*HEADING
Test for fluid exchange bewteen fluid cavities filled with pneumatic fluids. 

Exchange behaviors tested:

1. MASS FLUX
2. VOLUME FLUX
3. BULK VISCOSITY
4. ORIFICE
5. FABRIC LEAKAGE
6. MASS RATE LEAKAGE
7. VOLUME RATE LEAKAGE

All the above seven fluid exchange behaviors are tested with isothermal and adiabatic, single cavity and dual cavity, single gas and gas mixture (Air and Nitrogen gas mixture considered) options adding to 56 test cases.

The surface based fluid cavities in all the test cases are considered to be enclosed within a cubic block of fixed volume=0.125 m^3. Each face of the cubic block is modeled using single SFM3D4R element.

Effective area of 0.002 is considered for orifice type fluid exchange behaviors

Effective area based on surface is considered for fabric leakage type fluid exchange behaviors

Mass flow rate dependence on average temperature is considered for mass rate leakage fluid exchange behavior
**
*PHYSICAL CONSTANTS, ABSOLUTE ZERO=-273.16, UNIVERSAL GAS CONSTANT=8.314
**############################################################################################################
**       TEST CASE 1: Isothermal-Single Cavity-One Gas(Air)-Mass Flux Type Exchange Property
**############################################################################################################
*SYSTEM
0, 0, 0
*NODE, NSET=ISO_SINGLECAVITY_1GAS_M_FLUX
11, 0., 0., 0.
12, 0.5, 0., 0.
13, 0.5, 0.5, 0.
14, 0., 0.5, 0.
15, 0., 0., 0.5
16, 0.5, 0., 0.5
17, 0.5, 0.5, 0.5
18, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SINGLECAVITY_1GAS_M_FLUX_REF
199, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
11, 12, 13, 14, 11
12, 18, 17, 16, 15
13, 15, 16, 12, 11
14, 16, 17, 13, 12
15, 17, 18, 14, 13
16, 18, 15, 11, 14
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SINGLECAVITY_1GAS_M_FLUX, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SINGLECAVITY_1GAS_M_FLUX
11, 12, 13, 14, 15, 16
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SINGLECAVITY_1GAS_M_FLUX_SURF, TYPE=ELEMENT
ISO_SINGLECAVITY_1GAS_M_FLUX, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SINGLECAVITY_1GAS_M_FLUX_CAV, BEHAVIOR=AIR, REF NODE=ISO_SINGLECAVITY_1GAS_M_FLUX_REF, SURFACE=ISO_SINGLECAVITY_1GAS_M_FLUX_SURF, AMBIENT PRESSURE=1.0E5

**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ISO_SINGLECAVITY_1GAS_M_FLUX, PROPERTY=M_FLUX
199
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_SINGLECAVITY_1GAS_M_FLUX_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_SINGLECAVITY_1GAS_M_FLUX_REF, 4.0E5
**############################################################################################################
**       TEST CASE 2: Isothermal-Single Cavity-One Gas(Air)-Volume Flux Type Exchange Property
**############################################################################################################
*SYSTEM
0, 1, 0
*NODE, NSET=ISO_SINGLECAVITY_1GAS_V_FLUX
21, 0., 0., 0.
22, 0.5, 0., 0.
23, 0.5, 0.5, 0.
24, 0., 0.5, 0.
25, 0., 0., 0.5
26, 0.5, 0., 0.5
27, 0.5, 0.5, 0.5
28, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SINGLECAVITY_1GAS_V_FLUX_REF
299, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
21, 22, 23, 24, 21
22, 28, 27, 26, 25
23, 25, 26, 22, 21
24, 26, 27, 23, 22
25, 27, 28, 24, 23
26, 28, 25, 21, 24
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SINGLECAVITY_1GAS_V_FLUX, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SINGLECAVITY_1GAS_V_FLUX
21, 22, 23, 24, 25, 26
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SINGLECAVITY_1GAS_V_FLUX_SURF, TYPE=ELEMENT
ISO_SINGLECAVITY_1GAS_V_FLUX, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SINGLECAVITY_1GAS_V_FLUX_CAV, BEHAVIOR=AIR, REF NODE=ISO_SINGLECAVITY_1GAS_V_FLUX_REF, SURFACE=ISO_SINGLECAVITY_1GAS_V_FLUX_SURF, AMBIENT PRESSURE=1.0E5

**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ISO_SINGLECAVITY_1GAS_V_FLUX, PROPERTY=V_FLUX
299
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_SINGLECAVITY_1GAS_V_FLUX_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_SINGLECAVITY_1GAS_V_FLUX_REF, 4.0E5
**############################################################################################################
**       TEST CASE 3: Isothermal-Single Cavity-One Gas(Air)-Bulk Viscosity Type Exchange Property
**############################################################################################################
*SYSTEM
0, 2, 0
*NODE, NSET=ISO_SINGLECAVITY_1GAS_B_VISCOSITY
31, 0., 0., 0.
32, 0.5, 0., 0.
33, 0.5, 0.5, 0.
34, 0., 0.5, 0.
35, 0., 0., 0.5
36, 0.5, 0., 0.5
37, 0.5, 0.5, 0.5
38, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SINGLECAVITY_1GAS_B_VISCOSITY_REF
399, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
31, 32, 33, 34, 31
32, 38, 37, 36, 35
33, 35, 36, 32, 31
34, 36, 37, 33, 32
35, 37, 38, 34, 33
36, 38, 35, 31, 34
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SINGLECAVITY_1GAS_B_VISCOSITY, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SINGLECAVITY_1GAS_B_VISCOSITY
31, 32, 33, 34, 35, 36
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SINGLECAVITY_1GAS_B_VISCOSITY_SURF, TYPE=ELEMENT
ISO_SINGLECAVITY_1GAS_B_VISCOSITY, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SINGLECAVITY_1GAS_B_VISCOSITY_CAV, BEHAVIOR=AIR, REF NODE=ISO_SINGLECAVITY_1GAS_B_VISCOSITY_REF, SURFACE=ISO_SINGLECAVITY_1GAS_B_VISCOSITY_SURF, AMBIENT PRESSURE=1.0E5

**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ISO_SINGLECAVITY_1GAS_B_VISCOSITY, PROPERTY=B_VISCOSITY
399
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_SINGLECAVITY_1GAS_B_VISCOSITY_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_SINGLECAVITY_1GAS_B_VISCOSITY_REF, 4.0E5
**############################################################################################################
**       TEST CASE 4: Isothermal-Single Cavity-One Gas(Air)-Orifice Type Exchange Property
**############################################################################################################
*SYSTEM
0, 3, 0
*NODE, NSET=ISO_SINGLECAVITY_1GAS_ORIFICE_T
41, 0., 0., 0.
42, 0.5, 0., 0.
43, 0.5, 0.5, 0.
44, 0., 0.5, 0.
45, 0., 0., 0.5
46, 0.5, 0., 0.5
47, 0.5, 0.5, 0.5
48, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SINGLECAVITY_1GAS_ORIFICE_T_REF
499, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
41, 42, 43, 44, 41
42, 48, 47, 46, 45
43, 45, 46, 42, 41
44, 46, 47, 43, 42
45, 47, 48, 44, 43
46, 48, 45, 41, 44
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SINGLECAVITY_1GAS_ORIFICE_T, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SINGLECAVITY_1GAS_ORIFICE_T
41, 42, 43, 44, 45, 46
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SINGLECAVITY_1GAS_ORIFICE_T_SURF, TYPE=ELEMENT
ISO_SINGLECAVITY_1GAS_ORIFICE_T, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SINGLECAVITY_1GAS_ORIFICE_T_CAV, BEHAVIOR=AIR, REF NODE=ISO_SINGLECAVITY_1GAS_ORIFICE_T_REF, SURFACE=ISO_SINGLECAVITY_1GAS_ORIFICE_T_SURF, AMBIENT PRESSURE=1.0E5

**
**Fluid exchange definition
**
**
**Effective area for orifice is considered to be 0.002
**
*FLUID EXCHANGE, NAME=ISO_SINGLECAVITY_1GAS_ORIFICE_T, PROPERTY=ORIFICE_T, EFFECTIVE AREA=0.002
499
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_SINGLECAVITY_1GAS_ORIFICE_T_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_SINGLECAVITY_1GAS_ORIFICE_T_REF, 4.0E5
**############################################################################################################
**       TEST CASE 5: Isothermal-Single Cavity-One Gas(Air)-Fabric Leakage Type Exchange Property
**############################################################################################################
*SYSTEM
0, 4, 0
*NODE, NSET=ISO_SINGLECAVITY_1GAS_F_LEAKAGE
51, 0., 0., 0.
52, 0.5, 0., 0.
53, 0.5, 0.5, 0.
54, 0., 0.5, 0.
55, 0., 0., 0.5
56, 0.5, 0., 0.5
57, 0.5, 0.5, 0.5
58, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SINGLECAVITY_1GAS_F_LEAKAGE_REF
599, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
51, 52, 53, 54, 51
52, 58, 57, 56, 55
53, 55, 56, 52, 51
54, 56, 57, 53, 52
55, 57, 58, 54, 53
56, 58, 55, 51, 54
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SINGLECAVITY_1GAS_F_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SINGLECAVITY_1GAS_F_LEAKAGE
51, 52, 53, 54, 55, 56
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SINGLECAVITY_1GAS_F_LEAKAGE_SURF, TYPE=ELEMENT
ISO_SINGLECAVITY_1GAS_F_LEAKAGE, SPOS
**
**Create surface on primary cavity to define effective area with fabric leakage type of exchange behavior
**
*SURFACE, NAME=ISO_SINGLECAVITY_1GAS_F_LEAKAGE_EFFECTIVE_A_SURF, TYPE=ELEMENT
51, SPOS
54, SPOS
52, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SINGLECAVITY_1GAS_F_LEAKAGE_CAV, BEHAVIOR=AIR, REF NODE=ISO_SINGLECAVITY_1GAS_F_LEAKAGE_REF, SURFACE=ISO_SINGLECAVITY_1GAS_F_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5

**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ISO_SINGLECAVITY_1GAS_F_LEAKAGE, PROPERTY=F_LEAKAGE, SURFACE=ISO_SINGLECAVITY_1GAS_F_LEAKAGE_EFFECTIVE_A_SURF
599
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_SINGLECAVITY_1GAS_F_LEAKAGE_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_SINGLECAVITY_1GAS_F_LEAKAGE_REF, 4.0E5
**############################################################################################################
**       TEST CASE 6: Isothermal-Single Cavity-One Gas(Air)-Mass Rate Leakage Type Exchange Property
**############################################################################################################
*SYSTEM
0, 5, 0
*NODE, NSET=ISO_SINGLECAVITY_1GAS_MR_LEAKAGE
61, 0., 0., 0.
62, 0.5, 0., 0.
63, 0.5, 0.5, 0.
64, 0., 0.5, 0.
65, 0., 0., 0.5
66, 0.5, 0., 0.5
67, 0.5, 0.5, 0.5
68, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SINGLECAVITY_1GAS_MR_LEAKAGE_REF
699, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
61, 62, 63, 64, 61
62, 68, 67, 66, 65
63, 65, 66, 62, 61
64, 66, 67, 63, 62
65, 67, 68, 64, 63
66, 68, 65, 61, 64
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SINGLECAVITY_1GAS_MR_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SINGLECAVITY_1GAS_MR_LEAKAGE
61, 62, 63, 64, 65, 66
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SINGLECAVITY_1GAS_MR_LEAKAGE_SURF, TYPE=ELEMENT
ISO_SINGLECAVITY_1GAS_MR_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SINGLECAVITY_1GAS_MR_LEAKAGE_CAV, BEHAVIOR=AIR, REF NODE=ISO_SINGLECAVITY_1GAS_MR_LEAKAGE_REF, SURFACE=ISO_SINGLECAVITY_1GAS_MR_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5

