Olaflow results, better fig 4

nature/main.tex

@@ -130,12 +130,14 @@ the crest increases, with a zone reaching 400m long in front of the wave where t
 
 The two-dimensionnal olaFlow model near the breakwater allowed to compute the flow velocity near and on the breakwater
 during the passage of the identified wave. The results displayed in Figure~\ref{fig:U} show that the flow velocity
-reaches a maximum of 14.5m/s towards the breakwater during the identified extreme wave. The maximum reached velocity is
-similar to earlier shorter waves (at t=100s and t=120s), but the flow velocity remains high for twice as long as during
-those earlier waves. The tail of the identified wave also exhibits a water level over 5m for over 40s.
+reaches a maximum of 14.5m/s towards the breakwater during the identified extreme wave. Although the maximum reached
+velocity is slightly lower than earlier shorter waves (at t=100s and t=120s, with a maximum velocity of 17.3s), the
+flow velocity remains high for twice as long as during those earlier waves. The tail of the identified wave also
+exhibits a water level over 5m for over 40s.
 
 \begin{figure*}
 	\centering
+	\includegraphics{fig/aw_t0.pdf}
 	\includegraphics{fig/U.pdf}
 	\caption{Horizontal flow velocity computed with the olaFlow model at x=-20m on the breakwater armor. The identified
 	wave reaches this point around t=175s.}\label{fig:U}