/[MITgcm]/manual/s_examples/advection_in_gyre/adv_gyre.tex
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revision 1.6 by cnh, Tue Jan 15 21:26:08 2008 UTC revision 1.12 by jahn, Wed Jan 16 19:08:41 2008 UTC
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11  <!-- CMIREDIR:eg-adv-gyre: -->  <!-- CMIREDIR:eg-adv-gyre: -->
12  \end{rawhtml}  \end{rawhtml}
13    
14    Author: Oliver Jahn and Chris Hill
15    
16    
17    
18  This set of examples is based on the barotropic and baroclinic gyre MITgcm configurations,  This set of examples is based on the barotropic and baroclinic gyre MITgcm configurations,
19  that are described in the tutorial sections \label{sect:eg-baro} and \label{sect:eg-fourlayer}.  that are described in the tutorial sections \ref{sect:eg-baro} and \ref{sect:eg-fourlayer}.
20  The examples in this section explain how to introduce a passive tracer into the flow  The examples in this section explain how to introduce a passive tracer into the flow
21  field of the barotropic and baroclinic gyre setups and looks at how the time evolution  field of the barotropic and baroclinic gyre setups and looks at how the time evolution
22  of the passive tracer depends on the advection or transport scheme that is selected  of the passive tracer depends on the advection or transport scheme that is selected
# Line 61  the $-U \cdot \nabla C$ term that are av Line 65  the $-U \cdot \nabla C$ term that are av
65  \end{enumerate}  \end{enumerate}
66    
67    
68  \subsection{Introducting a tracer into the flow}  \subsection{Introducing a tracer into the flow}
69    
70     The MITgcm ptracers package (see section \ref{sec:pkg:ptracers} for a more complete discussion
71    of the ptracers package and section \ref{sec:pkg:using} for a general introduction to MITgcm
72    packages) provides pre-coded support for a simple passive tracer with an initial
73    distribution at simulation time $t=0$ of $C_0(x,y,z)$. The steps required to use this capability
74    are
75    \begin{enumerate}
76    \item{\bf Activating the ptracers package.} This simply requires adding the line {\tt ptracers} to
77    the {\tt packages.conf} file in the {\it code/} directory for the experiment.
78    \item{\bf Setting an initial tracer distribution.}
79    \end{enumerate}
80    
81   The ptracers package (see section \ref{sec:pkg:ptracers} for a more complete discussion  Once the two steps above are complete we can proceed to examine how the tracer we have created is
82  of the ptracers package)  carried by the flow field and what properties of the tracer distribution are preserved under
83  - activating ptracers  different advection schemes.
 - setting initial distribution  
84    
 To intro  
85  \subsection{Selecting an advection scheme}  \subsection{Selecting an advection scheme}
86    
87  - flags in data and data.ptracers  - flags in data and data.ptracers
# Line 86  To intro Line 99  To intro
99  \item{Positive definite}  \item{Positive definite}
100  \end{enumerate}  \end{enumerate}
101    
102    \input part3/case_studies/advection_in_gyre_circulation/adv_gyre_figure.tex
103    
104    \subsection{Code and Parameters files for this tutorial}
105    
106    The code and parameters for the experiments can be found in the MITgcm example experiments
107    directory {\it verification/tutorial\_advection\_in\_gyre/}.
108    
   
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