**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ISO_SINGLECAVITY_1GAS_MR_LEAKAGE, PROPERTY=MR_LEAKAGE
699
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_SINGLECAVITY_1GAS_MR_LEAKAGE_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_SINGLECAVITY_1GAS_MR_LEAKAGE_REF, 4.0E5
**############################################################################################################
**       TEST CASE 7: Isothermal-Single Cavity-One Gas(Air)-Volume Rate Leakage Type Exchange Property
**############################################################################################################
*SYSTEM
0, 6, 0
*NODE, NSET=ISO_SINGLECAVITY_1GAS_VR_LEAKAGE
71, 0., 0., 0.
72, 0.5, 0., 0.
73, 0.5, 0.5, 0.
74, 0., 0.5, 0.
75, 0., 0., 0.5
76, 0.5, 0., 0.5
77, 0.5, 0.5, 0.5
78, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SINGLECAVITY_1GAS_VR_LEAKAGE_REF
799, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
71, 72, 73, 74, 71
72, 78, 77, 76, 75
73, 75, 76, 72, 71
74, 76, 77, 73, 72
75, 77, 78, 74, 73
76, 78, 75, 71, 74
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SINGLECAVITY_1GAS_VR_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SINGLECAVITY_1GAS_VR_LEAKAGE
71, 72, 73, 74, 75, 76
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SINGLECAVITY_1GAS_VR_LEAKAGE_SURF, TYPE=ELEMENT
ISO_SINGLECAVITY_1GAS_VR_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SINGLECAVITY_1GAS_VR_LEAKAGE_CAV, BEHAVIOR=AIR, REF NODE=ISO_SINGLECAVITY_1GAS_VR_LEAKAGE_REF, SURFACE=ISO_SINGLECAVITY_1GAS_VR_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5

**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ISO_SINGLECAVITY_1GAS_VR_LEAKAGE, PROPERTY=VR_LEAKAGE
799
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_SINGLECAVITY_1GAS_VR_LEAKAGE_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_SINGLECAVITY_1GAS_VR_LEAKAGE_REF, 4.0E5
**############################################################################################################
**       TEST CASE 8: Isothermal-Single Cavity-Mixture(Air + Nitrogen)-Mass Flux Type Exchange Property
**############################################################################################################
*SYSTEM
2, 0, 0
*NODE, NSET=ISO_SINGLECAVITY_MIX_M_FLUX
81, 0., 0., 0.
82, 0.5, 0., 0.
83, 0.5, 0.5, 0.
84, 0., 0.5, 0.
85, 0., 0., 0.5
86, 0.5, 0., 0.5
87, 0.5, 0.5, 0.5
88, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SINGLECAVITY_MIX_M_FLUX_REF
899, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
81, 82, 83, 84, 81
82, 88, 87, 86, 85
83, 85, 86, 82, 81
84, 86, 87, 83, 82
85, 87, 88, 84, 83
86, 88, 85, 81, 84
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SINGLECAVITY_MIX_M_FLUX, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SINGLECAVITY_MIX_M_FLUX
81, 82, 83, 84, 85, 86
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SINGLECAVITY_MIX_M_FLUX_SURF, TYPE=ELEMENT
ISO_SINGLECAVITY_MIX_M_FLUX, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SINGLECAVITY_MIX_M_FLUX_CAV , REF NODE=ISO_SINGLECAVITY_MIX_M_FLUX_REF, SURFACE=ISO_SINGLECAVITY_MIX_M_FLUX_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE

AIR, 0.6
NITROGEN, 0.4
**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ISO_SINGLECAVITY_MIX_M_FLUX, PROPERTY=M_FLUX
899
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_SINGLECAVITY_MIX_M_FLUX_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_SINGLECAVITY_MIX_M_FLUX_REF, 4.0E5
**############################################################################################################
**       TEST CASE 9: Isothermal-Single Cavity-Mixture(Air + Nitrogen)-Volume Flux Type Exchange Property
**############################################################################################################
*SYSTEM
2, 1, 0
*NODE, NSET=ISO_SINGLECAVITY_MIX_V_FLUX
91, 0., 0., 0.
92, 0.5, 0., 0.
93, 0.5, 0.5, 0.
94, 0., 0.5, 0.
95, 0., 0., 0.5
96, 0.5, 0., 0.5
97, 0.5, 0.5, 0.5
98, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SINGLECAVITY_MIX_V_FLUX_REF
999, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
91, 92, 93, 94, 91
92, 98, 97, 96, 95
93, 95, 96, 92, 91
94, 96, 97, 93, 92
95, 97, 98, 94, 93
96, 98, 95, 91, 94
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SINGLECAVITY_MIX_V_FLUX, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SINGLECAVITY_MIX_V_FLUX
91, 92, 93, 94, 95, 96
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SINGLECAVITY_MIX_V_FLUX_SURF, TYPE=ELEMENT
ISO_SINGLECAVITY_MIX_V_FLUX, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SINGLECAVITY_MIX_V_FLUX_CAV , REF NODE=ISO_SINGLECAVITY_MIX_V_FLUX_REF, SURFACE=ISO_SINGLECAVITY_MIX_V_FLUX_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE

AIR, 0.6
NITROGEN, 0.4
**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ISO_SINGLECAVITY_MIX_V_FLUX, PROPERTY=V_FLUX
999
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_SINGLECAVITY_MIX_V_FLUX_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_SINGLECAVITY_MIX_V_FLUX_REF, 4.0E5
**############################################################################################################
**       TEST CASE 10: Isothermal-Single Cavity-Mixture(Air + Nitrogen)-Bulk Viscosity Type Exchange Property
**############################################################################################################
*SYSTEM
2, 2, 0
*NODE, NSET=ISO_SINGLECAVITY_MIX_B_VISCOSITY
101, 0., 0., 0.
102, 0.5, 0., 0.
103, 0.5, 0.5, 0.
104, 0., 0.5, 0.
105, 0., 0., 0.5
106, 0.5, 0., 0.5
107, 0.5, 0.5, 0.5
108, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SINGLECAVITY_MIX_B_VISCOSITY_REF
1099, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
101, 102, 103, 104, 101
102, 108, 107, 106, 105
103, 105, 106, 102, 101
104, 106, 107, 103, 102
105, 107, 108, 104, 103
106, 108, 105, 101, 104
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SINGLECAVITY_MIX_B_VISCOSITY, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SINGLECAVITY_MIX_B_VISCOSITY
101, 102, 103, 104, 105, 106
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SINGLECAVITY_MIX_B_VISCOSITY_SURF, TYPE=ELEMENT
ISO_SINGLECAVITY_MIX_B_VISCOSITY, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SINGLECAVITY_MIX_B_VISCOSITY_CAV , REF NODE=ISO_SINGLECAVITY_MIX_B_VISCOSITY_REF, SURFACE=ISO_SINGLECAVITY_MIX_B_VISCOSITY_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE

AIR, 0.6
NITROGEN, 0.4
**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ISO_SINGLECAVITY_MIX_B_VISCOSITY, PROPERTY=B_VISCOSITY
1099
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_SINGLECAVITY_MIX_B_VISCOSITY_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_SINGLECAVITY_MIX_B_VISCOSITY_REF, 4.0E5
**############################################################################################################
**       TEST CASE 11: Isothermal-Single Cavity-Mixture(Air + Nitrogen)-Orifice Type Exchange Property
**############################################################################################################
*SYSTEM
2, 3, 0
*NODE, NSET=ISO_SINGLECAVITY_MIX_ORIFICE_T
111, 0., 0., 0.
112, 0.5, 0., 0.
113, 0.5, 0.5, 0.
114, 0., 0.5, 0.
115, 0., 0., 0.5
116, 0.5, 0., 0.5
117, 0.5, 0.5, 0.5
118, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SINGLECAVITY_MIX_ORIFICE_T_REF
1199, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
111, 112, 113, 114, 111
112, 118, 117, 116, 115
113, 115, 116, 112, 111
114, 116, 117, 113, 112
115, 117, 118, 114, 113
116, 118, 115, 111, 114
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SINGLECAVITY_MIX_ORIFICE_T, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SINGLECAVITY_MIX_ORIFICE_T
111, 112, 113, 114, 115, 116
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SINGLECAVITY_MIX_ORIFICE_T_SURF, TYPE=ELEMENT
ISO_SINGLECAVITY_MIX_ORIFICE_T, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SINGLECAVITY_MIX_ORIFICE_T_CAV , REF NODE=ISO_SINGLECAVITY_MIX_ORIFICE_T_REF, SURFACE=ISO_SINGLECAVITY_MIX_ORIFICE_T_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE

AIR, 0.6
NITROGEN, 0.4
**
**Fluid exchange definition
**
**
**Effective area for orifice is considered to be 0.002
**
*FLUID EXCHANGE, NAME=ISO_SINGLECAVITY_MIX_ORIFICE_T, PROPERTY=ORIFICE_T, EFFECTIVE AREA=0.002
1199
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_SINGLECAVITY_MIX_ORIFICE_T_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_SINGLECAVITY_MIX_ORIFICE_T_REF, 4.0E5
**############################################################################################################
**       TEST CASE 12: Isothermal-Single Cavity-Mixture(Air + Nitrogen)-Fabric Leakage Type Exchange Property
**############################################################################################################
*SYSTEM
2, 4, 0
*NODE, NSET=ISO_SINGLECAVITY_MIX_F_LEAKAGE
121, 0., 0., 0.
122, 0.5, 0., 0.
123, 0.5, 0.5, 0.
124, 0., 0.5, 0.
125, 0., 0., 0.5
126, 0.5, 0., 0.5
127, 0.5, 0.5, 0.5
128, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SINGLECAVITY_MIX_F_LEAKAGE_REF
1299, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
121, 122, 123, 124, 121
122, 128, 127, 126, 125
123, 125, 126, 122, 121
124, 126, 127, 123, 122
125, 127, 128, 124, 123
126, 128, 125, 121, 124
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SINGLECAVITY_MIX_F_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SINGLECAVITY_MIX_F_LEAKAGE
121, 122, 123, 124, 125, 126
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SINGLECAVITY_MIX_F_LEAKAGE_SURF, TYPE=ELEMENT
ISO_SINGLECAVITY_MIX_F_LEAKAGE, SPOS
**
**Create surface on primary cavity to define effective area with fabric leakage type of exchange behavior
**
*SURFACE, NAME=ISO_SINGLECAVITY_MIX_F_LEAKAGE_EFFECTIVE_A_SURF, TYPE=ELEMENT
121, SPOS
124, SPOS
122, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SINGLECAVITY_MIX_F_LEAKAGE_CAV , REF NODE=ISO_SINGLECAVITY_MIX_F_LEAKAGE_REF, SURFACE=ISO_SINGLECAVITY_MIX_F_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE

AIR, 0.6
NITROGEN, 0.4
**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ISO_SINGLECAVITY_MIX_F_LEAKAGE, PROPERTY=F_LEAKAGE, SURFACE=ISO_SINGLECAVITY_MIX_F_LEAKAGE_EFFECTIVE_A_SURF
1299
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_SINGLECAVITY_MIX_F_LEAKAGE_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_SINGLECAVITY_MIX_F_LEAKAGE_REF, 4.0E5
**############################################################################################################
**       TEST CASE 13: Isothermal-Single Cavity-Mixture(Air + Nitrogen)-Mass Rate Leakage Type Exchange Property
**############################################################################################################
*SYSTEM
2, 5, 0
*NODE, NSET=ISO_SINGLECAVITY_MIX_MR_LEAKAGE
131, 0., 0., 0.
132, 0.5, 0., 0.
133, 0.5, 0.5, 0.
134, 0., 0.5, 0.
135, 0., 0., 0.5
136, 0.5, 0., 0.5
137, 0.5, 0.5, 0.5
138, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SINGLECAVITY_MIX_MR_LEAKAGE_REF
1399, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
131, 132, 133, 134, 131
132, 138, 137, 136, 135
133, 135, 136, 132, 131
134, 136, 137, 133, 132
135, 137, 138, 134, 133
136, 138, 135, 131, 134
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SINGLECAVITY_MIX_MR_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SINGLECAVITY_MIX_MR_LEAKAGE
131, 132, 133, 134, 135, 136
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SINGLECAVITY_MIX_MR_LEAKAGE_SURF, TYPE=ELEMENT
ISO_SINGLECAVITY_MIX_MR_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SINGLECAVITY_MIX_MR_LEAKAGE_CAV , REF NODE=ISO_SINGLECAVITY_MIX_MR_LEAKAGE_REF, SURFACE=ISO_SINGLECAVITY_MIX_MR_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE

AIR, 0.6
NITROGEN, 0.4
**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ISO_SINGLECAVITY_MIX_MR_LEAKAGE, PROPERTY=MR_LEAKAGE
1399
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_SINGLECAVITY_MIX_MR_LEAKAGE_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_SINGLECAVITY_MIX_MR_LEAKAGE_REF, 4.0E5
**############################################################################################################
**       TEST CASE 14: Isothermal-Single Cavity-Mixture(Air + Nitrogen)-Volume Rate Leakage Type Exchange Property
**############################################################################################################
*SYSTEM
2, 6, 0
*NODE, NSET=ISO_SINGLECAVITY_MIX_VR_LEAKAGE
141, 0., 0., 0.
142, 0.5, 0., 0.
143, 0.5, 0.5, 0.
144, 0., 0.5, 0.
145, 0., 0., 0.5
146, 0.5, 0., 0.5
147, 0.5, 0.5, 0.5
148, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SINGLECAVITY_MIX_VR_LEAKAGE_REF
1499, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
141, 142, 143, 144, 141
142, 148, 147, 146, 145
143, 145, 146, 142, 141
144, 146, 147, 143, 142
145, 147, 148, 144, 143
146, 148, 145, 141, 144
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SINGLECAVITY_MIX_VR_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SINGLECAVITY_MIX_VR_LEAKAGE
141, 142, 143, 144, 145, 146
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SINGLECAVITY_MIX_VR_LEAKAGE_SURF, TYPE=ELEMENT
ISO_SINGLECAVITY_MIX_VR_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SINGLECAVITY_MIX_VR_LEAKAGE_CAV , REF NODE=ISO_SINGLECAVITY_MIX_VR_LEAKAGE_REF, SURFACE=ISO_SINGLECAVITY_MIX_VR_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE

