[cig-commits] commit 1989 by buerg to /var/svn/dealii/aspect
dealii.demon at gmail.com
dealii.demon at gmail.com
Mon Oct 21 10:08:13 PDT 2013
Revision 1989
Add test results.
U trunk/aspire/tests/simple_1/screen-output
U trunk/aspire/tests/simple_1.prm
U trunk/aspire/tests/simple_2/screen-output
U trunk/aspire/tests/simple_2.prm
U trunk/aspire/tests/simple_3/screen-output
U trunk/aspire/tests/simple_3.prm
http://www.dealii.org/websvn/revision.php?repname=Aspect+Repository&path=%2F&rev=1989&peg=1989
Diff:
Modified: trunk/aspire/tests/simple_1/screen-output
===================================================================
--- trunk/aspire/tests/simple_1/screen-output 2013-10-21 02:43:11 UTC (rev 1988)
+++ trunk/aspire/tests/simple_1/screen-output 2013-10-21 17:07:44 UTC (rev 1989)
@@ -0,0 +1,112486 @@
+[brazos.tamu.edu:06511] mca: base: component_find: unable to open /apps/openmpi-1.6.3/gcc/lib64/openmpi/mca_btl_ofud: libosmcomp.so.3: cannot open shared object file: No such file or directory (ignored)
+Number of active cells: 64 (on 4 levels)
+Number of degrees of freedom: 578 + 81 + 289 + 867
+
+*** Timestep 0: t=0 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 0 iterations.
+ Solving composition system 1 ... 0 iterations.
+ Solving composition system 2 ... 0 iterations.
+
+ Postprocessing:
+ Writing graphical output: output-simple_1/solution-00000
+ Compositions min/max/mass: 0.5/0.5/0.5 // 0.5/0.5/0.5 // 0/2.225e-308/0
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 1: t=0.1 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.4877/0.4877/0.4877 // 0.4877/0.4877/0.4877 // 0.0125/0.0125/0.0125
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 2: t=0.2 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.4759/0.4759/0.4759 // 0.4759/0.4759/0.4759 // 0.02439/0.02439/0.02439
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 3: t=0.3 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.4647/0.4647/0.4647 // 0.4647/0.4647/0.4647 // 0.03571/0.03571/0.03571
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 4: t=0.4 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.454/0.454/0.454 // 0.454/0.454/0.454 // 0.04651/0.04651/0.04651
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 5: t=0.5 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.4439/0.4439/0.4439 // 0.4439/0.4439/0.4439 // 0.05682/0.05682/0.05682
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 6: t=0.6 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.4341/0.4341/0.4341 // 0.4341/0.4341/0.4341 // 0.06667/0.06667/0.06667
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 7: t=0.7 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.4248/0.4248/0.4248 // 0.4248/0.4248/0.4248 // 0.07609/0.07609/0.07609
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 8: t=0.8 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.4159/0.4159/0.4159 // 0.4159/0.4159/0.4159 // 0.08512/0.08512/0.08512
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 9: t=0.9 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.4073/0.4073/0.4073 // 0.4073/0.4073/0.4073 // 0.09376/0.09376/0.09376
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 10: t=1 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.3991/0.3991/0.3991 // 0.3991/0.3991/0.3991 // 0.1021/0.1021/0.1021
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 11: t=1.1 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.3912/0.3912/0.3912 // 0.3912/0.3912/0.3912 // 0.11/0.11/0.11
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 12: t=1.2 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.3836/0.3836/0.3836 // 0.3836/0.3836/0.3836 // 0.1177/0.1177/0.1177
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 13: t=1.3 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.3763/0.3763/0.3763 // 0.3763/0.3763/0.3763 // 0.125/0.125/0.125
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 14: t=1.4 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.3693/0.3693/0.3693 // 0.3693/0.3693/0.3693 // 0.1321/0.1321/0.1321
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 15: t=1.5 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.3626/0.3626/0.3626 // 0.3626/0.3626/0.3626 // 0.1389/0.1389/0.1389
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 16: t=1.6 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.3561/0.3561/0.3561 // 0.3561/0.3561/0.3561 // 0.1455/0.1455/0.1455
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 17: t=1.7 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.3498/0.3498/0.3498 // 0.3498/0.3498/0.3498 // 0.1518/0.1518/0.1518
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 18: t=1.8 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.3437/0.3437/0.3437 // 0.3437/0.3437/0.3437 // 0.158/0.158/0.158
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 19: t=1.9 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.3379/0.3379/0.3379 // 0.3379/0.3379/0.3379 // 0.1639/0.1639/0.1639
