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BEGIN
DEFINE DOMAINE
==============
1.main dimensions:
*typgeo nbfold nbnode nbelem
1 6 5 17 1 5
2.impression and precision:
*index kndex prec
0 0 1
3.precision of geometry data:
*eps
9.9999997E-05
4.flux region number per geometry region (mesh):
*merge
1 2 3 4 5
5.name of geometry:
*macro_name
isocel_bug
6.macro order number per flux region:
*macro_indices
1 1 1 1 1
7.read integer and real data for each elements:
elem = 1
*type node- node+
1 1 0
*cx cy ex or R ey or theta1 theta2
7.1314831E+00 1.1247909E+01 6.2499046E-03 -1.0825157E-02 0.0000000E+00
elem = 2
*type node- node+
1 1 0
*cx cy ex or R ey or theta1 theta2
6.4877334E+00 1.1237083E+01 6.2499046E-03 1.0825157E-02 0.0000000E+00
elem = 3
*type node- node+
1 1 0
*cx cy ex or R ey or theta1 theta2
7.0877333E+00 1.1323686E+01 4.3749809E-02 -7.5777054E-02 0.0000000E+00
elem = 4
*type node- node+
1 1 0
*cx cy ex or R ey or theta1 theta2
6.4939833E+00 1.1247909E+01 4.3749809E-02 7.5777054E-02 0.0000000E+00
elem = 5
*type node- node+
1 2 0
*cx cy ex or R ey or theta1 theta2
7.1377330E+00 1.1237083E+01 2.5235047E-01 -4.3708300E-01 0.0000000E+00
elem = 6
*type node- node+
3 1 2
*cx cy ex or R ey or theta1 theta2
6.8127332E+00 1.1800000E+01 6.5000004E-01 2.8874530E+02 1.1254704E+01
elem = 7
*type node- node+
1 2 3
*cx cy ex or R ey or theta1 theta2
6.8127332E+00 1.08000000+01 0.0000000E+00 2.6387818E-01 0.0000000E+00
elem = 8
*type node- node+
1 3 0
*cx cy ex or R ey or theta1 theta2
6.2353829E+00 1.0800000E+01 2.5235047E-01 4.3708300E-01 0.0000000E+00
elem = 9
*type node- node+
3 1 3
*cx cy ex or R ey or theta1 theta2
6.8127332E+00 1.1800000E+01 6.5000004E-01 2.4000000E+02 1.1254704E+01
elem = 10
*type node- node+
1 4 2
*cx cy ex or R ey or theta1 theta2
7.0216184E+00 1.1184478E+01 -2.0888519E-01 -1.2059975E-01 0.0000000E+00
elem = 11
*type node- node+
1 4 3
*cx cy ex or R ey or theta1 theta2
6.8127332E+00 1.1063878E+01 -2.0888519E-01 1.2059975E-01 0.0000000E+00
elem = 12
*type node- node+
3 1 4
*cx cy ex or R ey or theta1 theta2
6.8127332E+00 1.1800000E+01 6.5000004E-01 2.5125471E+02 3.7490582E+01
elem = 13
*type node- node+
1 5 0
*cx cy ex or R ey or theta1 theta2
6.5377331E+00 1.1323686E+01 2.7500010E-01 4.7631454E-01 0.0000000E+00
elem = 14
*type node- node+
1 5 0
*cx cy ex or R ey or theta1 theta2
6.8127332E+00 1.1800000E+01 2.7500010E-01 -4.7631454E-01 0.0000000E+00
elem = 15
*type node- node+
3 5 1
*cx cy ex or R ey or theta1 theta2
6.8127332E+00 1.1800000E+01 5.5000001E-01 2.4000000E+02 5.9999989E+01
elem = 16
*type node- node+
1 2 0
*cx cy ex or R ey or theta1 theta2
7.3900830E+00 1.0800000E+01 -5.7735027E-01 0.0000000E+00 0.0000000E+00
elem = 17
*type node- node+
1 3 0
*cx cy ex or R ey or theta1 theta2
6.8127332E+00 1.0800000E+01 -5.7735027E-01 0.0000000E+00 0.0000000E+00
8.read integer and real data for boundary conditions:
*defaul nbbcda allsur divsur ndivsur
0 3 0 0 0
DEFAULT = VOID
==============
*albedo deltasur
1.0000000E+00 0.0000000E+00
particular boundary condition number 1
*type nber
1 2
*elems(1,nber)
16 17
*cx cy angle
6.2353830E+00 1.0800000E+01 0.0000000E+00
particular boundary condition number 2
*type nber
1 4
*elems(1,nber)
8 2 4 13
*cx cy angle
6.2353830E+00 1.0800000E+01 0.0000000E+00
particular boundary condition number 3
*type nber
1 4
*elems(1,nber)
5 1 3 14
*cx cy angle
7.3900830E+00 1.0800000E+01 1.2000000E+02
9.medium per node:
*mil(nbreg)
1 2 3 4 5
END
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