AIR, 0.6
NITROGEN, 0.4
**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ISO_SINGLECAVITY_MIX_VR_LEAKAGE, PROPERTY=VR_LEAKAGE
1499
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_SINGLECAVITY_MIX_VR_LEAKAGE_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_SINGLECAVITY_MIX_VR_LEAKAGE_REF, 4.0E5
**############################################################################################################
**       TEST CASE 15: Isothermal-Dual Cavity-One Gas(Air)-Mass Flux Type Exchange Property
**############################################################################################################
*SYSTEM
4, 0, 0
*NODE, NSET=ISO_FIRSTCAVITY_1GAS_M_FLUX
151, 0., 0., 0.
152, 0.5, 0., 0.
153, 0.5, 0.5, 0.
154, 0., 0.5, 0.
155, 0., 0., 0.5
156, 0.5, 0., 0.5
157, 0.5, 0.5, 0.5
158, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_FIRSTCAVITY_1GAS_M_FLUX_REF
1599, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
151, 152, 153, 154, 151
152, 158, 157, 156, 155
153, 155, 156, 152, 151
154, 156, 157, 153, 152
155, 157, 158, 154, 153
156, 158, 155, 151, 154
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_FIRSTCAVITY_1GAS_M_FLUX, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_FIRSTCAVITY_1GAS_M_FLUX
151, 152, 153, 154, 155, 156
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_FIRSTCAVITY_1GAS_M_FLUX_SURF, TYPE=ELEMENT
ISO_FIRSTCAVITY_1GAS_M_FLUX, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_FIRSTCAVITY_1GAS_M_FLUX_CAV, BEHAVIOR=AIR, REF NODE=ISO_FIRSTCAVITY_1GAS_M_FLUX_REF, SURFACE=ISO_FIRSTCAVITY_1GAS_M_FLUX_SURF, AMBIENT PRESSURE=1.0E5

*SYSTEM
6, 0, 0
*NODE, NSET=ISO_SECONDCAVITY_1GAS_M_FLUX
161, 0., 0., 0.
162, 0.5, 0., 0.
163, 0.5, 0.5, 0.
164, 0., 0.5, 0.
165, 0., 0., 0.5
166, 0.5, 0., 0.5
167, 0.5, 0.5, 0.5
168, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SECONDCAVITY_1GAS_M_FLUX_REF
1699, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
161, 162, 163, 164, 161
162, 168, 167, 166, 165
163, 165, 166, 162, 161
164, 166, 167, 163, 162
165, 167, 168, 164, 163
166, 168, 165, 161, 164
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SECONDCAVITY_1GAS_M_FLUX, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SECONDCAVITY_1GAS_M_FLUX
161, 162, 163, 164, 165, 166
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SECONDCAVITY_1GAS_M_FLUX_SURF, TYPE=ELEMENT
ISO_SECONDCAVITY_1GAS_M_FLUX, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SECONDCAVITY_1GAS_M_FLUX_CAV, BEHAVIOR=AIR, REF NODE=ISO_SECONDCAVITY_1GAS_M_FLUX_REF, SURFACE=ISO_SECONDCAVITY_1GAS_M_FLUX_SURF, AMBIENT PRESSURE=1.0E5

**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ISO_DUALCAVITY_1GAS_M_FLUX, PROPERTY=M_FLUX
1599, 1699
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_FIRSTCAVITY_1GAS_M_FLUX_REF, 40
ISO_SECONDCAVITY_1GAS_M_FLUX_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_FIRSTCAVITY_1GAS_M_FLUX_REF, 4.0E5
**############################################################################################################
**       TEST CASE 16: Isothermal-Dual Cavity-One Gas(Air)-Volume Flux Type Exchange Property
**############################################################################################################
*SYSTEM
4, 1, 0
*NODE, NSET=ISO_FIRSTCAVITY_1GAS_V_FLUX
171, 0., 0., 0.
172, 0.5, 0., 0.
173, 0.5, 0.5, 0.
174, 0., 0.5, 0.
175, 0., 0., 0.5
176, 0.5, 0., 0.5
177, 0.5, 0.5, 0.5
178, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_FIRSTCAVITY_1GAS_V_FLUX_REF
1799, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
171, 172, 173, 174, 171
172, 178, 177, 176, 175
173, 175, 176, 172, 171
174, 176, 177, 173, 172
175, 177, 178, 174, 173
176, 178, 175, 171, 174
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_FIRSTCAVITY_1GAS_V_FLUX, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_FIRSTCAVITY_1GAS_V_FLUX
171, 172, 173, 174, 175, 176
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_FIRSTCAVITY_1GAS_V_FLUX_SURF, TYPE=ELEMENT
ISO_FIRSTCAVITY_1GAS_V_FLUX, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_FIRSTCAVITY_1GAS_V_FLUX_CAV, BEHAVIOR=AIR, REF NODE=ISO_FIRSTCAVITY_1GAS_V_FLUX_REF, SURFACE=ISO_FIRSTCAVITY_1GAS_V_FLUX_SURF, AMBIENT PRESSURE=1.0E5

*SYSTEM
6, 1, 0
*NODE, NSET=ISO_SECONDCAVITY_1GAS_V_FLUX
181, 0., 0., 0.
182, 0.5, 0., 0.
183, 0.5, 0.5, 0.
184, 0., 0.5, 0.
185, 0., 0., 0.5
186, 0.5, 0., 0.5
187, 0.5, 0.5, 0.5
188, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SECONDCAVITY_1GAS_V_FLUX_REF
1899, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
181, 182, 183, 184, 181
182, 188, 187, 186, 185
183, 185, 186, 182, 181
184, 186, 187, 183, 182
185, 187, 188, 184, 183
186, 188, 185, 181, 184
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SECONDCAVITY_1GAS_V_FLUX, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SECONDCAVITY_1GAS_V_FLUX
181, 182, 183, 184, 185, 186
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SECONDCAVITY_1GAS_V_FLUX_SURF, TYPE=ELEMENT
ISO_SECONDCAVITY_1GAS_V_FLUX, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SECONDCAVITY_1GAS_V_FLUX_CAV, BEHAVIOR=AIR, REF NODE=ISO_SECONDCAVITY_1GAS_V_FLUX_REF, SURFACE=ISO_SECONDCAVITY_1GAS_V_FLUX_SURF, AMBIENT PRESSURE=1.0E5

**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ISO_DUALCAVITY_1GAS_V_FLUX, PROPERTY=V_FLUX
1799, 1899
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_FIRSTCAVITY_1GAS_V_FLUX_REF, 40
ISO_SECONDCAVITY_1GAS_V_FLUX_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_FIRSTCAVITY_1GAS_V_FLUX_REF, 4.0E5
**############################################################################################################
**       TEST CASE 17: Isothermal-Dual Cavity-One Gas(Air)-Bulk Viscosity Type Exchange Property
**############################################################################################################
*SYSTEM
4, 2, 0
*NODE, NSET=ISO_FIRSTCAVITY_1GAS_B_VISCOSITY
191, 0., 0., 0.
192, 0.5, 0., 0.
193, 0.5, 0.5, 0.
194, 0., 0.5, 0.
195, 0., 0., 0.5
196, 0.5, 0., 0.5
197, 0.5, 0.5, 0.5
198, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_FIRSTCAVITY_1GAS_B_VISCOSITY_REF
1999, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
191, 192, 193, 194, 191
192, 198, 197, 196, 195
193, 195, 196, 192, 191
194, 196, 197, 193, 192
195, 197, 198, 194, 193
196, 198, 195, 191, 194
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_FIRSTCAVITY_1GAS_B_VISCOSITY, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_FIRSTCAVITY_1GAS_B_VISCOSITY
191, 192, 193, 194, 195, 196
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_FIRSTCAVITY_1GAS_B_VISCOSITY_SURF, TYPE=ELEMENT
ISO_FIRSTCAVITY_1GAS_B_VISCOSITY, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_FIRSTCAVITY_1GAS_B_VISCOSITY_CAV, BEHAVIOR=AIR, REF NODE=ISO_FIRSTCAVITY_1GAS_B_VISCOSITY_REF, SURFACE=ISO_FIRSTCAVITY_1GAS_B_VISCOSITY_SURF, AMBIENT PRESSURE=1.0E5

*SYSTEM
6, 2, 0
*NODE, NSET=ISO_SECONDCAVITY_1GAS_B_VISCOSITY
201, 0., 0., 0.
202, 0.5, 0., 0.
203, 0.5, 0.5, 0.
204, 0., 0.5, 0.
205, 0., 0., 0.5
206, 0.5, 0., 0.5
207, 0.5, 0.5, 0.5
208, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SECONDCAVITY_1GAS_B_VISCOSITY_REF
2099, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
201, 202, 203, 204, 201
202, 208, 207, 206, 205
203, 205, 206, 202, 201
204, 206, 207, 203, 202
205, 207, 208, 204, 203
206, 208, 205, 201, 204
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SECONDCAVITY_1GAS_B_VISCOSITY, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SECONDCAVITY_1GAS_B_VISCOSITY
201, 202, 203, 204, 205, 206
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SECONDCAVITY_1GAS_B_VISCOSITY_SURF, TYPE=ELEMENT
ISO_SECONDCAVITY_1GAS_B_VISCOSITY, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SECONDCAVITY_1GAS_B_VISCOSITY_CAV, BEHAVIOR=AIR, REF NODE=ISO_SECONDCAVITY_1GAS_B_VISCOSITY_REF, SURFACE=ISO_SECONDCAVITY_1GAS_B_VISCOSITY_SURF, AMBIENT PRESSURE=1.0E5

**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ISO_DUALCAVITY_1GAS_B_VISCOSITY, PROPERTY=B_VISCOSITY
1999, 2099
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_FIRSTCAVITY_1GAS_B_VISCOSITY_REF, 40
ISO_SECONDCAVITY_1GAS_B_VISCOSITY_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_FIRSTCAVITY_1GAS_B_VISCOSITY_REF, 4.0E5
**############################################################################################################
**       TEST CASE 18: Isothermal-Dual Cavity-One Gas(Air)-Orifice Type Exchange Property
**############################################################################################################
*SYSTEM
4, 3, 0
*NODE, NSET=ISO_FIRSTCAVITY_1GAS_ORIFICE_T
211, 0., 0., 0.
212, 0.5, 0., 0.
213, 0.5, 0.5, 0.
214, 0., 0.5, 0.
215, 0., 0., 0.5
216, 0.5, 0., 0.5
217, 0.5, 0.5, 0.5
218, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_FIRSTCAVITY_1GAS_ORIFICE_T_REF
2199, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
211, 212, 213, 214, 211
212, 218, 217, 216, 215
213, 215, 216, 212, 211
214, 216, 217, 213, 212
215, 217, 218, 214, 213
216, 218, 215, 211, 214
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_FIRSTCAVITY_1GAS_ORIFICE_T, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_FIRSTCAVITY_1GAS_ORIFICE_T
211, 212, 213, 214, 215, 216
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_FIRSTCAVITY_1GAS_ORIFICE_T_SURF, TYPE=ELEMENT
ISO_FIRSTCAVITY_1GAS_ORIFICE_T, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_FIRSTCAVITY_1GAS_ORIFICE_T_CAV, BEHAVIOR=AIR, REF NODE=ISO_FIRSTCAVITY_1GAS_ORIFICE_T_REF, SURFACE=ISO_FIRSTCAVITY_1GAS_ORIFICE_T_SURF, AMBIENT PRESSURE=1.0E5

