
Number of active cells: 64 (on 4 levels)
Number of degrees of freedom: 948 (578+81+289)

*** Timestep 0:  t=0 seconds, dt=0 seconds
   Solving temperature system... 0 iterations.
   Solving Stokes system (GMG)... 25+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 90 K, 90 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 1.901e-14 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00000

*** Timestep 1:  t=2.50388e+12 seconds, dt=2.50388e+12 seconds
   Solving temperature system... 25 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 95.25 K, 132 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 2.699 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00001

*** Timestep 2:  t=5.00566e+12 seconds, dt=2.50178e+12 seconds
   Solving temperature system... 20 iterations.
   Solving Stokes system (GMG)... 20+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 100.5 K, 155.2 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 9.432 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00002

*** Timestep 3:  t=7.50629e+12 seconds, dt=2.50063e+12 seconds
   Solving temperature system... 20 iterations.
   Solving Stokes system (GMG)... 20+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 105.7 K, 171.3 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 25.34 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00003

*** Timestep 4:  t=1.00061e+13 seconds, dt=2.49982e+12 seconds
   Solving temperature system... 19 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 110.9 K, 184.4 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 55.94 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00004

*** Timestep 5:  t=1.25053e+13 seconds, dt=2.49917e+12 seconds
   Solving temperature system... 19 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 116 K, 195.7 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 105.2 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00005

*** Timestep 6:  t=1.50039e+13 seconds, dt=2.4986e+12 seconds
   Solving temperature system... 18 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 121.1 K, 205.9 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 173.9 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00006

*** Timestep 7:  t=1.7502e+13 seconds, dt=2.4981e+12 seconds
   Solving temperature system... 18 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 126 K, 215.2 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 260 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00007

*** Timestep 8:  t=1.99996e+13 seconds, dt=2.49763e+12 seconds
   Solving temperature system... 18 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 130.9 K, 223.9 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 359.4 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00008

*** Timestep 9:  t=2.24968e+13 seconds, dt=2.4972e+12 seconds
   Solving temperature system... 18 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 135.6 K, 232.1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 467.8 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00009

*** Timestep 10:  t=2.49936e+13 seconds, dt=2.49679e+12 seconds
   Solving temperature system... 18 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 140.1 K, 239.7 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 581.2 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00010

*** Timestep 11:  t=2.749e+13 seconds, dt=2.49641e+12 seconds
   Solving temperature system... 18 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 144.5 K, 247 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 696.7 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00011

*** Timestep 12:  t=2.9986e+13 seconds, dt=2.49604e+12 seconds
   Solving temperature system... 18 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 148.8 K, 253.9 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 812.1 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00012

*** Timestep 13:  t=3.24817e+13 seconds, dt=2.4957e+12 seconds
   Solving temperature system... 18 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 152.9 K, 260.6 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 926.1 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00013

*** Timestep 14:  t=3.49771e+13 seconds, dt=2.49537e+12 seconds
   Solving temperature system... 18 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 156.9 K, 266.9 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 1038 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00014

*** Timestep 15:  t=3.74722e+13 seconds, dt=2.49505e+12 seconds
   Solving temperature system... 17 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 160.7 K, 273 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 1147 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00015

*** Timestep 16:  t=3.99669e+13 seconds, dt=2.49475e+12 seconds
   Solving temperature system... 17 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 164.3 K, 278.8 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 1252 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00016

*** Timestep 17:  t=4.24614e+13 seconds, dt=2.49446e+12 seconds
   Solving temperature system... 17 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 167.9 K, 284.4 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 1355 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00017

*** Timestep 18:  t=4.49556e+13 seconds, dt=2.49418e+12 seconds
   Solving temperature system... 17 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 171.3 K, 289.8 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 1453 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00018

*** Timestep 19:  t=4.74495e+13 seconds, dt=2.49391e+12 seconds
   Solving temperature system... 17 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 174.6 K, 294.9 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 1549 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00019

*** Timestep 20:  t=4.99431e+13 seconds, dt=2.49365e+12 seconds
   Solving temperature system... 17 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 177.7 K, 299.9 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 1641 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00020

*** Timestep 21:  t=5.24365e+13 seconds, dt=2.49341e+12 seconds
   Solving temperature system... 17 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 180.7 K, 304.7 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 1730 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00021

*** Timestep 22:  t=5.49297e+13 seconds, dt=2.49317e+12 seconds
   Solving temperature system... 17 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 183.7 K, 309.3 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 1815 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00022

