freedom of fast energy group, numbers of DoFs of thermal group, converged
k-effective and the ratio between maximum of fast flux and maximum of thermal one.
-The grids of fast and thermal energy groups at mesh iteration #9 are shown
-in following figure.
+The grids of fast and thermal energy groups at mesh iteration #9 look
+as follows:
-<img src="https://www.dealii.org/images/steps/developer/step-28.grid-0.9.order2.png" alt="">
-
-<img src="https://www.dealii.org/images/steps/developer/step-28.grid-1.9.order2.png" alt="">
+<img width="400" src="https://www.dealii.org/images/steps/developer/step-28.grid-0.9.order2.png" alt="">
+
+<img width="400" src="https://www.dealii.org/images/steps/developer/step-28.grid-1.9.order2.png" alt="">
We see that the grid of thermal group is much finer than the one of fast group.
The solutions on these grids are, (Note: flux are normalized with total fission
source equal to 1)
-<img src="https://www.dealii.org/images/steps/developer/step-28.solution-0.9.order2.png" alt="">
-
-<img src="https://www.dealii.org/images/steps/developer/step-28.solution-1.9.order2.png" alt="">
+<img width="400" src="https://www.dealii.org/images/steps/developer/step-28.solution-0.9.order2.png" alt="">
+
+<img width="400" src="https://www.dealii.org/images/steps/developer/step-28.solution-1.9.order2.png" alt="">
Then we plot the convergence data with polynomial order being equal to 1,2 and 3.