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--- manual/s_examples/deep_convection/convection.tex 2002/02/28 19:32:19 1.2
+++ manual/s_examples/deep_convection/convection.tex 2002/05/16 15:54:37 1.3
@@ -1,4 +1,5 @@
\section{Surface Driven Convection}
+\label{www:tutorials}
\label{sect:eg-bconv}
\bodytext{bgcolor="#FFFFFFFF"}
@@ -39,6 +40,7 @@
\end{itemize}
\subsection{Overview}
+\label{www:tutorials}
The model domain consists of an approximately 3
km square by 1 km deep box of initially
@@ -108,6 +110,7 @@
in a binary data file generated using the Matlab script {\it input/gendata.m}.
\subsection{Equations solved}
+\label{www:tutorials}
The model is configured in nonhydrostatic form, that is, all terms in the Navier
Stokes equations are retained and the pressure field is found, subject to appropriate
@@ -177,12 +180,14 @@
\\
\subsection{Discrete numerical configuration}
+\label{www:tutorials}
The domain is discretised with a uniform grid spacing in each direction. There are 64
grid cells in directions $x$ and $y$ and 20 vertical levels thus the domain
comprises a total of just over 80 000 gridpoints.
\subsection{Numerical stability criteria and other considerations}
+\label{www:tutorials}
For a heat flux of 800 Wm$^2$ and a rotation rate of $10^{-4}$ s$^{-1}$ the
plume-scale can be expected to be a few hundred meters guiding our choice of grid
@@ -208,6 +213,7 @@
correlated over 50 m.
\subsection{Experiment configuration}
+\label{www:tutorials}
The model configuration for this experiment resides under the directory
{\it verification/convection/}. The experiment files
@@ -224,16 +230,19 @@
experiment. Below we describe these experiment-specific customisations.
\subsubsection{File {\it code/CPP\_EEOPTIONS.h}}
+\label{www:tutorials}
This file uses standard default values and does not contain
customisations for this experiment.
\subsubsection{File {\it code/CPP\_OPTIONS.h}}
+\label{www:tutorials}
This file uses standard default values and does not contain
customisations for this experiment.
\subsubsection{File {\it code/SIZE.h}}
+\label{www:tutorials}
Three lines are customized in this file. These prescribe the domain grid dimensions.
\begin{itemize}
@@ -261,6 +270,7 @@
\begin{rawhtml}</PRE>\end{rawhtml}
\subsubsection{File {\it input/data}}
+\label{www:tutorials}
This file, reproduced completely below, specifies the main parameters
for the experiment. The parameters that are significant for this configuration
@@ -778,17 +788,20 @@
\subsubsection{File {\it input/data.pkg}}
+\label{www:tutorials}
This file uses standard default values and does not contain
customisations for this experiment.
\subsubsection{File {\it input/eedata}}
+\label{www:tutorials}
This file uses standard default values and does not contain
customisations for this experiment.
\subsubsection{File {\it input/Qsurf.bin}}
+\label{www:tutorials}
The file {\it input/Qsurf.bin} specifies a two-dimensional ($x,y$)
map of heat flux values where
@@ -811,13 +824,16 @@
\end{figure}
\subsection{Running the example}
+\label{www:tutorials}
\subsubsection{Code download}
+\label{www:tutorials}
In order to run the examples you must first download the code distribution.
Instructions for downloading the code can be found in \ref{sect:obtainingCode}.
\subsubsection{Experiment Location}
+\label{www:tutorials}
This example experiments is located under the release sub-directory
@@ -825,6 +841,7 @@
{\it verification/convection/ }
\subsubsection{Running the Experiment}
+\label{www:tutorials}
To run the experiment
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