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 20: t=2 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.3322/0.3322/0.3322 // 0.3322/0.3322/0.3322 // 0.1696/0.1696/0.1696
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 21: t=2.1 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.3267/0.3267/0.3267 // 0.3267/0.3267/0.3267 // 0.1751/0.1751/0.1751
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 22: t=2.2 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.3214/0.3214/0.3214 // 0.3214/0.3214/0.3214 // 0.1804/0.1804/0.1804
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 23: t=2.3 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.3163/0.3163/0.3163 // 0.3163/0.3163/0.3163 // 0.1856/0.1856/0.1856
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 24: t=2.4 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.3113/0.3113/0.3113 // 0.3113/0.3113/0.3113 // 0.1906/0.1906/0.1906
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 25: t=2.5 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.3065/0.3065/0.3065 // 0.3065/0.3065/0.3065 // 0.1954/0.1954/0.1954
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 26: t=2.6 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.3019/0.3019/0.3019 // 0.3019/0.3019/0.3019 // 0.2001/0.2001/0.2001
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 27: t=2.7 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2973/0.2973/0.2973 // 0.2973/0.2973/0.2973 // 0.2047/0.2047/0.2047
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 28: t=2.8 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.293/0.293/0.293 // 0.293/0.293/0.293 // 0.2091/0.2091/0.2091
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 29: t=2.9 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2887/0.2887/0.2887 // 0.2887/0.2887/0.2887 // 0.2134/0.2134/0.2134
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 30: t=3 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2846/0.2846/0.2846 // 0.2846/0.2846/0.2846 // 0.2176/0.2176/0.2176
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 31: t=3.1 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2805/0.2805/0.2805 // 0.2805/0.2805/0.2805 // 0.2216/0.2216/0.2216
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 32: t=3.2 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2766/0.2766/0.2766 // 0.2766/0.2766/0.2766 // 0.2256/0.2256/0.2256
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 33: t=3.3 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2728/0.2728/0.2728 // 0.2728/0.2728/0.2728 // 0.2294/0.2294/0.2294
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 34: t=3.4 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2691/0.2691/0.2691 // 0.2691/0.2691/0.2691 // 0.2331/0.2331/0.2331
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 35: t=3.5 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2655/0.2655/0.2655 // 0.2655/0.2655/0.2655 // 0.2367/0.2367/0.2367
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 36: t=3.6 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.262/0.262/0.262 // 0.262/0.262/0.262 // 0.2403/0.2403/0.2403
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 37: t=3.7 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2586/0.2586/0.2586 // 0.2586/0.2586/0.2586 // 0.2437/0.2437/0.2437
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 38: t=3.8 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2553/0.2553/0.2553 // 0.2553/0.2553/0.2553 // 0.247/0.247/0.247
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 39: t=3.9 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2521/0.2521/0.2521 // 0.2521/0.2521/0.2521 // 0.2503/0.2503/0.2503
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 40: t=4 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2489/0.2489/0.2489 // 0.2489/0.2489/0.2489 // 0.2535/0.2535/0.2535
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 41: t=4.1 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2458/0.2458/0.2458 // 0.2458/0.2458/0.2458 // 0.2566/0.2566/0.2566
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 42: t=4.2 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2428/0.2428/0.2428 // 0.2428/0.2428/0.2428 // 0.2596/0.2596/0.2596
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 43: t=4.3 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2399/0.2399/0.2399 // 0.2399/0.2399/0.2399 // 0.2625/0.2625/0.2625
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 44: t=4.4 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.237/0.237/0.237 // 0.237/0.237/0.237 // 0.2654/0.2654/0.2654
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 45: t=4.5 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2342/0.2342/0.2342 // 0.2342/0.2342/0.2342 // 0.2682/0.2682/0.2682
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 46: t=4.6 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2315/0.2315/0.2315 // 0.2315/0.2315/0.2315 // 0.271/0.271/0.271
