
Number of active cells: 640 (on 4 levels)
Number of degrees of freedom: 8,716 (5,346+697+2,673)

*** Timestep 0:  t=0 seconds
   Solving temperature system... 0 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 44+0 iterations.

   Postprocessing:
     Writing graphical output:           output-heat_flux_densities/solution/solution-00000
     RMS, max velocity:                  21.8 m/s, 69.8 m/s
     Temperature min/avg/max:            0 K, 0.5 K, 1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -2.5 W, 2.5 W
     Heat flux densities for boundaries: 0 W/m, 0 W/m, -1 W/m, 1 W/m
     Heating rate (average/total):       0 W/kg, 0 W

*** Timestep 1:  t=0.00223342 seconds
   Solving temperature system... 34 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 48+0 iterations.

   Postprocessing:
     Writing graphical output:           output-heat_flux_densities/solution/solution-00001
     RMS, max velocity:                  94.2 m/s, 311 m/s
     Temperature min/avg/max:            0 K, 0.5001 K, 1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -2.578 W, 2.512 W
     Heat flux densities for boundaries: 0 W/m, 0 W/m, -1.031 W/m, 1.005 W/m
     Heating rate (average/total):       0 W/kg, 0 W

*** Timestep 2:  t=0.00273415 seconds
   Solving temperature system... 46 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 46+0 iterations.

   Postprocessing:
     RMS, max velocity:                  167 m/s, 552 m/s
     Temperature min/avg/max:            0 K, 0.5001 K, 1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -2.756 W, 2.531 W
     Heat flux densities for boundaries: 0 W/m, 0 W/m, -1.102 W/m, 1.012 W/m
     Heating rate (average/total):       0 W/kg, 0 W

*** Timestep 3:  t=0.00301659 seconds
   Solving temperature system... 50 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 45+0 iterations.

   Postprocessing:
     RMS, max velocity:                  245 m/s, 816 m/s
     Temperature min/avg/max:            0 K, 0.5001 K, 1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -3.025 W, 2.556 W
     Heat flux densities for boundaries: 0 W/m, 0 W/m, -1.21 W/m, 1.022 W/m
     Heating rate (average/total):       0 W/kg, 0 W

*** Timestep 4:  t=0.00320764 seconds
   Solving temperature system... 51 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 45+0 iterations.

   Postprocessing:
     RMS, max velocity:                  335 m/s, 1.13e+03 m/s
     Temperature min/avg/max:            0 K, 0.5002 K, 1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -3.376 W, 2.588 W
     Heat flux densities for boundaries: 0 W/m, 0 W/m, -1.35 W/m, 1.035 W/m
     Heating rate (average/total):       0 W/kg, 0 W

*** Timestep 5:  t=0.00334528 seconds
   Solving temperature system... 53 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 45+0 iterations.

   Postprocessing:
     RMS, max velocity:                  444 m/s, 1.54e+03 m/s
     Temperature min/avg/max:            0 K, 0.5002 K, 1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -3.793 W, 2.624 W
     Heat flux densities for boundaries: 0 W/m, 0 W/m, -1.517 W/m, 1.05 W/m
     Heating rate (average/total):       0 W/kg, 0 W

*** Timestep 6:  t=0.00344649 seconds
   Solving temperature system... 58 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 45+0 iterations.

   Postprocessing:
     RMS, max velocity:                  579 m/s, 2.01e+03 m/s
     Temperature min/avg/max:            0 K, 0.5003 K, 1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4.256 W, 2.662 W
     Heat flux densities for boundaries: 0 W/m, 0 W/m, -1.702 W/m, 1.065 W/m
     Heating rate (average/total):       0 W/kg, 0 W

*** Timestep 7:  t=0.00352403 seconds
   Solving temperature system... 70 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 45+0 iterations.

   Postprocessing:
     RMS, max velocity:                  722 m/s, 2.98e+03 m/s
     Temperature min/avg/max:            0 K, 0.5004 K, 1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4.745 W, 2.702 W
     Heat flux densities for boundaries: 0 W/m, 0 W/m, -1.898 W/m, 1.081 W/m
     Heating rate (average/total):       0 W/kg, 0 W

*** Timestep 8:  t=0.00357631 seconds
   Solving temperature system... 61 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 45+0 iterations.

   Postprocessing:
     RMS, max velocity:                  816 m/s, 3.82e+03 m/s
     Temperature min/avg/max:            0 K, 0.5004 K, 1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -5.14 W, 2.735 W
     Heat flux densities for boundaries: 0 W/m, 0 W/m, -2.056 W/m, 1.094 W/m
     Heating rate (average/total):       0 W/kg, 0 W

*** Timestep 9:  t=0.00361708 seconds
   Solving temperature system... 52 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 47+0 iterations.

   Postprocessing:
     RMS, max velocity:                  861 m/s, 4.24e+03 m/s
     Temperature min/avg/max:            0 K, 0.5005 K, 1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -5.466 W, 2.767 W
     Heat flux densities for boundaries: 0 W/m, 0 W/m, -2.186 W/m, 1.107 W/m
     Heating rate (average/total):       0 W/kg, 0 W

*** Timestep 10:  t=0.00365364 seconds
   Solving temperature system... 46 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 47+0 iterations.