*SYSTEM
6, 3, 0
*NODE, NSET=ISO_SECONDCAVITY_1GAS_ORIFICE_T
221, 0., 0., 0.
222, 0.5, 0., 0.
223, 0.5, 0.5, 0.
224, 0., 0.5, 0.
225, 0., 0., 0.5
226, 0.5, 0., 0.5
227, 0.5, 0.5, 0.5
228, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SECONDCAVITY_1GAS_ORIFICE_T_REF
2299, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
221, 222, 223, 224, 221
222, 228, 227, 226, 225
223, 225, 226, 222, 221
224, 226, 227, 223, 222
225, 227, 228, 224, 223
226, 228, 225, 221, 224
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SECONDCAVITY_1GAS_ORIFICE_T, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SECONDCAVITY_1GAS_ORIFICE_T
221, 222, 223, 224, 225, 226
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SECONDCAVITY_1GAS_ORIFICE_T_SURF, TYPE=ELEMENT
ISO_SECONDCAVITY_1GAS_ORIFICE_T, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SECONDCAVITY_1GAS_ORIFICE_T_CAV, BEHAVIOR=AIR, REF NODE=ISO_SECONDCAVITY_1GAS_ORIFICE_T_REF, SURFACE=ISO_SECONDCAVITY_1GAS_ORIFICE_T_SURF, AMBIENT PRESSURE=1.0E5

**
**Fluid exchange definition
**
**
**Effective area for orifice is considered to be 0.002
**
*FLUID EXCHANGE, NAME=ISO_DUALCAVITY_1GAS_ORIFICE_T, PROPERTY=ORIFICE_T, EFFECTIVE AREA=0.002
2199, 2299
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_FIRSTCAVITY_1GAS_ORIFICE_T_REF, 40
ISO_SECONDCAVITY_1GAS_ORIFICE_T_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_FIRSTCAVITY_1GAS_ORIFICE_T_REF, 4.0E5
**############################################################################################################
**       TEST CASE 19: Isothermal-Dual Cavity-One Gas(Air)-Fabric Leakage Type Exchange Property
**############################################################################################################
*SYSTEM
4, 4, 0
*NODE, NSET=ISO_FIRSTCAVITY_1GAS_F_LEAKAGE
231, 0., 0., 0.
232, 0.5, 0., 0.
233, 0.5, 0.5, 0.
234, 0., 0.5, 0.
235, 0., 0., 0.5
236, 0.5, 0., 0.5
237, 0.5, 0.5, 0.5
238, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_FIRSTCAVITY_1GAS_F_LEAKAGE_REF
2399, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
231, 232, 233, 234, 231
232, 238, 237, 236, 235
233, 235, 236, 232, 231
234, 236, 237, 233, 232
235, 237, 238, 234, 233
236, 238, 235, 231, 234
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_FIRSTCAVITY_1GAS_F_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_FIRSTCAVITY_1GAS_F_LEAKAGE
231, 232, 233, 234, 235, 236
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_FIRSTCAVITY_1GAS_F_LEAKAGE_SURF, TYPE=ELEMENT
ISO_FIRSTCAVITY_1GAS_F_LEAKAGE, SPOS
**
**Create surface on primary cavity to define effective area with fabric leakage type of exchange behavior
**
*SURFACE, NAME=ISO_FIRSTCAVITY_1GAS_F_LEAKAGE_EFFECTIVE_A_SURF, TYPE=ELEMENT
231, SPOS
234, SPOS
232, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_FIRSTCAVITY_1GAS_F_LEAKAGE_CAV, BEHAVIOR=AIR, REF NODE=ISO_FIRSTCAVITY_1GAS_F_LEAKAGE_REF, SURFACE=ISO_FIRSTCAVITY_1GAS_F_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5

*SYSTEM
6, 4, 0
*NODE, NSET=ISO_SECONDCAVITY_1GAS_F_LEAKAGE
241, 0., 0., 0.
242, 0.5, 0., 0.
243, 0.5, 0.5, 0.
244, 0., 0.5, 0.
245, 0., 0., 0.5
246, 0.5, 0., 0.5
247, 0.5, 0.5, 0.5
248, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SECONDCAVITY_1GAS_F_LEAKAGE_REF
2499, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
241, 242, 243, 244, 241
242, 248, 247, 246, 245
243, 245, 246, 242, 241
244, 246, 247, 243, 242
245, 247, 248, 244, 243
246, 248, 245, 241, 244
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SECONDCAVITY_1GAS_F_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SECONDCAVITY_1GAS_F_LEAKAGE
241, 242, 243, 244, 245, 246
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SECONDCAVITY_1GAS_F_LEAKAGE_SURF, TYPE=ELEMENT
ISO_SECONDCAVITY_1GAS_F_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SECONDCAVITY_1GAS_F_LEAKAGE_CAV, BEHAVIOR=AIR, REF NODE=ISO_SECONDCAVITY_1GAS_F_LEAKAGE_REF, SURFACE=ISO_SECONDCAVITY_1GAS_F_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5

**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ISO_DUALCAVITY_1GAS_F_LEAKAGE, PROPERTY=F_LEAKAGE, SURFACE=ISO_FIRSTCAVITY_1GAS_F_LEAKAGE_EFFECTIVE_A_SURF
2399, 2499
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_FIRSTCAVITY_1GAS_F_LEAKAGE_REF, 40
ISO_SECONDCAVITY_1GAS_F_LEAKAGE_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_FIRSTCAVITY_1GAS_F_LEAKAGE_REF, 4.0E5
**############################################################################################################
**       TEST CASE 20: Isothermal-Dual Cavity-One Gas(Air)-Mass Rate Leakage Type Exchange Property
**############################################################################################################
*SYSTEM
4, 5, 0
*NODE, NSET=ISO_FIRSTCAVITY_1GAS_MR_LEAKAGE
251, 0., 0., 0.
252, 0.5, 0., 0.
253, 0.5, 0.5, 0.
254, 0., 0.5, 0.
255, 0., 0., 0.5
256, 0.5, 0., 0.5
257, 0.5, 0.5, 0.5
258, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_FIRSTCAVITY_1GAS_MR_LEAKAGE_REF
2599, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
251, 252, 253, 254, 251
252, 258, 257, 256, 255
253, 255, 256, 252, 251
254, 256, 257, 253, 252
255, 257, 258, 254, 253
256, 258, 255, 251, 254
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_FIRSTCAVITY_1GAS_MR_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_FIRSTCAVITY_1GAS_MR_LEAKAGE
251, 252, 253, 254, 255, 256
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_FIRSTCAVITY_1GAS_MR_LEAKAGE_SURF, TYPE=ELEMENT
ISO_FIRSTCAVITY_1GAS_MR_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_FIRSTCAVITY_1GAS_MR_LEAKAGE_CAV, BEHAVIOR=AIR, REF NODE=ISO_FIRSTCAVITY_1GAS_MR_LEAKAGE_REF, SURFACE=ISO_FIRSTCAVITY_1GAS_MR_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5

*SYSTEM
6, 5, 0
*NODE, NSET=ISO_SECONDCAVITY_1GAS_MR_LEAKAGE
261, 0., 0., 0.
262, 0.5, 0., 0.
263, 0.5, 0.5, 0.
264, 0., 0.5, 0.
265, 0., 0., 0.5
266, 0.5, 0., 0.5
267, 0.5, 0.5, 0.5
268, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SECONDCAVITY_1GAS_MR_LEAKAGE_REF
2699, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
261, 262, 263, 264, 261
262, 268, 267, 266, 265
263, 265, 266, 262, 261
264, 266, 267, 263, 262
265, 267, 268, 264, 263
266, 268, 265, 261, 264
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SECONDCAVITY_1GAS_MR_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SECONDCAVITY_1GAS_MR_LEAKAGE
261, 262, 263, 264, 265, 266
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SECONDCAVITY_1GAS_MR_LEAKAGE_SURF, TYPE=ELEMENT
ISO_SECONDCAVITY_1GAS_MR_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SECONDCAVITY_1GAS_MR_LEAKAGE_CAV, BEHAVIOR=AIR, REF NODE=ISO_SECONDCAVITY_1GAS_MR_LEAKAGE_REF, SURFACE=ISO_SECONDCAVITY_1GAS_MR_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5

**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ISO_DUALCAVITY_1GAS_MR_LEAKAGE, PROPERTY=MR_LEAKAGE
2599, 2699
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_FIRSTCAVITY_1GAS_MR_LEAKAGE_REF, 40
ISO_SECONDCAVITY_1GAS_MR_LEAKAGE_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_FIRSTCAVITY_1GAS_MR_LEAKAGE_REF, 4.0E5
**############################################################################################################
**       TEST CASE 21: Isothermal-Dual Cavity-One Gas(Air)-Volume Rate Leakage Type Exchange Property
**############################################################################################################
*SYSTEM
4, 6, 0
*NODE, NSET=ISO_FIRSTCAVITY_1GAS_VR_LEAKAGE
271, 0., 0., 0.
272, 0.5, 0., 0.
273, 0.5, 0.5, 0.
274, 0., 0.5, 0.
275, 0., 0., 0.5
276, 0.5, 0., 0.5
277, 0.5, 0.5, 0.5
278, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_FIRSTCAVITY_1GAS_VR_LEAKAGE_REF
2799, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
271, 272, 273, 274, 271
272, 278, 277, 276, 275
273, 275, 276, 272, 271
274, 276, 277, 273, 272
275, 277, 278, 274, 273
276, 278, 275, 271, 274
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_FIRSTCAVITY_1GAS_VR_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_FIRSTCAVITY_1GAS_VR_LEAKAGE
271, 272, 273, 274, 275, 276
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_FIRSTCAVITY_1GAS_VR_LEAKAGE_SURF, TYPE=ELEMENT
ISO_FIRSTCAVITY_1GAS_VR_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_FIRSTCAVITY_1GAS_VR_LEAKAGE_CAV, BEHAVIOR=AIR, REF NODE=ISO_FIRSTCAVITY_1GAS_VR_LEAKAGE_REF, SURFACE=ISO_FIRSTCAVITY_1GAS_VR_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5

*SYSTEM
6, 6, 0
*NODE, NSET=ISO_SECONDCAVITY_1GAS_VR_LEAKAGE
281, 0., 0., 0.
282, 0.5, 0., 0.
283, 0.5, 0.5, 0.
284, 0., 0.5, 0.
285, 0., 0., 0.5
286, 0.5, 0., 0.5
287, 0.5, 0.5, 0.5
288, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SECONDCAVITY_1GAS_VR_LEAKAGE_REF
2899, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
281, 282, 283, 284, 281
282, 288, 287, 286, 285
283, 285, 286, 282, 281
284, 286, 287, 283, 282
285, 287, 288, 284, 283
286, 288, 285, 281, 284
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SECONDCAVITY_1GAS_VR_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SECONDCAVITY_1GAS_VR_LEAKAGE
281, 282, 283, 284, 285, 286
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SECONDCAVITY_1GAS_VR_LEAKAGE_SURF, TYPE=ELEMENT
ISO_SECONDCAVITY_1GAS_VR_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SECONDCAVITY_1GAS_VR_LEAKAGE_CAV, BEHAVIOR=AIR, REF NODE=ISO_SECONDCAVITY_1GAS_VR_LEAKAGE_REF, SURFACE=ISO_SECONDCAVITY_1GAS_VR_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5

**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ISO_DUALCAVITY_1GAS_VR_LEAKAGE, PROPERTY=VR_LEAKAGE
2799, 2899
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_FIRSTCAVITY_1GAS_VR_LEAKAGE_REF, 40
ISO_SECONDCAVITY_1GAS_VR_LEAKAGE_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_FIRSTCAVITY_1GAS_VR_LEAKAGE_REF, 4.0E5
**############################################################################################################
**       TEST CASE 22: Isothermal-Dual Cavity-Mixture(Air + Nitrogen)-Mass Flux Type Exchange Property
**############################################################################################################
*SYSTEM
8, 0, 0
*NODE, NSET=ISO_FIRSTCAVITY_MIX_M_FLUX
291, 0., 0., 0.
292, 0.5, 0., 0.
293, 0.5, 0.5, 0.
294, 0., 0.5, 0.
295, 0., 0., 0.5
296, 0.5, 0., 0.5
297, 0.5, 0.5, 0.5
298, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_FIRSTCAVITY_MIX_M_FLUX_REF
2999, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
291, 292, 293, 294, 291
292, 298, 297, 296, 295
293, 295, 296, 292, 291
294, 296, 297, 293, 292
295, 297, 298, 294, 293
296, 298, 295, 291, 294
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_FIRSTCAVITY_MIX_M_FLUX, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_FIRSTCAVITY_MIX_M_FLUX
291, 292, 293, 294, 295, 296
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_FIRSTCAVITY_MIX_M_FLUX_SURF, TYPE=ELEMENT
ISO_FIRSTCAVITY_MIX_M_FLUX, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_FIRSTCAVITY_MIX_M_FLUX_CAV , REF NODE=ISO_FIRSTCAVITY_MIX_M_FLUX_REF, SURFACE=ISO_FIRSTCAVITY_MIX_M_FLUX_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE

