Differences

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--- applications:fluid:taylorcouette [2016/04/27 16:00] – cerquaglia
+++ applications:fluid:taylorcouette [2024/02/26 17:27] (current) – boman
@@ Line 1: / Line 1: @@
 ~~NOTOC~~
-====== Dam collapse ======
+====== 2D Taylor-Couette flow ======
   * 2D simulation of Taylor-Couette flow between two cylinders.
@@ Line 6: / Line 6: @@
   * A monolithic PFEM (Particle-FEM) formulation with Petrov-Galerkin Pressure stabilization is used.
-<WRAP group>
+\\
-<WRAP half column>
 == Velocity field - PFEM solution==
-<html>
-<iframe width="320" height="315" src="//www.youtube.com/embed/_gA4mH27oSE" frameborder="0" allowfullscreen></iframe>
+<WRAP centeralign column 100%>
-</html>
+{{url>https://www.youtube.com/embed/_gA4mH27oSE noborder allowfullscreen}}
 </WRAP>
-<WRAP half column>
 == Velocity field - steady state Eulerian FEM solution ==
-{{applications:fluid:normv_steady_geoffrey.png?295|Taylor-Couette velocity steady-state solution}}
-</WRAP>
-</WRAP>
-<WRAP group>
+{{applications:fluid:normv_steady_geoffrey.png?285|Taylor-Couette velocity steady-state solution}}
-<WRAP half column>
+\\
+\\
 == Pressure field - PFEM solution==
-<html>
-<iframe width="350" height="315" src="//www.youtube.com/embed/iOrHWdjwQ5A" frameborder="0" allowfullscreen></iframe>
+<WRAP centeralign column 100%>
-</html>
+{{url>https://www.youtube.com/embed/iOrHWdjwQ5A noborder allowfullscreen}}
 </WRAP>
-<WRAP half column>
 == Pressure field - steady state Eulerian FEM solution ==
-{{applications:fluid:p_steady_geoffrey.png?295|Taylor-Couette pressure steady-state solution}}
-</WRAP>
+{{applications:fluid:p_steady_geoffrey.png?285|Taylor-Couette pressure steady-state solution}}
-</WRAP>