revise the readme and domainDict

tutorials/sphereGranFlow/rotatingDrumSmall/README.md

@@ -1,5 +1,4 @@
-# Simulating a small rotating drum {#rotatingDrumSmall}
-## Problem definition (v-1.0)
+# Problem definition (v-1.0)
 The problem is to simulate a rotating drum with the diameter 0.24 m and the length 0.1 m rotating at 11.6 rpm. It is filled with 30,000 4-mm spherical particles. The timestep for integration is 0.00001 s.
 <div align="center"><b>
 a view of rotating drum
@@ -315,46 +314,34 @@ decomposition
 
 boundaries
 {
-	
-
-	neighborListUpdateInterval     50;           /* Determines how often (how many iterations) do you want to 
-
-	                                                rebuild the list of particles in the neighbor list 
-
-	                                                of all boundaries in the simulation domain        */
-
-	updateInterval                 10;           // Determines how often do you want to update the new changes in the boundary
-
-	neighborLength              0.004;           // The distance from the boundary plane within which particles are marked to be in the boundary list
-
     left
     {
-		type     exit;	                         // other options: periodict, reflective 
+        type     exit;                           // other options: periodic, reflective 
     }
 
     right
     {
-		type     exit;                           // other options: periodict, reflective 
+        type     exit;                           // other options: periodic, reflective 
     }
 
     bottom
     {
-		type     exit;                           // other options: periodict, reflective 
+        type     exit;                           // other options: periodic, reflective 
     }
 
     top
     {
-		type     exit;                           // other options: periodict, reflective 
+        type     exit;                           // other options: periodic, reflective 
     }
 
     rear
     {
-		type     exit;                           // other options: periodict, reflective 
+        type     exit;                           // other options: periodic, reflective 
     }
 
     front
     {
-		type     exit;                           // other options: periodict, reflective 
+        type     exit;                           // other options: periodic, reflective 
     }
 }
 ```
@@ -368,4 +355,4 @@ The solver for this simulation is `sphereGranFlow`. Enter the following command
 ## Post processing 
 After finishing the simulation, you can render the results in Paraview. To convert the results to VTK format, just enter the following command in the terminal. This will converts all the results (particles and geometry) to VTK format and store them in folder `VTK/`. 
 
-`> pFlowToVTK`
+`> pFlowToVTK --binary`

tutorials/sphereGranFlow/rotatingDrumSmall/settings/domainDict

@@ -20,18 +20,6 @@ decomposition
 
 boundaries
 {
-	
-
-	neighborListUpdateInterval     50;           /* Determines how often (how many iterations) do you want to 
-
-	                                                rebuild the list of particles in the neighbor list 
-
-	                                                of all boundaries in the simulation domain        */
-
-	updateInterval                 10;           // Determines how often do you want to update the new changes in the boundary
-
-	neighborLength              0.004;           // The distance from the boundary plane within which particles are marked to be in the boundary list
-
 	left
 	{
 		type     exit;	                  // other options: periodict, reflective