AIR, 1.0
NITROGEN, 0.0
*SYSTEM
10, 0, 0
*NODE, NSET=ISO_SECONDCAVITY_MIX_M_FLUX
301, 0., 0., 0.
302, 0.5, 0., 0.
303, 0.5, 0.5, 0.
304, 0., 0.5, 0.
305, 0., 0., 0.5
306, 0.5, 0., 0.5
307, 0.5, 0.5, 0.5
308, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SECONDCAVITY_MIX_M_FLUX_REF
3099, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
301, 302, 303, 304, 301
302, 308, 307, 306, 305
303, 305, 306, 302, 301
304, 306, 307, 303, 302
305, 307, 308, 304, 303
306, 308, 305, 301, 304
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SECONDCAVITY_MIX_M_FLUX, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SECONDCAVITY_MIX_M_FLUX
301, 302, 303, 304, 305, 306
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SECONDCAVITY_MIX_M_FLUX_SURF, TYPE=ELEMENT
ISO_SECONDCAVITY_MIX_M_FLUX, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SECONDCAVITY_MIX_M_FLUX_CAV , REF NODE=ISO_SECONDCAVITY_MIX_M_FLUX_REF, SURFACE=ISO_SECONDCAVITY_MIX_M_FLUX_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE

AIR, 0.0
NITROGEN, 1.0
**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ISO_DUALCAVITY_MIX_M_FLUX, PROPERTY=M_FLUX
2999, 3099
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_FIRSTCAVITY_MIX_M_FLUX_REF, 40
ISO_SECONDCAVITY_MIX_M_FLUX_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_FIRSTCAVITY_MIX_M_FLUX_REF, 4.0E5
**############################################################################################################
**       TEST CASE 23: Isothermal-Dual Cavity-Mixture(Air + Nitrogen)-Volume Flux Type Exchange Property
**############################################################################################################
*SYSTEM
8, 1, 0
*NODE, NSET=ISO_FIRSTCAVITY_MIX_V_FLUX
311, 0., 0., 0.
312, 0.5, 0., 0.
313, 0.5, 0.5, 0.
314, 0., 0.5, 0.
315, 0., 0., 0.5
316, 0.5, 0., 0.5
317, 0.5, 0.5, 0.5
318, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_FIRSTCAVITY_MIX_V_FLUX_REF
3199, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
311, 312, 313, 314, 311
312, 318, 317, 316, 315
313, 315, 316, 312, 311
314, 316, 317, 313, 312
315, 317, 318, 314, 313
316, 318, 315, 311, 314
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_FIRSTCAVITY_MIX_V_FLUX, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_FIRSTCAVITY_MIX_V_FLUX
311, 312, 313, 314, 315, 316
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_FIRSTCAVITY_MIX_V_FLUX_SURF, TYPE=ELEMENT
ISO_FIRSTCAVITY_MIX_V_FLUX, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_FIRSTCAVITY_MIX_V_FLUX_CAV , REF NODE=ISO_FIRSTCAVITY_MIX_V_FLUX_REF, SURFACE=ISO_FIRSTCAVITY_MIX_V_FLUX_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE

AIR, 1.0
NITROGEN, 0.0
*SYSTEM
10, 1, 0
*NODE, NSET=ISO_SECONDCAVITY_MIX_V_FLUX
321, 0., 0., 0.
322, 0.5, 0., 0.
323, 0.5, 0.5, 0.
324, 0., 0.5, 0.
325, 0., 0., 0.5
326, 0.5, 0., 0.5
327, 0.5, 0.5, 0.5
328, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SECONDCAVITY_MIX_V_FLUX_REF
3299, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
321, 322, 323, 324, 321
322, 328, 327, 326, 325
323, 325, 326, 322, 321
324, 326, 327, 323, 322
325, 327, 328, 324, 323
326, 328, 325, 321, 324
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SECONDCAVITY_MIX_V_FLUX, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SECONDCAVITY_MIX_V_FLUX
321, 322, 323, 324, 325, 326
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SECONDCAVITY_MIX_V_FLUX_SURF, TYPE=ELEMENT
ISO_SECONDCAVITY_MIX_V_FLUX, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SECONDCAVITY_MIX_V_FLUX_CAV , REF NODE=ISO_SECONDCAVITY_MIX_V_FLUX_REF, SURFACE=ISO_SECONDCAVITY_MIX_V_FLUX_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE

AIR, 0.0
NITROGEN, 1.0
**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ISO_DUALCAVITY_MIX_V_FLUX, PROPERTY=V_FLUX
3199, 3299
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_FIRSTCAVITY_MIX_V_FLUX_REF, 40
ISO_SECONDCAVITY_MIX_V_FLUX_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_FIRSTCAVITY_MIX_V_FLUX_REF, 4.0E5
**############################################################################################################
**       TEST CASE 24: Isothermal-Dual Cavity-Mixture(Air + Nitrogen)-Bulk Viscosity Type Exchange Property
**############################################################################################################
*SYSTEM
8, 2, 0
*NODE, NSET=ISO_FIRSTCAVITY_MIX_B_VISCOSITY
331, 0., 0., 0.
332, 0.5, 0., 0.
333, 0.5, 0.5, 0.
334, 0., 0.5, 0.
335, 0., 0., 0.5
336, 0.5, 0., 0.5
337, 0.5, 0.5, 0.5
338, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_FIRSTCAVITY_MIX_B_VISCOSITY_REF
3399, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
331, 332, 333, 334, 331
332, 338, 337, 336, 335
333, 335, 336, 332, 331
334, 336, 337, 333, 332
335, 337, 338, 334, 333
336, 338, 335, 331, 334
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_FIRSTCAVITY_MIX_B_VISCOSITY, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_FIRSTCAVITY_MIX_B_VISCOSITY
331, 332, 333, 334, 335, 336
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_FIRSTCAVITY_MIX_B_VISCOSITY_SURF, TYPE=ELEMENT
ISO_FIRSTCAVITY_MIX_B_VISCOSITY, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_FIRSTCAVITY_MIX_B_VISCOSITY_CAV , REF NODE=ISO_FIRSTCAVITY_MIX_B_VISCOSITY_REF, SURFACE=ISO_FIRSTCAVITY_MIX_B_VISCOSITY_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE

AIR, 1.0
NITROGEN, 0.0
*SYSTEM
10, 2, 0
*NODE, NSET=ISO_SECONDCAVITY_MIX_B_VISCOSITY
341, 0., 0., 0.
342, 0.5, 0., 0.
343, 0.5, 0.5, 0.
344, 0., 0.5, 0.
345, 0., 0., 0.5
346, 0.5, 0., 0.5
347, 0.5, 0.5, 0.5
348, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SECONDCAVITY_MIX_B_VISCOSITY_REF
3499, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
341, 342, 343, 344, 341
342, 348, 347, 346, 345
343, 345, 346, 342, 341
344, 346, 347, 343, 342
345, 347, 348, 344, 343
346, 348, 345, 341, 344
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SECONDCAVITY_MIX_B_VISCOSITY, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SECONDCAVITY_MIX_B_VISCOSITY
341, 342, 343, 344, 345, 346
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SECONDCAVITY_MIX_B_VISCOSITY_SURF, TYPE=ELEMENT
ISO_SECONDCAVITY_MIX_B_VISCOSITY, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SECONDCAVITY_MIX_B_VISCOSITY_CAV , REF NODE=ISO_SECONDCAVITY_MIX_B_VISCOSITY_REF, SURFACE=ISO_SECONDCAVITY_MIX_B_VISCOSITY_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE

AIR, 0.0
NITROGEN, 1.0
**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ISO_DUALCAVITY_MIX_B_VISCOSITY, PROPERTY=B_VISCOSITY
3399, 3499
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_FIRSTCAVITY_MIX_B_VISCOSITY_REF, 40
ISO_SECONDCAVITY_MIX_B_VISCOSITY_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_FIRSTCAVITY_MIX_B_VISCOSITY_REF, 4.0E5
**############################################################################################################
**       TEST CASE 25: Isothermal-Dual Cavity-Mixture(Air + Nitrogen)-Orifice Type Exchange Property
**############################################################################################################
*SYSTEM
8, 3, 0
*NODE, NSET=ISO_FIRSTCAVITY_MIX_ORIFICE_T
351, 0., 0., 0.
352, 0.5, 0., 0.
353, 0.5, 0.5, 0.
354, 0., 0.5, 0.
355, 0., 0., 0.5
356, 0.5, 0., 0.5
357, 0.5, 0.5, 0.5
358, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_FIRSTCAVITY_MIX_ORIFICE_T_REF
3599, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
351, 352, 353, 354, 351
352, 358, 357, 356, 355
353, 355, 356, 352, 351
354, 356, 357, 353, 352
355, 357, 358, 354, 353
356, 358, 355, 351, 354
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_FIRSTCAVITY_MIX_ORIFICE_T, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_FIRSTCAVITY_MIX_ORIFICE_T
351, 352, 353, 354, 355, 356
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_FIRSTCAVITY_MIX_ORIFICE_T_SURF, TYPE=ELEMENT
ISO_FIRSTCAVITY_MIX_ORIFICE_T, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_FIRSTCAVITY_MIX_ORIFICE_T_CAV , REF NODE=ISO_FIRSTCAVITY_MIX_ORIFICE_T_REF, SURFACE=ISO_FIRSTCAVITY_MIX_ORIFICE_T_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE

AIR, 1.0
NITROGEN, 0.0
*SYSTEM
10, 3, 0
*NODE, NSET=ISO_SECONDCAVITY_MIX_ORIFICE_T
361, 0., 0., 0.
362, 0.5, 0., 0.
363, 0.5, 0.5, 0.
364, 0., 0.5, 0.
365, 0., 0., 0.5
366, 0.5, 0., 0.5
367, 0.5, 0.5, 0.5
368, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SECONDCAVITY_MIX_ORIFICE_T_REF
3699, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
361, 362, 363, 364, 361
362, 368, 367, 366, 365
363, 365, 366, 362, 361
364, 366, 367, 363, 362
365, 367, 368, 364, 363
366, 368, 365, 361, 364
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SECONDCAVITY_MIX_ORIFICE_T, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SECONDCAVITY_MIX_ORIFICE_T
361, 362, 363, 364, 365, 366
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SECONDCAVITY_MIX_ORIFICE_T_SURF, TYPE=ELEMENT
ISO_SECONDCAVITY_MIX_ORIFICE_T, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SECONDCAVITY_MIX_ORIFICE_T_CAV , REF NODE=ISO_SECONDCAVITY_MIX_ORIFICE_T_REF, SURFACE=ISO_SECONDCAVITY_MIX_ORIFICE_T_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE

AIR, 0.0
NITROGEN, 1.0
**
**Fluid exchange definition
**
**
**Effective area for orifice is considered to be 0.002
**
*FLUID EXCHANGE, NAME=ISO_DUALCAVITY_MIX_ORIFICE_T, PROPERTY=ORIFICE_T, EFFECTIVE AREA=0.002
3599, 3699
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_FIRSTCAVITY_MIX_ORIFICE_T_REF, 40
ISO_SECONDCAVITY_MIX_ORIFICE_T_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_FIRSTCAVITY_MIX_ORIFICE_T_REF, 4.0E5
**############################################################################################################
**       TEST CASE 26: Isothermal-Dual Cavity-Mixture(Air + Nitrogen)-Fabric Leakage Type Exchange Property
**############################################################################################################
*SYSTEM
8, 4, 0
*NODE, NSET=ISO_FIRSTCAVITY_MIX_F_LEAKAGE
371, 0., 0., 0.
372, 0.5, 0., 0.
373, 0.5, 0.5, 0.
374, 0., 0.5, 0.
375, 0., 0., 0.5
376, 0.5, 0., 0.5
377, 0.5, 0.5, 0.5
378, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_FIRSTCAVITY_MIX_F_LEAKAGE_REF
3799, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
371, 372, 373, 374, 371
372, 378, 377, 376, 375
373, 375, 376, 372, 371
374, 376, 377, 373, 372
375, 377, 378, 374, 373
376, 378, 375, 371, 374
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_FIRSTCAVITY_MIX_F_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_FIRSTCAVITY_MIX_F_LEAKAGE
371, 372, 373, 374, 375, 376
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_FIRSTCAVITY_MIX_F_LEAKAGE_SURF, TYPE=ELEMENT
ISO_FIRSTCAVITY_MIX_F_LEAKAGE, SPOS
**
**Create surface on primary cavity to define effective area with fabric leakage type of exchange behavior
**
*SURFACE, NAME=ISO_FIRSTCAVITY_MIX_F_LEAKAGE_EFFECTIVE_A_SURF, TYPE=ELEMENT
371, SPOS
374, SPOS
372, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_FIRSTCAVITY_MIX_F_LEAKAGE_CAV , REF NODE=ISO_FIRSTCAVITY_MIX_F_LEAKAGE_REF, SURFACE=ISO_FIRSTCAVITY_MIX_F_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE