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 47: t=4.7 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2289/0.2289/0.2289 // 0.2289/0.2289/0.2289 // 0.2737/0.2737/0.2737
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 48: t=4.8 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2262/0.2262/0.2262 // 0.2262/0.2262/0.2262 // 0.2763/0.2763/0.2763
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 49: t=4.9 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2237/0.2237/0.2237 // 0.2237/0.2237/0.2237 // 0.2788/0.2788/0.2788
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 50: t=5 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2212/0.2212/0.2212 // 0.2212/0.2212/0.2212 // 0.2813/0.2813/0.2813
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 51: t=5.1 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2188/0.2188/0.2188 // 0.2188/0.2188/0.2188 // 0.2838/0.2838/0.2838
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 52: t=5.2 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2164/0.2164/0.2164 // 0.2164/0.2164/0.2164 // 0.2862/0.2862/0.2862
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 53: t=5.3 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2141/0.2141/0.2141 // 0.2141/0.2141/0.2141 // 0.2885/0.2885/0.2885
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 54: t=5.4 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2118/0.2118/0.2118 // 0.2118/0.2118/0.2118 // 0.2908/0.2908/0.2908
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 55: t=5.5 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2096/0.2096/0.2096 // 0.2096/0.2096/0.2096 // 0.293/0.293/0.293
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 56: t=5.6 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2074/0.2074/0.2074 // 0.2074/0.2074/0.2074 // 0.2952/0.2952/0.2952
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 57: t=5.7 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2052/0.2052/0.2052 // 0.2052/0.2052/0.2052 // 0.2974/0.2974/0.2974
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 58: t=5.8 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2031/0.2031/0.2031 // 0.2031/0.2031/0.2031 // 0.2995/0.2995/0.2995
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 59: t=5.9 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.2011/0.2011/0.2011 // 0.2011/0.2011/0.2011 // 0.3016/0.3016/0.3016
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 60: t=6 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.1991/0.1991/0.1991 // 0.1991/0.1991/0.1991 // 0.3036/0.3036/0.3036
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 61: t=6.1 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.1971/0.1971/0.1971 // 0.1971/0.1971/0.1971 // 0.3056/0.3056/0.3056
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 62: t=6.2 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.1952/0.1952/0.1952 // 0.1952/0.1952/0.1952 // 0.3075/0.3075/0.3075
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 63: t=6.3 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.1933/0.1933/0.1933 // 0.1933/0.1933/0.1933 // 0.3094/0.3094/0.3094
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 64: t=6.4 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.1914/0.1914/0.1914 // 0.1914/0.1914/0.1914 // 0.3113/0.3113/0.3113
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 65: t=6.5 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.1896/0.1896/0.1896 // 0.1896/0.1896/0.1896 // 0.3131/0.3131/0.3131
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 66: t=6.6 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.1878/0.1878/0.1878 // 0.1878/0.1878/0.1878 // 0.3149/0.3149/0.3149
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 67: t=6.7 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.1861/0.1861/0.1861 // 0.1861/0.1861/0.1861 // 0.3167/0.3167/0.3167
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 68: t=6.8 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.1843/0.1843/0.1843 // 0.1843/0.1843/0.1843 // 0.3184/0.3184/0.3184
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 69: t=6.9 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.1826/0.1826/0.1826 // 0.1826/0.1826/0.1826 // 0.3201/0.3201/0.3201
+ Heat fluxes through boundary parts: 0 W, 0 W, 0 W, 0 W
+ RMS, max velocity: 0 m/s, 0 m/s
+ Temperature min/avg/max: 300 K, 300 K, 300 K
+
+*** Timestep 70: t=7 seconds
+ Building Stokes preconditioner ...
+ Solving Stokes system ... 0 iterations.
+ Solving temperature system ... 0 iterations.
+ Solving composition system 0 ... 8 iterations.
+ Solving composition system 1 ... 8 iterations.
+ Solving composition system 2 ... 8 iterations.
+
+ Postprocessing:
+ Compositions min/max/mass: 0.181/0.181/0.181 // 0.181/0.181/0.181 // 0.3218/0.3218/0.3218
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