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Thermal3#
Transient thermal simulation.
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==================== Mesh ====================
Element type: HEXA8
Ne = 940, Nn = 1584
==================== Model ====================
Thermal :
thermal conductivity (k) : 1
thermal mass capacity (c) : 1
solver:scipy
============= Boundary Conditions =============
Unspecified.
=================== Results ===================
Unspecified.
=================== TicTac ===================
Mesh: 38.923 ms
Boundary Conditions: 16.212 µs
Matrix: 10.174 ms
Solver: 427.976 ms
Generate movie 01/52 (1.92 %) 7.64 s
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Generate movie 09/52 (17.31 %) 5.70 s
Generate movie 10/52 (19.23 %) 5.59 s
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Generate movie 13/52 (25.00 %) 5.31 s
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Generate movie 15/52 (28.85 %) 4.91 s
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Generate movie 45/52 (86.54 %) 930.69 ms
Generate movie 46/52 (88.46 %) 797.31 ms
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Generate movie 51/52 (98.08 %) 133.77 ms
Generate movie 52/52 (100.00 %) 0.00 µs
13 import numpy as np
14
15 from EasyFEA import Display, Folder, Models, ElemType, Simulations, PyVista
16 from EasyFEA.Geoms import Line, Domain, Point
17
18 if __name__ == "__main__":
19 Display.Clear()
20
21 # ----------------------------------------------
22 # Configuration
23 # ----------------------------------------------
24
25 # outputs
26 folder = Folder.Results_Dir()
27 makeMovie = True
28 result = "thermal"
29
30 # geom
31 R = 10
32 e = 2
33 h = 10
34 a = 1
35
36 # load
37 Tmax = 5
38 N = 50
39 dt = Tmax / N
40
41 # ----------------------------------------------
42 # Mesh
43 # ----------------------------------------------
44 domain = Domain(Point(R), Point(R + e, h), e / 2)
45 axis = Line(Point(), Point(0, 1, 0))
46
47 # Generate the mesh based on the specified dimension
48 angle = 360 * 3 / 4
49 mesh = domain.Mesh_Revolve(
50 [],
51 axis,
52 angle,
53 [angle * np.pi / 180 * R / domain.meshSize],
54 elemType=ElemType.HEXA8,
55 isOrganised=True,
56 )
57
58 nodesY0 = mesh.Nodes_Conditions(lambda x, y, z: y == 0)
59 nodesYH = mesh.Nodes_Conditions(lambda x, y, z: y == h)
60
61 # ----------------------------------------------
62 # Simulation
63 # ----------------------------------------------
64 thermalModel = Models.Thermal(k=1, c=1)
65 simu = Simulations.Thermal(mesh, thermalModel)
66 simu.rho = 1
67
68 simu.add_surfLoad(nodesY0, [5], ["t"])
69 simu.add_surfLoad(nodesYH, [5], ["t"])
70
71 # Set the parabolic algorithm for the solver
72 simu.Solver_Set_Parabolic_Algorithm(alpha=0.5, dt=dt)
73
74 simu._Set_solutions(simu.problemType, np.ones(mesh.Nn) * -10)
75
76 print()
77 t = -dt # init time
78 while t < Tmax:
79 t += dt
80
81 simu.Solve()
82 simu.Save_Iter()
83
84 print(f"{t:.3f} s", end="\r")
85
86 # ----------------------------------------------
87 # Results
88 # ----------------------------------------------
89 print(simu)
90
91 PyVista.Plot(simu, result, plotMesh=True, nodeValues=True)
92
93 if makeMovie:
94 PyVista.Movie_simu(simu, result, folder, f"{result}.gif", plotMesh=True)
Total running time of the script: (0 minutes 11.270 seconds)