AIR, 1.0
NITROGEN, 0.0
*SYSTEM
10, 4, 0
*NODE, NSET=ISO_SECONDCAVITY_MIX_F_LEAKAGE
381, 0., 0., 0.
382, 0.5, 0., 0.
383, 0.5, 0.5, 0.
384, 0., 0.5, 0.
385, 0., 0., 0.5
386, 0.5, 0., 0.5
387, 0.5, 0.5, 0.5
388, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SECONDCAVITY_MIX_F_LEAKAGE_REF
3899, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
381, 382, 383, 384, 381
382, 388, 387, 386, 385
383, 385, 386, 382, 381
384, 386, 387, 383, 382
385, 387, 388, 384, 383
386, 388, 385, 381, 384
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SECONDCAVITY_MIX_F_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SECONDCAVITY_MIX_F_LEAKAGE
381, 382, 383, 384, 385, 386
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SECONDCAVITY_MIX_F_LEAKAGE_SURF, TYPE=ELEMENT
ISO_SECONDCAVITY_MIX_F_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SECONDCAVITY_MIX_F_LEAKAGE_CAV , REF NODE=ISO_SECONDCAVITY_MIX_F_LEAKAGE_REF, SURFACE=ISO_SECONDCAVITY_MIX_F_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE

AIR, 0.0
NITROGEN, 1.0
**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ISO_DUALCAVITY_MIX_F_LEAKAGE, PROPERTY=F_LEAKAGE, SURFACE=ISO_FIRSTCAVITY_MIX_F_LEAKAGE_EFFECTIVE_A_SURF
3799, 3899
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_FIRSTCAVITY_MIX_F_LEAKAGE_REF, 40
ISO_SECONDCAVITY_MIX_F_LEAKAGE_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_FIRSTCAVITY_MIX_F_LEAKAGE_REF, 4.0E5
**############################################################################################################
**       TEST CASE 27: Isothermal-Dual Cavity-Mixture(Air + Nitrogen)-Mass Rate Leakage Type Exchange Property
**############################################################################################################
*SYSTEM
8, 5, 0
*NODE, NSET=ISO_FIRSTCAVITY_MIX_MR_LEAKAGE
391, 0., 0., 0.
392, 0.5, 0., 0.
393, 0.5, 0.5, 0.
394, 0., 0.5, 0.
395, 0., 0., 0.5
396, 0.5, 0., 0.5
397, 0.5, 0.5, 0.5
398, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_FIRSTCAVITY_MIX_MR_LEAKAGE_REF
3999, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
391, 392, 393, 394, 391
392, 398, 397, 396, 395
393, 395, 396, 392, 391
394, 396, 397, 393, 392
395, 397, 398, 394, 393
396, 398, 395, 391, 394
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_FIRSTCAVITY_MIX_MR_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_FIRSTCAVITY_MIX_MR_LEAKAGE
391, 392, 393, 394, 395, 396
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_FIRSTCAVITY_MIX_MR_LEAKAGE_SURF, TYPE=ELEMENT
ISO_FIRSTCAVITY_MIX_MR_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_FIRSTCAVITY_MIX_MR_LEAKAGE_CAV , REF NODE=ISO_FIRSTCAVITY_MIX_MR_LEAKAGE_REF, SURFACE=ISO_FIRSTCAVITY_MIX_MR_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE

AIR, 1.0
NITROGEN, 0.0
*SYSTEM
10, 5, 0
*NODE, NSET=ISO_SECONDCAVITY_MIX_MR_LEAKAGE
401, 0., 0., 0.
402, 0.5, 0., 0.
403, 0.5, 0.5, 0.
404, 0., 0.5, 0.
405, 0., 0., 0.5
406, 0.5, 0., 0.5
407, 0.5, 0.5, 0.5
408, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SECONDCAVITY_MIX_MR_LEAKAGE_REF
4099, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
401, 402, 403, 404, 401
402, 408, 407, 406, 405
403, 405, 406, 402, 401
404, 406, 407, 403, 402
405, 407, 408, 404, 403
406, 408, 405, 401, 404
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SECONDCAVITY_MIX_MR_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SECONDCAVITY_MIX_MR_LEAKAGE
401, 402, 403, 404, 405, 406
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SECONDCAVITY_MIX_MR_LEAKAGE_SURF, TYPE=ELEMENT
ISO_SECONDCAVITY_MIX_MR_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SECONDCAVITY_MIX_MR_LEAKAGE_CAV , REF NODE=ISO_SECONDCAVITY_MIX_MR_LEAKAGE_REF, SURFACE=ISO_SECONDCAVITY_MIX_MR_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE

AIR, 0.0
NITROGEN, 1.0
**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ISO_DUALCAVITY_MIX_MR_LEAKAGE, PROPERTY=MR_LEAKAGE
3999, 4099
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_FIRSTCAVITY_MIX_MR_LEAKAGE_REF, 40
ISO_SECONDCAVITY_MIX_MR_LEAKAGE_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_FIRSTCAVITY_MIX_MR_LEAKAGE_REF, 4.0E5
**############################################################################################################
**       TEST CASE 28: Isothermal-Dual Cavity-Mixture(Air + Nitrogen)-Volume Rate Leakage Type Exchange Property
**############################################################################################################
*SYSTEM
8, 6, 0
*NODE, NSET=ISO_FIRSTCAVITY_MIX_VR_LEAKAGE
411, 0., 0., 0.
412, 0.5, 0., 0.
413, 0.5, 0.5, 0.
414, 0., 0.5, 0.
415, 0., 0., 0.5
416, 0.5, 0., 0.5
417, 0.5, 0.5, 0.5
418, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_FIRSTCAVITY_MIX_VR_LEAKAGE_REF
4199, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
411, 412, 413, 414, 411
412, 418, 417, 416, 415
413, 415, 416, 412, 411
414, 416, 417, 413, 412
415, 417, 418, 414, 413
416, 418, 415, 411, 414
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_FIRSTCAVITY_MIX_VR_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_FIRSTCAVITY_MIX_VR_LEAKAGE
411, 412, 413, 414, 415, 416
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_FIRSTCAVITY_MIX_VR_LEAKAGE_SURF, TYPE=ELEMENT
ISO_FIRSTCAVITY_MIX_VR_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_FIRSTCAVITY_MIX_VR_LEAKAGE_CAV , REF NODE=ISO_FIRSTCAVITY_MIX_VR_LEAKAGE_REF, SURFACE=ISO_FIRSTCAVITY_MIX_VR_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE

AIR, 1.0
NITROGEN, 0.0
*SYSTEM
10, 6, 0
*NODE, NSET=ISO_SECONDCAVITY_MIX_VR_LEAKAGE
421, 0., 0., 0.
422, 0.5, 0., 0.
423, 0.5, 0.5, 0.
424, 0., 0.5, 0.
425, 0., 0., 0.5
426, 0.5, 0., 0.5
427, 0.5, 0.5, 0.5
428, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ISO_SECONDCAVITY_MIX_VR_LEAKAGE_REF
4299, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
421, 422, 423, 424, 421
422, 428, 427, 426, 425
423, 425, 426, 422, 421
424, 426, 427, 423, 422
425, 427, 428, 424, 423
426, 428, 425, 421, 424
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ISO_SECONDCAVITY_MIX_VR_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ISO_SECONDCAVITY_MIX_VR_LEAKAGE
421, 422, 423, 424, 425, 426
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ISO_SECONDCAVITY_MIX_VR_LEAKAGE_SURF, TYPE=ELEMENT
ISO_SECONDCAVITY_MIX_VR_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ISO_SECONDCAVITY_MIX_VR_LEAKAGE_CAV , REF NODE=ISO_SECONDCAVITY_MIX_VR_LEAKAGE_REF, SURFACE=ISO_SECONDCAVITY_MIX_VR_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE

AIR, 0.0
NITROGEN, 1.0
**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ISO_DUALCAVITY_MIX_VR_LEAKAGE, PROPERTY=VR_LEAKAGE
4199, 4299
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ISO_FIRSTCAVITY_MIX_VR_LEAKAGE_REF, 40
ISO_SECONDCAVITY_MIX_VR_LEAKAGE_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ISO_FIRSTCAVITY_MIX_VR_LEAKAGE_REF, 4.0E5
**############################################################################################################
**       TEST CASE 29: Adiabatic-Single Cavity-One Gas(Air)-Mass Flux Type Exchange Property
**############################################################################################################
*SYSTEM
12, 0, 0
*NODE, NSET=ADB_SINGLECAVITY_1GAS_M_FLUX
431, 0., 0., 0.
432, 0.5, 0., 0.
433, 0.5, 0.5, 0.
434, 0., 0.5, 0.
435, 0., 0., 0.5
436, 0.5, 0., 0.5
437, 0.5, 0.5, 0.5
438, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SINGLECAVITY_1GAS_M_FLUX_REF
4399, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
431, 432, 433, 434, 431
432, 438, 437, 436, 435
433, 435, 436, 432, 431
434, 436, 437, 433, 432
435, 437, 438, 434, 433
436, 438, 435, 431, 434
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SINGLECAVITY_1GAS_M_FLUX, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SINGLECAVITY_1GAS_M_FLUX
431, 432, 433, 434, 435, 436
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SINGLECAVITY_1GAS_M_FLUX_SURF, TYPE=ELEMENT
ADB_SINGLECAVITY_1GAS_M_FLUX, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SINGLECAVITY_1GAS_M_FLUX_CAV, BEHAVIOR=AIR, REF NODE=ADB_SINGLECAVITY_1GAS_M_FLUX_REF, SURFACE=ADB_SINGLECAVITY_1GAS_M_FLUX_SURF, AMBIENT PRESSURE=1.0E5, ADIABATIC

**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ADB_SINGLECAVITY_1GAS_M_FLUX, PROPERTY=M_FLUX
4399
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_SINGLECAVITY_1GAS_M_FLUX_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_SINGLECAVITY_1GAS_M_FLUX_REF, 4.0E5
**############################################################################################################
**       TEST CASE 30: Adiabatic-Single Cavity-One Gas(Air)-Volume Flux Type Exchange Property
**############################################################################################################
*SYSTEM
12, 1, 0
*NODE, NSET=ADB_SINGLECAVITY_1GAS_V_FLUX
441, 0., 0., 0.
442, 0.5, 0., 0.
443, 0.5, 0.5, 0.
444, 0., 0.5, 0.
445, 0., 0., 0.5
446, 0.5, 0., 0.5
447, 0.5, 0.5, 0.5
448, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SINGLECAVITY_1GAS_V_FLUX_REF
4499, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
441, 442, 443, 444, 441
442, 448, 447, 446, 445
443, 445, 446, 442, 441
444, 446, 447, 443, 442
445, 447, 448, 444, 443
446, 448, 445, 441, 444
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SINGLECAVITY_1GAS_V_FLUX, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SINGLECAVITY_1GAS_V_FLUX
441, 442, 443, 444, 445, 446
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SINGLECAVITY_1GAS_V_FLUX_SURF, TYPE=ELEMENT
ADB_SINGLECAVITY_1GAS_V_FLUX, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SINGLECAVITY_1GAS_V_FLUX_CAV, BEHAVIOR=AIR, REF NODE=ADB_SINGLECAVITY_1GAS_V_FLUX_REF, SURFACE=ADB_SINGLECAVITY_1GAS_V_FLUX_SURF, AMBIENT PRESSURE=1.0E5, ADIABATIC

**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ADB_SINGLECAVITY_1GAS_V_FLUX, PROPERTY=V_FLUX
4499
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_SINGLECAVITY_1GAS_V_FLUX_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_SINGLECAVITY_1GAS_V_FLUX_REF, 4.0E5
**############################################################################################################
**       TEST CASE 31: Adiabatic-Single Cavity-One Gas(Air)-Bulk Viscosity Type Exchange Property
**############################################################################################################
*SYSTEM
12, 2, 0
*NODE, NSET=ADB_SINGLECAVITY_1GAS_B_VISCOSITY
451, 0., 0., 0.
452, 0.5, 0., 0.
453, 0.5, 0.5, 0.
454, 0., 0.5, 0.
455, 0., 0., 0.5
456, 0.5, 0., 0.5
457, 0.5, 0.5, 0.5
458, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SINGLECAVITY_1GAS_B_VISCOSITY_REF
4599, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
451, 452, 453, 454, 451
452, 458, 457, 456, 455
453, 455, 456, 452, 451
454, 456, 457, 453, 452
455, 457, 458, 454, 453
456, 458, 455, 451, 454
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SINGLECAVITY_1GAS_B_VISCOSITY, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SINGLECAVITY_1GAS_B_VISCOSITY
451, 452, 453, 454, 455, 456
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SINGLECAVITY_1GAS_B_VISCOSITY_SURF, TYPE=ELEMENT
ADB_SINGLECAVITY_1GAS_B_VISCOSITY, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SINGLECAVITY_1GAS_B_VISCOSITY_CAV, BEHAVIOR=AIR, REF NODE=ADB_SINGLECAVITY_1GAS_B_VISCOSITY_REF, SURFACE=ADB_SINGLECAVITY_1GAS_B_VISCOSITY_SURF, AMBIENT PRESSURE=1.0E5, ADIABATIC

