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2README.tropical_cyclone
3Last updated:  25 March 2011
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7Description:  This README file provides a short user's guide to the
8idealized tropical cyclone test case.  The initial conditions for this
9case are generated by running ideal.exe.  The initial state is
10motionless (u = v = 0) and horizontally homogeneous, except an analytic
11axisymmetric vortex in hydrostatic and gradient-wind balance is added.
12The initial sea-surface temperature (SST) is constant.  An f-plane is
13assumed.  The lateral boundary conditions are periodic.  All of these
14assumptions can be relaxed/modified should users decide to run something
15more complex.
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19Default environment:  the initial horizontally homogeneous environment is
20specified via the "input_sounding" file (as in several other test cases). 
21The default file uses the Jordan mean hurricane sounding.  An f-plane
22is assumed by default with f = 5.0e-5  (20 degrees north).   The default
23SST is 28 Celsius.   
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25Reference:  Jordan, C L., 1958:  Mean soundings for the West Indies area.
26J. Meteorology, 15, 91-97.
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30Default vortex:  a broad, weak, axisymmetric vortex is specified using an
31analytic equation from Rotunno and Emanuel (1987).  This vortex is placed
32in the middle of the domain.  It is in hydrostatic and gradient-wind
33balance, with the maximum winds at the lowest model level.  Users can
34change the initial vortex by modifying the parameters r0, rmax, vmax, and/or
35zdd in the "module_initialize_tropical_cyclone.F" file, which is located
36in the "dyn_em" directory.
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38Reference:  Rotunno, R., and K. A. Emanuel, 1987:  An air-sea interaction
39theory for tropical cyclones.  Part II.  Evolutionary study using a
40nonhydrostatic axisymmetric numerical model.  J. Atmos. Sci., 44, 542-561.
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44Default physics:  Users should be able to use any physics schemes for this
45test case, although only a few have been tested so far.  The default settings
46are as follows:
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48  - For simplicity, the Kessler (liquid-only) microphysics scheme is used.
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50  - By default, a capped Newtonian relaxation scheme is used on potential
51    temperature (Rotunno and Emanuel 1987) which is a crude approximation
52    for longwave radiation.  This scheme is useful for some idealized studies
53    of maximum tropical cyclone intensity.  (rad_nudge = 1)
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55       CAUTION:  if you are going to use a real atmospheric radiation scheme,
56       you should turn this option OFF.   (rad_nudge = 0)
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58  - The YSU PBL scheme and Monin-Obukhov surface-layer scheme are used by
59    default.
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61  - The alternative Ck/Cd formulations for tropical cyclones are "on" by
62    default (isftcflx=1).
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64  - The ocean mixed layer scheme is off by default, and hence SST remains
65    fixed over time.
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69Other settings:  the default values of f (Coriolis parameter) and sst (sea-
70surface temp.) may be changed in the "module_initialize_tropical_cyclone.F"
71file, which is located in the "dyn_em" directory.
72
73The default domain size is 3000 km x 3000 km x 25 km, which is the three-
74dimensional equivalent of the Rotunno-Emanuel (1987) setup.  Horizontal
75grid spacing is 15 km, and vertical grid spacing is 1.25 km, also following
76Rotunno and Emanuel (1987).  This resolution is very coarse;  these
77settings were chosen for defaults so the test case can finish quickly, but
78they are probably not appropriate for research-quality work.
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