   Postprocessing:
     RMS, max velocity:                  867 m/s, 4.29e+03 m/s
     Temperature min/avg/max:            0 K, 0.5005 K, 1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -5.749 W, 2.8 W
     Heat flux densities for boundaries: 0 W/m, 0 W/m, -2.299 W/m, 1.12 W/m
     Heating rate (average/total):       0 W/kg, 0 W

*** Timestep 11:  t=0.00368961 seconds
   Solving temperature system... 41 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 47+0 iterations.

   Postprocessing:
     RMS, max velocity:                  849 m/s, 4.11e+03 m/s
     Temperature min/avg/max:            0 K, 0.5005 K, 1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -5.999 W, 2.837 W
     Heat flux densities for boundaries: 0 W/m, 0 W/m, -2.4 W/m, 1.135 W/m
     Heating rate (average/total):       0 W/kg, 0 W

*** Timestep 12:  t=0.00372694 seconds
   Solving temperature system... 38 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 47+0 iterations.

   Postprocessing:
     RMS, max velocity:                  817 m/s, 3.82e+03 m/s
     Temperature min/avg/max:            0 K, 0.5006 K, 1.001 K
     Heat fluxes through boundary parts: 0 W, 0 W, -6.223 W, 2.881 W
     Heat flux densities for boundaries: 0 W/m, 0 W/m, -2.489 W/m, 1.152 W/m
     Heating rate (average/total):       0 W/kg, 0 W

*** Timestep 13:  t=0.00376691 seconds
   Solving temperature system... 34 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 47+0 iterations.

   Postprocessing:
     RMS, max velocity:                  781 m/s, 3.51e+03 m/s
     Temperature min/avg/max:            0 K, 0.5006 K, 1.001 K
     Heat fluxes through boundary parts: 0 W, 0 W, -6.429 W, 2.935 W
     Heat flux densities for boundaries: 0 W/m, 0 W/m, -2.572 W/m, 1.174 W/m
     Heating rate (average/total):       0 W/kg, 0 W

*** Timestep 14:  t=0.00381019 seconds
   Solving temperature system... 32 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 47+0 iterations.

   Postprocessing:
     RMS, max velocity:                  746 m/s, 3.25e+03 m/s
     Temperature min/avg/max:            0 K, 0.5007 K, 1.001 K
     Heat fluxes through boundary parts: 0 W, 0 W, -6.629 W, 3.001 W
     Heat flux densities for boundaries: 0 W/m, 0 W/m, -2.652 W/m, 1.2 W/m
     Heating rate (average/total):       0 W/kg, 0 W

*** Timestep 15:  t=0.003857 seconds
   Solving temperature system... 31 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 48+0 iterations.

   Postprocessing:
     RMS, max velocity:                  713 m/s, 3.03e+03 m/s
     Temperature min/avg/max:            0 K, 0.5007 K, 1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -6.829 W, 3.084 W
     Heat flux densities for boundaries: 0 W/m, 0 W/m, -2.731 W/m, 1.234 W/m
     Heating rate (average/total):       0 W/kg, 0 W

*** Timestep 16:  t=0.00390723 seconds
   Solving temperature system... 30 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 52+0 iterations.

   Postprocessing:
     RMS, max velocity:                  683 m/s, 2.86e+03 m/s
     Temperature min/avg/max:            0 K, 0.5008 K, 1.002 K
     Heat fluxes through boundary parts: 0 W, 0 W, -7.029 W, 3.185 W
     Heat flux densities for boundaries: 0 W/m, 0 W/m, -2.812 W/m, 1.274 W/m
     Heating rate (average/total):       0 W/kg, 0 W

*** Timestep 17:  t=0.00396048 seconds
   Solving temperature system... 30 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 57+0 iterations.

   Postprocessing:
     RMS, max velocity:                  656 m/s, 2.74e+03 m/s
     Temperature min/avg/max:            0 K, 0.5008 K, 1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -7.235 W, 3.306 W
     Heat flux densities for boundaries: 0 W/m, 0 W/m, -2.894 W/m, 1.322 W/m
     Heating rate (average/total):       0 W/kg, 0 W

*** Timestep 18:  t=0.004 seconds
   Solving temperature system... 23 iterations.
   Rebuilding Stokes preconditioner...
   Solving Stokes system... 58+0 iterations.

   Postprocessing:
     Writing graphical output:           output-heat_flux_densities/solution/solution-00002
     RMS, max velocity:                  638 m/s, 2.67e+03 m/s
     Temperature min/avg/max:            0 K, 0.5009 K, 1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -7.385 W, 3.414 W
     Heat flux densities for boundaries: 0 W/m, 0 W/m, -2.954 W/m, 1.366 W/m
     Heating rate (average/total):       0 W/kg, 0 W

Termination requested by criterion: end time


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