*** Timestep 23:  t=5.74226e+13 seconds, dt=2.49294e+12 seconds
   Solving temperature system... 17 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 186.5 K, 313.7 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 1898 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00023

*** Timestep 24:  t=5.99153e+13 seconds, dt=2.49272e+12 seconds
   Solving temperature system... 17 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 189.2 K, 317.9 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 1977 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00024

*** Timestep 25:  t=6.24078e+13 seconds, dt=2.49251e+12 seconds
   Solving temperature system... 17 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 191.8 K, 322 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 2053 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00025

*** Timestep 26:  t=6.49002e+13 seconds, dt=2.4923e+12 seconds
   Solving temperature system... 17 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 194.3 K, 326 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 2127 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00026

*** Timestep 27:  t=6.73923e+13 seconds, dt=2.49211e+12 seconds
   Solving temperature system... 17 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 196.7 K, 329.7 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 2198 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00027

*** Timestep 28:  t=6.98842e+13 seconds, dt=2.49192e+12 seconds
   Solving temperature system... 17 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 199 K, 333.4 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 2266 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00028

*** Timestep 29:  t=7.23759e+13 seconds, dt=2.49173e+12 seconds
   Solving temperature system... 17 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 201.2 K, 336.9 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 2331 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00029

*** Timestep 30:  t=7.48675e+13 seconds, dt=2.49156e+12 seconds
   Solving temperature system... 17 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 203.4 K, 340.3 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 2394 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00030

*** Timestep 31:  t=7.73589e+13 seconds, dt=2.49139e+12 seconds
   Solving temperature system... 17 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 205.5 K, 343.5 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 2455 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00031

*** Timestep 32:  t=7.98501e+13 seconds, dt=2.49123e+12 seconds
   Solving temperature system... 16 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 207.4 K, 346.6 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 2513 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00032

*** Timestep 33:  t=8.23412e+13 seconds, dt=2.49107e+12 seconds
   Solving temperature system... 16 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 209.4 K, 349.6 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 2569 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00033

*** Timestep 34:  t=8.48321e+13 seconds, dt=2.49092e+12 seconds
   Solving temperature system... 16 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 211.2 K, 352.5 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 2623 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00034

*** Timestep 35:  t=8.73229e+13 seconds, dt=2.49078e+12 seconds
   Solving temperature system... 16 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 213 K, 355.3 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 2675 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00035

*** Timestep 36:  t=8.98135e+13 seconds, dt=2.49064e+12 seconds
   Solving temperature system... 16 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 214.7 K, 358 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 2725 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00036

*** Timestep 37:  t=9.2304e+13 seconds, dt=2.49051e+12 seconds
   Solving temperature system... 16 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 216.3 K, 360.6 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 2773 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00037

*** Timestep 38:  t=9.47944e+13 seconds, dt=2.49038e+12 seconds
   Solving temperature system... 16 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 217.9 K, 363 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 2820 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00038

*** Timestep 39:  t=9.72847e+13 seconds, dt=2.49026e+12 seconds
   Solving temperature system... 16 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 219.4 K, 365.4 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 2864 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00039

*** Timestep 40:  t=9.97748e+13 seconds, dt=2.49014e+12 seconds
   Solving temperature system... 16 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 220.9 K, 367.7 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 2907 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00040

*** Timestep 41:  t=1.02265e+14 seconds, dt=2.49002e+12 seconds
   Solving temperature system... 16 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 222.3 K, 369.9 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 2949 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00041

*** Timestep 42:  t=1.04755e+14 seconds, dt=2.48991e+12 seconds
   Solving temperature system... 16 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 223.6 K, 372 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 2988 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00042

*** Timestep 43:  t=1.07245e+14 seconds, dt=2.48981e+12 seconds
   Solving temperature system... 16 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 224.9 K, 374.1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3026 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00043

*** Timestep 44:  t=1.09734e+14 seconds, dt=2.4897e+12 seconds
   Solving temperature system... 16 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 226.2 K, 376 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3063 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00044

*** Timestep 45:  t=1.12224e+14 seconds, dt=2.48961e+12 seconds
   Solving temperature system... 16 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 227.4 K, 377.9 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3099 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00045

*** Timestep 46:  t=1.14713e+14 seconds, dt=2.48951e+12 seconds
   Solving temperature system... 16 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 228.5 K, 379.8 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3133 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00046