**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ADB_SINGLECAVITY_1GAS_B_VISCOSITY, PROPERTY=B_VISCOSITY
4599
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_SINGLECAVITY_1GAS_B_VISCOSITY_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_SINGLECAVITY_1GAS_B_VISCOSITY_REF, 4.0E5
**############################################################################################################
**       TEST CASE 32: Adiabatic-Single Cavity-One Gas(Air)-Orifice Type Exchange Property
**############################################################################################################
*SYSTEM
12, 3, 0
*NODE, NSET=ADB_SINGLECAVITY_1GAS_ORIFICE_T
461, 0., 0., 0.
462, 0.5, 0., 0.
463, 0.5, 0.5, 0.
464, 0., 0.5, 0.
465, 0., 0., 0.5
466, 0.5, 0., 0.5
467, 0.5, 0.5, 0.5
468, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SINGLECAVITY_1GAS_ORIFICE_T_REF
4699, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
461, 462, 463, 464, 461
462, 468, 467, 466, 465
463, 465, 466, 462, 461
464, 466, 467, 463, 462
465, 467, 468, 464, 463
466, 468, 465, 461, 464
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SINGLECAVITY_1GAS_ORIFICE_T, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SINGLECAVITY_1GAS_ORIFICE_T
461, 462, 463, 464, 465, 466
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SINGLECAVITY_1GAS_ORIFICE_T_SURF, TYPE=ELEMENT
ADB_SINGLECAVITY_1GAS_ORIFICE_T, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SINGLECAVITY_1GAS_ORIFICE_T_CAV, BEHAVIOR=AIR, REF NODE=ADB_SINGLECAVITY_1GAS_ORIFICE_T_REF, SURFACE=ADB_SINGLECAVITY_1GAS_ORIFICE_T_SURF, AMBIENT PRESSURE=1.0E5, ADIABATIC

**
**Fluid exchange definition
**
**
**Effective area for orifice is considered to be 0.002
**
*FLUID EXCHANGE, NAME=ADB_SINGLECAVITY_1GAS_ORIFICE_T, PROPERTY=ORIFICE_T, EFFECTIVE AREA=0.002
4699
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_SINGLECAVITY_1GAS_ORIFICE_T_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_SINGLECAVITY_1GAS_ORIFICE_T_REF, 4.0E5
**############################################################################################################
**       TEST CASE 33: Adiabatic-Single Cavity-One Gas(Air)-Fabric Leakage Type Exchange Property
**############################################################################################################
*SYSTEM
12, 4, 0
*NODE, NSET=ADB_SINGLECAVITY_1GAS_F_LEAKAGE
471, 0., 0., 0.
472, 0.5, 0., 0.
473, 0.5, 0.5, 0.
474, 0., 0.5, 0.
475, 0., 0., 0.5
476, 0.5, 0., 0.5
477, 0.5, 0.5, 0.5
478, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SINGLECAVITY_1GAS_F_LEAKAGE_REF
4799, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
471, 472, 473, 474, 471
472, 478, 477, 476, 475
473, 475, 476, 472, 471
474, 476, 477, 473, 472
475, 477, 478, 474, 473
476, 478, 475, 471, 474
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SINGLECAVITY_1GAS_F_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SINGLECAVITY_1GAS_F_LEAKAGE
471, 472, 473, 474, 475, 476
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SINGLECAVITY_1GAS_F_LEAKAGE_SURF, TYPE=ELEMENT
ADB_SINGLECAVITY_1GAS_F_LEAKAGE, SPOS
**
**Create surface on primary cavity to define effective area with fabric leakage type of exchange behavior
**
*SURFACE, NAME=ADB_SINGLECAVITY_1GAS_F_LEAKAGE_EFFECTIVE_A_SURF, TYPE=ELEMENT
471, SPOS
474, SPOS
472, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SINGLECAVITY_1GAS_F_LEAKAGE_CAV, BEHAVIOR=AIR, REF NODE=ADB_SINGLECAVITY_1GAS_F_LEAKAGE_REF, SURFACE=ADB_SINGLECAVITY_1GAS_F_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, ADIABATIC

**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ADB_SINGLECAVITY_1GAS_F_LEAKAGE, PROPERTY=F_LEAKAGE, SURFACE=ADB_SINGLECAVITY_1GAS_F_LEAKAGE_EFFECTIVE_A_SURF
4799
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_SINGLECAVITY_1GAS_F_LEAKAGE_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_SINGLECAVITY_1GAS_F_LEAKAGE_REF, 4.0E5
**############################################################################################################
**       TEST CASE 34: Adiabatic-Single Cavity-One Gas(Air)-Mass Rate Leakage Type Exchange Property
**############################################################################################################
*SYSTEM
12, 5, 0
*NODE, NSET=ADB_SINGLECAVITY_1GAS_MR_LEAKAGE
481, 0., 0., 0.
482, 0.5, 0., 0.
483, 0.5, 0.5, 0.
484, 0., 0.5, 0.
485, 0., 0., 0.5
486, 0.5, 0., 0.5
487, 0.5, 0.5, 0.5
488, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SINGLECAVITY_1GAS_MR_LEAKAGE_REF
4899, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
481, 482, 483, 484, 481
482, 488, 487, 486, 485
483, 485, 486, 482, 481
484, 486, 487, 483, 482
485, 487, 488, 484, 483
486, 488, 485, 481, 484
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SINGLECAVITY_1GAS_MR_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SINGLECAVITY_1GAS_MR_LEAKAGE
481, 482, 483, 484, 485, 486
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SINGLECAVITY_1GAS_MR_LEAKAGE_SURF, TYPE=ELEMENT
ADB_SINGLECAVITY_1GAS_MR_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SINGLECAVITY_1GAS_MR_LEAKAGE_CAV, BEHAVIOR=AIR, REF NODE=ADB_SINGLECAVITY_1GAS_MR_LEAKAGE_REF, SURFACE=ADB_SINGLECAVITY_1GAS_MR_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, ADIABATIC

**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ADB_SINGLECAVITY_1GAS_MR_LEAKAGE, PROPERTY=MR_LEAKAGE
4899
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_SINGLECAVITY_1GAS_MR_LEAKAGE_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_SINGLECAVITY_1GAS_MR_LEAKAGE_REF, 4.0E5
**############################################################################################################
**       TEST CASE 35: Adiabatic-Single Cavity-One Gas(Air)-Volume Rate Leakage Type Exchange Property
**############################################################################################################
*SYSTEM
12, 6, 0
*NODE, NSET=ADB_SINGLECAVITY_1GAS_VR_LEAKAGE
491, 0., 0., 0.
492, 0.5, 0., 0.
493, 0.5, 0.5, 0.
494, 0., 0.5, 0.
495, 0., 0., 0.5
496, 0.5, 0., 0.5
497, 0.5, 0.5, 0.5
498, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SINGLECAVITY_1GAS_VR_LEAKAGE_REF
4999, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
491, 492, 493, 494, 491
492, 498, 497, 496, 495
493, 495, 496, 492, 491
494, 496, 497, 493, 492
495, 497, 498, 494, 493
496, 498, 495, 491, 494
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SINGLECAVITY_1GAS_VR_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SINGLECAVITY_1GAS_VR_LEAKAGE
491, 492, 493, 494, 495, 496
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SINGLECAVITY_1GAS_VR_LEAKAGE_SURF, TYPE=ELEMENT
ADB_SINGLECAVITY_1GAS_VR_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SINGLECAVITY_1GAS_VR_LEAKAGE_CAV, BEHAVIOR=AIR, REF NODE=ADB_SINGLECAVITY_1GAS_VR_LEAKAGE_REF, SURFACE=ADB_SINGLECAVITY_1GAS_VR_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, ADIABATIC

**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ADB_SINGLECAVITY_1GAS_VR_LEAKAGE, PROPERTY=VR_LEAKAGE
4999
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_SINGLECAVITY_1GAS_VR_LEAKAGE_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_SINGLECAVITY_1GAS_VR_LEAKAGE_REF, 4.0E5
**############################################################################################################
**       TEST CASE 36: Adiabatic-Single Cavity-Mixture(Air + Nitrogen)-Mass Flux Type Exchange Property
**############################################################################################################
*SYSTEM
14, 0, 0
*NODE, NSET=ADB_SINGLECAVITY_MIX_M_FLUX
501, 0., 0., 0.
502, 0.5, 0., 0.
503, 0.5, 0.5, 0.
504, 0., 0.5, 0.
505, 0., 0., 0.5
506, 0.5, 0., 0.5
507, 0.5, 0.5, 0.5
508, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SINGLECAVITY_MIX_M_FLUX_REF
5099, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
501, 502, 503, 504, 501
502, 508, 507, 506, 505
503, 505, 506, 502, 501
504, 506, 507, 503, 502
505, 507, 508, 504, 503
506, 508, 505, 501, 504
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SINGLECAVITY_MIX_M_FLUX, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SINGLECAVITY_MIX_M_FLUX
501, 502, 503, 504, 505, 506
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SINGLECAVITY_MIX_M_FLUX_SURF, TYPE=ELEMENT
ADB_SINGLECAVITY_MIX_M_FLUX, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SINGLECAVITY_MIX_M_FLUX_CAV , REF NODE=ADB_SINGLECAVITY_MIX_M_FLUX_REF, SURFACE=ADB_SINGLECAVITY_MIX_M_FLUX_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE, ADIABATIC

AIR, 0.6
NITROGEN, 0.4
**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ADB_SINGLECAVITY_MIX_M_FLUX, PROPERTY=M_FLUX
5099
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_SINGLECAVITY_MIX_M_FLUX_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_SINGLECAVITY_MIX_M_FLUX_REF, 4.0E5
**############################################################################################################
**       TEST CASE 37: Adiabatic-Single Cavity-Mixture(Air + Nitrogen)-Volume Flux Type Exchange Property
**############################################################################################################
*SYSTEM
14, 1, 0
*NODE, NSET=ADB_SINGLECAVITY_MIX_V_FLUX
511, 0., 0., 0.
512, 0.5, 0., 0.
513, 0.5, 0.5, 0.
514, 0., 0.5, 0.
515, 0., 0., 0.5
516, 0.5, 0., 0.5
517, 0.5, 0.5, 0.5
518, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SINGLECAVITY_MIX_V_FLUX_REF
5199, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
511, 512, 513, 514, 511
512, 518, 517, 516, 515
513, 515, 516, 512, 511
514, 516, 517, 513, 512
515, 517, 518, 514, 513
516, 518, 515, 511, 514
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SINGLECAVITY_MIX_V_FLUX, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SINGLECAVITY_MIX_V_FLUX
511, 512, 513, 514, 515, 516
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SINGLECAVITY_MIX_V_FLUX_SURF, TYPE=ELEMENT
ADB_SINGLECAVITY_MIX_V_FLUX, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SINGLECAVITY_MIX_V_FLUX_CAV , REF NODE=ADB_SINGLECAVITY_MIX_V_FLUX_REF, SURFACE=ADB_SINGLECAVITY_MIX_V_FLUX_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE, ADIABATIC

AIR, 0.6
NITROGEN, 0.4
**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ADB_SINGLECAVITY_MIX_V_FLUX, PROPERTY=V_FLUX
5199
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_SINGLECAVITY_MIX_V_FLUX_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_SINGLECAVITY_MIX_V_FLUX_REF, 4.0E5
**############################################################################################################
**       TEST CASE 38: Adiabatic-Single Cavity-Mixture(Air + Nitrogen)-Bulk Viscosity Type Exchange Property
**############################################################################################################
*SYSTEM
14, 2, 0
*NODE, NSET=ADB_SINGLECAVITY_MIX_B_VISCOSITY
521, 0., 0., 0.
522, 0.5, 0., 0.
523, 0.5, 0.5, 0.
524, 0., 0.5, 0.
525, 0., 0., 0.5
526, 0.5, 0., 0.5
527, 0.5, 0.5, 0.5
528, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SINGLECAVITY_MIX_B_VISCOSITY_REF
5299, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
521, 522, 523, 524, 521
522, 528, 527, 526, 525
523, 525, 526, 522, 521
524, 526, 527, 523, 522
525, 527, 528, 524, 523
526, 528, 525, 521, 524
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SINGLECAVITY_MIX_B_VISCOSITY, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SINGLECAVITY_MIX_B_VISCOSITY
521, 522, 523, 524, 525, 526
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SINGLECAVITY_MIX_B_VISCOSITY_SURF, TYPE=ELEMENT
ADB_SINGLECAVITY_MIX_B_VISCOSITY, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SINGLECAVITY_MIX_B_VISCOSITY_CAV , REF NODE=ADB_SINGLECAVITY_MIX_B_VISCOSITY_REF, SURFACE=ADB_SINGLECAVITY_MIX_B_VISCOSITY_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE, ADIABATIC

