FDS Validation Guide: correct section labels for Plume Height and Eva…

Manuals/FDS_Validation_Guide/Species_Chapter.tex

@@ -958,6 +958,7 @@ \subsection{NIST Soot Deposition Gauge Experiments}
 \clearpage
 
 \section{Droplet Evaporation}
+\label{Evaporation Rate}
 
 This section presents the results of simulations of liquid droplet evaporation experiments. The titles of the sections below are named for the experimentalists.
 

Manuals/FDS_Validation_Guide/Wind_Chapter.tex

@@ -256,7 +256,7 @@ \section{LNG Dispersion Experiments}
 \clearpage
 
 \section{Stack Emission Plume Rise}
-\label{Plume_Height_Discussion}
+\label{Plume Height}
 
 A common exercise in atmospheric dispersion modeling is predicting the plume rise height of stack emissions. In an example given by Stull~\cite{Stull:2000}, a $z_{\rm s}=75$~m stack emits SO$_2$ at a rate of 250~g/s with an exit velocity of $W_0=20$~m/s and temperature of $\Delta T=180$~K above ambient ($T_0=293$~K) through an orifice with radius $R_0=2$~m. The wind speed is $U=5$~m/s. Three cases are considered where the atmosphere is stably stratified with temperature gradients, $\d T/\d z$, of -4.8, -8.8 and 5.2~K/km.  The expected equilibrium height is given by the empirical expression:
 \be