*** Timestep 47:  t=1.17203e+14 seconds, dt=2.48942e+12 seconds
   Solving temperature system... 16 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 229.7 K, 381.5 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3165 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00047

*** Timestep 48:  t=1.19692e+14 seconds, dt=2.48933e+12 seconds
   Solving temperature system... 16 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 230.7 K, 383.2 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3197 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00048

*** Timestep 49:  t=1.22181e+14 seconds, dt=2.48925e+12 seconds
   Solving temperature system... 16 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 231.8 K, 384.8 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3227 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00049

*** Timestep 50:  t=1.24671e+14 seconds, dt=2.48917e+12 seconds
   Solving temperature system... 16 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 232.8 K, 386.4 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3256 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00050

*** Timestep 51:  t=1.2716e+14 seconds, dt=2.48909e+12 seconds
   Solving temperature system... 16 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 233.7 K, 387.9 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3285 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00051

*** Timestep 52:  t=1.29649e+14 seconds, dt=2.48902e+12 seconds
   Solving temperature system... 16 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 234.6 K, 389.3 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3312 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00052

*** Timestep 53:  t=1.32138e+14 seconds, dt=2.48894e+12 seconds
   Solving temperature system... 16 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 235.5 K, 390.7 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3338 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00053

*** Timestep 54:  t=1.34626e+14 seconds, dt=2.48887e+12 seconds
   Solving temperature system... 16 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 236.4 K, 392.1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3363 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00054

*** Timestep 55:  t=1.37115e+14 seconds, dt=2.48881e+12 seconds
   Solving temperature system... 16 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 237.2 K, 393.3 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3387 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00055

*** Timestep 56:  t=1.39604e+14 seconds, dt=2.48874e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 238 K, 394.6 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3410 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00056

*** Timestep 57:  t=1.42093e+14 seconds, dt=2.48868e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 238.7 K, 395.8 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3432 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00057

*** Timestep 58:  t=1.44581e+14 seconds, dt=2.48862e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 239.5 K, 396.9 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3454 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00058

*** Timestep 59:  t=1.4707e+14 seconds, dt=2.48857e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 240.2 K, 398 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3474 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00059

*** Timestep 60:  t=1.49558e+14 seconds, dt=2.48851e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 240.8 K, 399.1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3494 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00060

*** Timestep 61:  t=1.52047e+14 seconds, dt=2.48846e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 241.5 K, 400.1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3513 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00061

*** Timestep 62:  t=1.54535e+14 seconds, dt=2.48841e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 242.1 K, 401.1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3532 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00062

*** Timestep 63:  t=1.57024e+14 seconds, dt=2.48836e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 242.7 K, 402 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3549 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00063

*** Timestep 64:  t=1.59512e+14 seconds, dt=2.48831e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 243.3 K, 402.9 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3566 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00064

*** Timestep 65:  t=1.62e+14 seconds, dt=2.48826e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 243.9 K, 403.8 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3583 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00065

*** Timestep 66:  t=1.64488e+14 seconds, dt=2.48822e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 244.4 K, 404.7 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3598 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00066

*** Timestep 67:  t=1.66977e+14 seconds, dt=2.48818e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 244.9 K, 405.5 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3614 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00067

*** Timestep 68:  t=1.69465e+14 seconds, dt=2.48814e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 245.4 K, 406.3 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3628 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00068

*** Timestep 69:  t=1.71953e+14 seconds, dt=2.4881e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 245.9 K, 407 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3642 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00069

*** Timestep 70:  t=1.74441e+14 seconds, dt=2.48806e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 246.3 K, 407.7 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3656 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00070

*** Timestep 71:  t=1.76929e+14 seconds, dt=2.48803e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 246.8 K, 408.4 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3669 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00071

*** Timestep 72:  t=1.79417e+14 seconds, dt=2.48799e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 247.2 K, 409.1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3681 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00072

*** Timestep 73:  t=1.81905e+14 seconds, dt=2.48796e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 247.6 K, 409.7 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3693 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00073

*** Timestep 74:  t=1.84393e+14 seconds, dt=2.48793e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 248 K, 410.4 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3705 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00074

*** Timestep 75:  t=1.86881e+14 seconds, dt=2.48789e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 248.4 K, 411 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3716 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00075

*** Timestep 76:  t=1.89369e+14 seconds, dt=2.48786e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 248.8 K, 411.5 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3727 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00076

