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@@ -31,7 +31,8 @@
       <div class="container">
 
 
-<!-- comment -->
+<!--BLANK ENTRY TEMPLATE:: 
+ 
         <header class="major">
           <h2>Main title heading here</h2>
           <p>Sub title heading here</p>
@@ -57,7 +58,40 @@
           </div>
         </div>
         <p>
-<!-- comment -->
+
+END TEMPLATE-->
+
+
+ 
+        <header class="major">
+          <h2>Mehrdad's Bed</h2>
+          <p>Qualitative Benchmarking: Ordered bubbling via periodic fluidization</p>
+        </header>
+        <div class="row 50% uniform">
+          <div class="4u 12u(small)">
+            <center>
+              <iframe src="https://widgets.figshare.com/articles/9905168/embed?show_title=1" 
+               width="568" height="426" allowfullscreen="true" frameborder="0"></iframe>
+            </center>
+          </div>
+          <div class="8u$ 12u(small)">
+            Typical random bubbling patterns under uniform fluidization can be driven to ordered 
+            states under periodic fluidization. At certain system sizes and conditions, a regular 
+            <a href="https://doi.org/10.1016/j.powtec.2018.06.049">left-right alternating single 
+            bubble pattern</a> can be achieved. The animation, rendered in 
+            <a href="https://www.blender.org">Blender</a>, shows time 10s to 15s played back at 
+            1/4x speed. Simulation considers 166k particles run with MFiX Exa 19.08 using 32 CPU 
+            cores.
+            <p><p>
+
+            Animation courtesy of Justin Weber &amp; wdf, 
+            <a href="mfix.netl.doe.gov">Multiphase Flow Science Group</a>, 
+            NETL, Morgantown WV. 
+
+            </p>
+          </div>
+        </div>
+        <p>