Recently I was doing some research in the antarctica ice berg ,I am trying using the elmer/ice model to simulating the dynamics and thermodynamics . when I do this ,I encounter many problem,can any one give me some help?
my problem as folows :
first ,the sliding section . http://elmerfem.org/forum/viewtopic.php ... 44e6d625afas this paper say ,I encounter the same question,I do not know the differences between the two units,and I just don't know How I set the Slip Coefficient 2 and the Slip Coefficient3.
second ,when I set the two parameters as
I obtain a velocity as follows:Flow Force BC = Logical True
Normal-Tangential Velocity = Logical True
Velocity 1 = Real 0.0e0
Slip Coefficient 2 = Real 1000
Slip Coefficient 3 = Real 1000
I find the velocity is very big .I just do not know the unit of the velocity.
third,I have not sucessfully the transient simulation and every time the problem as follows
StructuredMeshMapper: >Correct Surface< in case of intersecting upper and lower surface
StructuredMeshMapper: Adjusting upper surface to maintain minimum height to: 0.1000E+01
FlowdepthSolver: Memory allocation done.
FlowdepthSolver: Gradient of -0.1000E+01 applied
ComputeChange: NS (ITER=1) (NRM,RELC): ( 1461.5746 2.0000000 ) :: flowdepth
6 0.5581E-04
ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.31434882E-02 2.0000000 ) :: navier-stokes
6 0.3257E-04
ComputeChange: NS (ITER=2) (NRM,RELC): ( 4.7611171 1.9973608 ) :: navier-stokes
6 0.4033E-04
ComputeChange: NS (ITER=3) (NRM,RELC): ( 668.09704 1.9716962 ) :: navier-stokes
5 0.9756E-04
ComputeChange: NS (ITER=4) (NRM,RELC): ( 18348.357 1.8594697 ) :: navier-stokes
5 0.8676E-04
ComputeChange: NS (ITER=5) (NRM,RELC): ( 167891.39 1.6059196 ) :: navier-stokes
5 0.7492E-04
ComputeChange: NS (ITER=6) (NRM,RELC): ( 735774.68 1.2568432 ) :: navier-stokes
7 0.7430E-04
ComputeChange: NS (ITER=7) (NRM,RELC): ( 4189989.2 1.4025092 ) :: navier-stokes
7 0.4910E-04
ComputeChange: NS (ITER=8) (NRM,RELC): ( 10082247. 0.82569508 ) :: navier-stokes
6 0.4472E-04
ComputeChange: NS (ITER=9) (NRM,RELC): ( 13478271. 0.28828093 ) :: navier-stokes
4 0.5723E-04
ComputeChange: NS (ITER=10) (NRM,RELC): ( 14112872. 0.46000357E-01 ) :: navier-stokes
2 0.7456E-04
ComputeChange: NS (ITER=11) (NRM,RELC): ( 14156438. 0.30821840E-02 ) :: navier-stokes
1 0.5027E-04
ComputeChange: NS (ITER=12) (NRM,RELC): ( 14165516. 0.64110647E-03 ) :: navier-stokes
ComputeChange: NS (ITER=1) (NRM,RELC): ( 12.431605 2.0000000 ) :: sij
ComputeChange: NS (ITER=2) (NRM,RELC): ( 12.476920 0.36385089E-02 ) :: sij
ComputeChange: NS (ITER=3) (NRM,RELC): ( 13.013476 0.42098643E-01 ) :: sij
ComputeChange: NS (ITER=4) (NRM,RELC): ( 0.16314306 1.9504750 ) :: sij
ComputeChange: NS (ITER=5) (NRM,RELC): ( 0.61319196 1.1594193 ) :: sij
ComputeChange: NS (ITER=6) (NRM,RELC): ( 0.73213325 0.17682162 ) :: sij
ComputeChange: NS (ITER=1) (NRM,RELC): ( 239530.40 2.0000000 ) :: deformationalheat
TemperateIceSolver (temp): Memory allocation done
0 : 0 ghost nodes
TemperateIceSolver (temp): Limited diffusion Solver for variable temp
TemperateIceSolver (temp): Variational inequality applied
0 : Max/min values Temperature: 274.54354757639544 / 222.60072541993733
1 0.1482E-05
2 0.1998E-10
2 0.1998E-10
ComputeChange: NS (ITER=1) (NRM,RELC): ( 3460.0068 2.0000000 ) :: homologous temperature equation
0 : Number of constrained points: 6454
0 : Max/min values Temperature: 203191.91297230791 / -4609.9352275149840
1 0.3294E-06
2 0.6719E-12
2 0.6719E-12
ComputeChange: NS (ITER=2) (NRM,RELC): ( 273.36899 1.7071080 ) :: homologous temperature equation
0 : Number of constrained points: 6318
0 : Max/min values Temperature: 1437.5403838625793 / 141.81813128762255
1 0.6554E-07
2 0.3420E-12
2 0.3420E-12
ComputeChange: NS (ITER=3) (NRM,RELC): ( 678.45483 0.85117819 ) :: homologous temperature equation
0 : Number of constrained points: 7096
0 : Max/min values Temperature: 66017.518395604435 / -9313.7889683524772
1 0.1373E-06
2 0.3626E-07
3 0.3626E-07
4 0.3626E-07
5 0.3626E-07
6 0.3626E-07
7 0.3626E-07
8 0.1091E-41
ERROR:: IterSolve: Failed convergence tolerances.
by the way ,How I can obtain the same picture through the vtu file
any help is very thankful ,looking forward to you
yours sincerely liangfu