cells and a simple pattern recognition technique to ascertain
the linear organization between them. Due to the simplified nature
of the algorithm, the whole data set of the 21 day period from the phase
3 of GATE was processed in an economical manner obtaining a large data
base which was used in the investigation of clusters and other associated phenomena.
The mesoscale organization of convective cells and the widespread
areas of lighter precipitation associated with them showed expected characteristics
and compared satisfactorily with previous results. A large fraction
of the rainfall (64%) fell from the widespread area. The total precipitation
had a correlation of 0.94 with the fractional area of the widespread and a
correlation of 0.89 with the fractional area of the clusters. The widespread
precipitation had a correlation index of 0.97 with it's fractional area and
the cluster precipitation had a strong linear relationship to it's area with
a correlation of 0.99. These factors argue well for the parameterization of
rainfall rate in tropical regions to a high accuracy by the area covered by
organized convective cells and widespread areas. It was also seen that there
was a good correlation with the number of clusters and number of cores with
the total precipitation rate in a given area. These factors create a strong
argument for identifying mesoscale systems consisting of convective cells and
widespread precipitation as basic units of precipitation in tropical regions,
having a characteristic life cycle of their own. The widespread and total
precipitation showed very good correlation with upper-level vertical motion.
Clusters tended to align parallel with the horizontal low-level wind shear and
the degree of alignment appears to depend on the strength of the wind shear. / Graduation date: 1991
|
7 |
Interannual variations of tropical precipitation patternsStoeckenius, Till E January 1980 (has links)
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Meteorology, 1980. / Microfiche copy available in Archives and Science. / Bibliography: leaves 44-46. / by Till E. Stoeckenius. / M.S.
|
8 |
Evaluation of radar derived surface rainfall estimates for improvement of TRMM ground validation productsRoy, Biswadev 01 October 2000 (has links)
No description available.
|
Page generated in 0.0738 seconds