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A modeling study of katabatic flowsSmith, Craig M. 04 September 2003 (has links)
A modeling study is undertaken to better understand the physics of
katabatic flows. This study is divided into three topics; a comparison between a
large eddy simulation (LES) and a mesoscale model of katabatic flows, a sensitivity
study of katabatic flows to various physical parameters, and an investigation into
the effect of subgrid scale terrain features on katabatic flow models. In the first
topic, a comparison between LES, and a mesoscale model, ARPS, of katabatic
flows is made to better quantify the accuracy of subgrid parametenzation in ARPS.
It is shown that, although the modeled flows agree on a number of parameters, the
LES model produces a lower and faster jet than that of ARPS, and also cools more
near the surface. The momentum budgets of the two models agree well with each
other. The ARPS model has a higher amount of TKE than the LES model, due to
an overproduction by shear in the ARPS subgrid parameterizations.
The second portion of this thesis represents a sensitivity study of katabatic
flows to various physical parameters. The depth and strength of katabatic flows are
shown to vary with surface heat fluxes, slope angle, and ambient stratification.
Katabatic flows are shown to grow in depth and magnitude as slope angle
increases, due to an increase in entrainment of overlying ambient air. The ratio of
advection to mixing is shown to collapse to a near universal value regardless of
surface heat fluxes. With increasing ambient stratification, entrainment in katabatic
flows becomes small and the momentum equation is reduced to a two-way balance
between buoyancy and drag. In this case, the heat flux of entrained air into the
katabatic flow approaches that of the surface cooling, and the flow ceases to grow
in the down-slope direction. Finally, predictions for bulk velocity and buoyancy
strength scales are developed as a function of slope angle and surface heat fluxes.
The last portion of this study focuses on the effect of subgrid scale terrain
features on katabatic flows. It is shown that in areas of inadequate terrain
resolution, the effect of the terrain smoothing routine in ARPS is to increase the
slope height in areas of concave mountains. The concept of energy conversion in
katabatic flows is introduced, and it is shown that the effect of raising terrain is to
assign parcels more buoyant potential energy than they would otherwise have, and
thus over-predict the magnitude of katabatic flows. Finally, an investigation into
the effect of changing upper slope angle on katabatic flows over combined slopes is
made. It is concluded that a combined slope cannot be predicted using a linear
combination of simple slopes, since the transition portion of the slope results in a
turbulent hydraulic jump with enhanced mixing. The magnitude of mixing in the
turbulent hydraulic jump in combined slopes is shown to depend on the difference
between upper and lower slope angle. / Graduation date: 2004
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Atmospheric boundary layer similarity theory for applications in wind energy fieldsMikhail, Amir Samaan 12 1900 (has links)
No description available.
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The use of conserved variables in the modeling and parameterization of shallow cumulus trade wind boundary layersBarbour, Philip L. (Philip Lee), 1960- 16 March 1992 (has links)
A time dependent model of the shallow, tropical convective boundary layer is
developed and tested. To simplify the treatment of thermodynamic processes and
return to first principles of physics, conserved quantities of entropy and total
water density are used as primary model variables. In addition, a new shallow
cumulus parameterization scheme is developed and is based on the use of a time
dependent cloud kinetic energy equation combining local concepts of cloud processes
with the use of a special buoyancy length scale. Two model simulations are
performed in an attempt to assess the model's performance and the effectiveness of
the parameterization scheme.
Results indicate that the model does a reasonable job in both representing the
equilibrium structure of a shallow convective boundary layer and in generating a
realistic boundary layer structure from an initial state consisting of a shallow
moist layer with dry air aloft. The cumulus parameterization scheme appears to
adequately represent the transport of thermodynamic quantities associated with
convective activity and the use of conserved variables provides an effective way of
representing the boundary layer structure and treating the mixing processes
associated with cloud processes.
This work illustrates the usefulness of generalized conserved variables,
particularly entropy and total water density, and indicates that the general
approach of using a time dependent cloud kinetic energy equation may be effective
for representing thermodynamic processes in the tropical boundary layer. / Graduation date: 1992
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The tropical Atlantic trade winds as related to droughts in northeastern BrazilChung, James Che-Ming January 1981 (has links)
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Meteorology and Physical Oceanography, 1981. / Microfiche copy available in Archives and Science. / Bibliography: leaves 53-54. / by James Che-Ming Chung. / M.S.
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