*** Timestep 77:  t=1.91856e+14 seconds, dt=2.48784e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 249.1 K, 412.1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3737 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00077

*** Timestep 78:  t=1.94344e+14 seconds, dt=2.48781e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 249.5 K, 412.6 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3747 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00078

*** Timestep 79:  t=1.96832e+14 seconds, dt=2.48778e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 249.8 K, 413.1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3757 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00079

*** Timestep 80:  t=1.9932e+14 seconds, dt=2.48776e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 250.1 K, 413.6 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3766 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00080

*** Timestep 81:  t=2.01807e+14 seconds, dt=2.48773e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 250.4 K, 414.1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3775 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00081

*** Timestep 82:  t=2.04295e+14 seconds, dt=2.48771e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 250.7 K, 414.5 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3783 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00082

*** Timestep 83:  t=2.06783e+14 seconds, dt=2.48769e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 251 K, 415 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3791 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00083

*** Timestep 84:  t=2.09271e+14 seconds, dt=2.48766e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 251.2 K, 415.4 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3799 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00084

*** Timestep 85:  t=2.11758e+14 seconds, dt=2.48764e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 251.5 K, 415.8 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3807 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00085

*** Timestep 86:  t=2.14246e+14 seconds, dt=2.48762e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 251.7 K, 416.2 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3814 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00086

*** Timestep 87:  t=2.16733e+14 seconds, dt=2.4876e+12 seconds
   Solving temperature system... 15 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 252 K, 416.6 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3821 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00087

*** Timestep 88:  t=2.19221e+14 seconds, dt=2.48758e+12 seconds
   Solving temperature system... 14 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 252.2 K, 416.9 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3828 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00088

*** Timestep 89:  t=2.21709e+14 seconds, dt=2.48757e+12 seconds
   Solving temperature system... 14 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 252.4 K, 417.3 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3834 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00089

*** Timestep 90:  t=2.24196e+14 seconds, dt=2.48755e+12 seconds
   Solving temperature system... 14 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 252.6 K, 417.6 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3841 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00090

*** Timestep 91:  t=2.26684e+14 seconds, dt=2.48753e+12 seconds
   Solving temperature system... 14 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 252.8 K, 417.9 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3847 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00091

*** Timestep 92:  t=2.29171e+14 seconds, dt=2.48752e+12 seconds
   Solving temperature system... 14 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 253 K, 418.2 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3852 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00092

*** Timestep 93:  t=2.31659e+14 seconds, dt=2.4875e+12 seconds
   Solving temperature system... 14 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 253.2 K, 418.5 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3858 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00093

*** Timestep 94:  t=2.34146e+14 seconds, dt=2.48749e+12 seconds
   Solving temperature system... 14 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 253.4 K, 418.8 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3863 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00094

*** Timestep 95:  t=2.36634e+14 seconds, dt=2.48747e+12 seconds
   Solving temperature system... 14 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 253.6 K, 419.1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3868 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00095

*** Timestep 96:  t=2.39121e+14 seconds, dt=2.48746e+12 seconds
   Solving temperature system... 14 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 253.8 K, 419.4 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3873 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00096

*** Timestep 97:  t=2.41608e+14 seconds, dt=2.48744e+12 seconds
   Solving temperature system... 14 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 253.9 K, 419.6 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3878 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00097

*** Timestep 98:  t=2.44096e+14 seconds, dt=2.48743e+12 seconds
   Solving temperature system... 14 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 254.1 K, 419.9 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3883 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00098

*** Timestep 99:  t=2.46583e+14 seconds, dt=2.48742e+12 seconds
   Solving temperature system... 14 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 254.2 K, 420.1 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3887 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00099

*** Timestep 100:  t=2.49071e+14 seconds, dt=2.48741e+12 seconds
   Solving temperature system... 14 iterations.
   Solving Stokes system (GMG)... 21+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 254.4 K, 420.3 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3892 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00100




*** Timestep 101:  t=2.5e+14 seconds, dt=9.29249e+11 seconds
   Solving temperature system... 10 iterations.
   Solving Stokes system (GMG)... 20+0 iterations.

   Postprocessing:
     Temperature min/avg/max:            90 K, 254.4 K, 420.4 K
     Heat fluxes through boundary parts: 0 W, 0 W, -4000 W, 3893 W
     Writing graphical output:           output-boundary_heatflux/solution/solution-00101

Termination requested by criterion: end time



