| [13335] | 1 | from model import *
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| 2 | from triangle import *
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| 3 | from setmask import *
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| 4 | from parameterize import *
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| 5 | from setflowequation import *
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| 6 | from EnumDefinitions import *
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| 7 | from solve import *
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| 8 | from MatlabFuncs import *
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| 9 |
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| 10 | md=triangle(model(),'../Exp/Square.exp',200000)
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| 11 | md=setmask(md,'all','')
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| 12 | md=parameterize(md,'../Par/SquareShelfConstrained.py')
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| 13 | md.extrude(3,1)
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| 14 | md=setflowequation(md,'pattyn','all')
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| [13463] | 15 | md.initialization.waterfraction=numpy.zeros((md.mesh.numberofvertices,1))
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| [13335] | 16 | md.thermal.isenthalpy=1
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| 17 | md.thermal.stabilization=2
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| 18 | md.cluster=generic('name',oshostname(),'np',3)
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| 19 | md=solve(md,TransientSolutionEnum())
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| 20 |
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| 21 | #Fields and tolerances to track changes
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| 22 | field_names =['Vx1','Vy1','Vz1','Vel1','Pressure1','Bed1','Surface1','Thickness1','Temperature1','Enthalpy1','Waterfraction1',\
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| [13581] | 23 | 'Vx2','Vy2','Vz2','Vel2','Pressure2','Bed2','Surface2','Thickness2','Temperature2','Enthalpy2','Waterfraction2',\
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| 24 | 'Vx3','Vy3','Vz3','Vel3','Pressure3','Bed3','Surface3','Thickness3','Temperature3','Enthalpy3','Waterfraction3']
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| [13335] | 25 | field_tolerances=[\
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| 26 | 1e-09,1e-09,1e-09,1e-09,1e-09,1e-09,1e-09,1e-09,1e-09,1e-09,1e-09,\
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| 27 | 1e-09,1e-09,1e-08,1e-09,1e-09,1e-09,1e-09,1e-09,1e-09,1e-09,1e-09,\
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| 28 | 1e-09,1e-09,1e-08,1e-09,1e-09,1e-09,1e-09,1e-09,1e-09,1e-09,1e-09]
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| 29 | field_values=[\
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| 30 | md.results['TransientSolution'][1]['Vx'],\
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| 31 | md.results['TransientSolution'][1]['Vy'],\
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| 32 | md.results['TransientSolution'][1]['Vz'],\
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| 33 | md.results['TransientSolution'][1]['Vel'],\
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| 34 | md.results['TransientSolution'][1]['Pressure'],\
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| 35 | md.results['TransientSolution'][1]['Bed'],\
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| 36 | md.results['TransientSolution'][1]['Surface'],\
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| 37 | md.results['TransientSolution'][1]['Thickness'],\
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| 38 | md.results['TransientSolution'][1]['Temperature'],\
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| 39 | md.results['TransientSolution'][1]['Enthalpy'],\
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| 40 | md.results['TransientSolution'][1]['Waterfraction'],\
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| 41 | md.results['TransientSolution'][2]['Vx'],\
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| 42 | md.results['TransientSolution'][2]['Vy'],\
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| 43 | md.results['TransientSolution'][2]['Vz'],\
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| 44 | md.results['TransientSolution'][2]['Vel'],\
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| 45 | md.results['TransientSolution'][2]['Pressure'],\
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| 46 | md.results['TransientSolution'][2]['Bed'],\
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| 47 | md.results['TransientSolution'][2]['Surface'],\
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| 48 | md.results['TransientSolution'][2]['Thickness'],\
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| 49 | md.results['TransientSolution'][2]['Temperature'],\
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| 50 | md.results['TransientSolution'][2]['Enthalpy'],\
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| 51 | md.results['TransientSolution'][2]['Waterfraction'],\
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| 52 | md.results['TransientSolution'][3]['Vx'],\
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| 53 | md.results['TransientSolution'][3]['Vy'],\
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| 54 | md.results['TransientSolution'][3]['Vz'],\
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| 55 | md.results['TransientSolution'][3]['Vel'],\
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| 56 | md.results['TransientSolution'][3]['Pressure'],\
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| 57 | md.results['TransientSolution'][3]['Bed'],\
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| 58 | md.results['TransientSolution'][3]['Surface'],\
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| 59 | md.results['TransientSolution'][3]['Thickness'],\
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| 60 | md.results['TransientSolution'][3]['Temperature'],\
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| 61 | md.results['TransientSolution'][3]['Enthalpy'],\
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| 62 | md.results['TransientSolution'][3]['Waterfraction'],\
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| 63 | ]
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