AIR, 0.6
NITROGEN, 0.4
**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ADB_SINGLECAVITY_MIX_B_VISCOSITY, PROPERTY=B_VISCOSITY
5299
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_SINGLECAVITY_MIX_B_VISCOSITY_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_SINGLECAVITY_MIX_B_VISCOSITY_REF, 4.0E5
**############################################################################################################
**       TEST CASE 39: Adiabatic-Single Cavity-Mixture(Air + Nitrogen)-Orifice Type Exchange Property
**############################################################################################################
*SYSTEM
14, 3, 0
*NODE, NSET=ADB_SINGLECAVITY_MIX_ORIFICE_T
531, 0., 0., 0.
532, 0.5, 0., 0.
533, 0.5, 0.5, 0.
534, 0., 0.5, 0.
535, 0., 0., 0.5
536, 0.5, 0., 0.5
537, 0.5, 0.5, 0.5
538, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SINGLECAVITY_MIX_ORIFICE_T_REF
5399, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
531, 532, 533, 534, 531
532, 538, 537, 536, 535
533, 535, 536, 532, 531
534, 536, 537, 533, 532
535, 537, 538, 534, 533
536, 538, 535, 531, 534
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SINGLECAVITY_MIX_ORIFICE_T, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SINGLECAVITY_MIX_ORIFICE_T
531, 532, 533, 534, 535, 536
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SINGLECAVITY_MIX_ORIFICE_T_SURF, TYPE=ELEMENT
ADB_SINGLECAVITY_MIX_ORIFICE_T, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SINGLECAVITY_MIX_ORIFICE_T_CAV , REF NODE=ADB_SINGLECAVITY_MIX_ORIFICE_T_REF, SURFACE=ADB_SINGLECAVITY_MIX_ORIFICE_T_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE, ADIABATIC

AIR, 0.6
NITROGEN, 0.4
**
**Fluid exchange definition
**
**
**Effective area for orifice is considered to be 0.002
**
*FLUID EXCHANGE, NAME=ADB_SINGLECAVITY_MIX_ORIFICE_T, PROPERTY=ORIFICE_T, EFFECTIVE AREA=0.002
5399
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_SINGLECAVITY_MIX_ORIFICE_T_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_SINGLECAVITY_MIX_ORIFICE_T_REF, 4.0E5
**############################################################################################################
**       TEST CASE 40: Adiabatic-Single Cavity-Mixture(Air + Nitrogen)-Fabric Leakage Type Exchange Property
**############################################################################################################
*SYSTEM
14, 4, 0
*NODE, NSET=ADB_SINGLECAVITY_MIX_F_LEAKAGE
541, 0., 0., 0.
542, 0.5, 0., 0.
543, 0.5, 0.5, 0.
544, 0., 0.5, 0.
545, 0., 0., 0.5
546, 0.5, 0., 0.5
547, 0.5, 0.5, 0.5
548, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SINGLECAVITY_MIX_F_LEAKAGE_REF
5499, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
541, 542, 543, 544, 541
542, 548, 547, 546, 545
543, 545, 546, 542, 541
544, 546, 547, 543, 542
545, 547, 548, 544, 543
546, 548, 545, 541, 544
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SINGLECAVITY_MIX_F_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SINGLECAVITY_MIX_F_LEAKAGE
541, 542, 543, 544, 545, 546
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SINGLECAVITY_MIX_F_LEAKAGE_SURF, TYPE=ELEMENT
ADB_SINGLECAVITY_MIX_F_LEAKAGE, SPOS
**
**Create surface on primary cavity to define effective area with fabric leakage type of exchange behavior
**
*SURFACE, NAME=ADB_SINGLECAVITY_MIX_F_LEAKAGE_EFFECTIVE_A_SURF, TYPE=ELEMENT
541, SPOS
544, SPOS
542, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SINGLECAVITY_MIX_F_LEAKAGE_CAV , REF NODE=ADB_SINGLECAVITY_MIX_F_LEAKAGE_REF, SURFACE=ADB_SINGLECAVITY_MIX_F_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE, ADIABATIC

AIR, 0.6
NITROGEN, 0.4
**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ADB_SINGLECAVITY_MIX_F_LEAKAGE, PROPERTY=F_LEAKAGE, SURFACE=ADB_SINGLECAVITY_MIX_F_LEAKAGE_EFFECTIVE_A_SURF
5499
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_SINGLECAVITY_MIX_F_LEAKAGE_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_SINGLECAVITY_MIX_F_LEAKAGE_REF, 4.0E5
**############################################################################################################
**       TEST CASE 41: Adiabatic-Single Cavity-Mixture(Air + Nitrogen)-Mass Rate Leakage Type Exchange Property
**############################################################################################################
*SYSTEM
14, 5, 0
*NODE, NSET=ADB_SINGLECAVITY_MIX_MR_LEAKAGE
551, 0., 0., 0.
552, 0.5, 0., 0.
553, 0.5, 0.5, 0.
554, 0., 0.5, 0.
555, 0., 0., 0.5
556, 0.5, 0., 0.5
557, 0.5, 0.5, 0.5
558, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SINGLECAVITY_MIX_MR_LEAKAGE_REF
5599, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
551, 552, 553, 554, 551
552, 558, 557, 556, 555
553, 555, 556, 552, 551
554, 556, 557, 553, 552
555, 557, 558, 554, 553
556, 558, 555, 551, 554
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SINGLECAVITY_MIX_MR_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SINGLECAVITY_MIX_MR_LEAKAGE
551, 552, 553, 554, 555, 556
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SINGLECAVITY_MIX_MR_LEAKAGE_SURF, TYPE=ELEMENT
ADB_SINGLECAVITY_MIX_MR_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SINGLECAVITY_MIX_MR_LEAKAGE_CAV , REF NODE=ADB_SINGLECAVITY_MIX_MR_LEAKAGE_REF, SURFACE=ADB_SINGLECAVITY_MIX_MR_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE, ADIABATIC

AIR, 0.6
NITROGEN, 0.4
**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ADB_SINGLECAVITY_MIX_MR_LEAKAGE, PROPERTY=MR_LEAKAGE
5599
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_SINGLECAVITY_MIX_MR_LEAKAGE_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_SINGLECAVITY_MIX_MR_LEAKAGE_REF, 4.0E5
**############################################################################################################
**       TEST CASE 42: Adiabatic-Single Cavity-Mixture(Air + Nitrogen)-Volume Rate Leakage Type Exchange Property
**############################################################################################################
*SYSTEM
14, 6, 0
*NODE, NSET=ADB_SINGLECAVITY_MIX_VR_LEAKAGE
561, 0., 0., 0.
562, 0.5, 0., 0.
563, 0.5, 0.5, 0.
564, 0., 0.5, 0.
565, 0., 0., 0.5
566, 0.5, 0., 0.5
567, 0.5, 0.5, 0.5
568, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SINGLECAVITY_MIX_VR_LEAKAGE_REF
5699, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
561, 562, 563, 564, 561
562, 568, 567, 566, 565
563, 565, 566, 562, 561
564, 566, 567, 563, 562
565, 567, 568, 564, 563
566, 568, 565, 561, 564
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SINGLECAVITY_MIX_VR_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SINGLECAVITY_MIX_VR_LEAKAGE
561, 562, 563, 564, 565, 566
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SINGLECAVITY_MIX_VR_LEAKAGE_SURF, TYPE=ELEMENT
ADB_SINGLECAVITY_MIX_VR_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SINGLECAVITY_MIX_VR_LEAKAGE_CAV , REF NODE=ADB_SINGLECAVITY_MIX_VR_LEAKAGE_REF, SURFACE=ADB_SINGLECAVITY_MIX_VR_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE, ADIABATIC

AIR, 0.6
NITROGEN, 0.4
**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ADB_SINGLECAVITY_MIX_VR_LEAKAGE, PROPERTY=VR_LEAKAGE
5699
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_SINGLECAVITY_MIX_VR_LEAKAGE_REF, 40
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_SINGLECAVITY_MIX_VR_LEAKAGE_REF, 4.0E5
**############################################################################################################
**       TEST CASE 43: Adiabatic-Dual Cavity-One Gas(Air)-Mass Flux Type Exchange Property
**############################################################################################################
*SYSTEM
16, 0, 0
*NODE, NSET=ADB_FIRSTCAVITY_1GAS_M_FLUX
571, 0., 0., 0.
572, 0.5, 0., 0.
573, 0.5, 0.5, 0.
574, 0., 0.5, 0.
575, 0., 0., 0.5
576, 0.5, 0., 0.5
577, 0.5, 0.5, 0.5
578, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_FIRSTCAVITY_1GAS_M_FLUX_REF
5799, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
571, 572, 573, 574, 571
572, 578, 577, 576, 575
573, 575, 576, 572, 571
574, 576, 577, 573, 572
575, 577, 578, 574, 573
576, 578, 575, 571, 574
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_FIRSTCAVITY_1GAS_M_FLUX, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_FIRSTCAVITY_1GAS_M_FLUX
571, 572, 573, 574, 575, 576
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_FIRSTCAVITY_1GAS_M_FLUX_SURF, TYPE=ELEMENT
ADB_FIRSTCAVITY_1GAS_M_FLUX, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_FIRSTCAVITY_1GAS_M_FLUX_CAV, BEHAVIOR=AIR, REF NODE=ADB_FIRSTCAVITY_1GAS_M_FLUX_REF, SURFACE=ADB_FIRSTCAVITY_1GAS_M_FLUX_SURF, AMBIENT PRESSURE=1.0E5, ADIABATIC

*SYSTEM
18, 0, 0
*NODE, NSET=ADB_SECONDCAVITY_1GAS_M_FLUX
581, 0., 0., 0.
582, 0.5, 0., 0.
583, 0.5, 0.5, 0.
584, 0., 0.5, 0.
585, 0., 0., 0.5
586, 0.5, 0., 0.5
587, 0.5, 0.5, 0.5
588, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SECONDCAVITY_1GAS_M_FLUX_REF
5899, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
581, 582, 583, 584, 581
582, 588, 587, 586, 585
583, 585, 586, 582, 581
584, 586, 587, 583, 582
585, 587, 588, 584, 583
586, 588, 585, 581, 584
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SECONDCAVITY_1GAS_M_FLUX, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SECONDCAVITY_1GAS_M_FLUX
581, 582, 583, 584, 585, 586
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SECONDCAVITY_1GAS_M_FLUX_SURF, TYPE=ELEMENT
ADB_SECONDCAVITY_1GAS_M_FLUX, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SECONDCAVITY_1GAS_M_FLUX_CAV, BEHAVIOR=AIR, REF NODE=ADB_SECONDCAVITY_1GAS_M_FLUX_REF, SURFACE=ADB_SECONDCAVITY_1GAS_M_FLUX_SURF, AMBIENT PRESSURE=1.0E5, ADIABATIC

**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ADB_DUALCAVITY_1GAS_M_FLUX, PROPERTY=M_FLUX
5799, 5899
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_FIRSTCAVITY_1GAS_M_FLUX_REF, 40
ADB_SECONDCAVITY_1GAS_M_FLUX_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_FIRSTCAVITY_1GAS_M_FLUX_REF, 4.0E5
**############################################################################################################
**       TEST CASE 44: Adiabatic-Dual Cavity-One Gas(Air)-Volume Flux Type Exchange Property
**############################################################################################################
*SYSTEM
16, 1, 0
*NODE, NSET=ADB_FIRSTCAVITY_1GAS_V_FLUX
591, 0., 0., 0.
592, 0.5, 0., 0.
593, 0.5, 0.5, 0.
594, 0., 0.5, 0.
595, 0., 0., 0.5
596, 0.5, 0., 0.5
597, 0.5, 0.5, 0.5
598, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_FIRSTCAVITY_1GAS_V_FLUX_REF
5999, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
591, 592, 593, 594, 591
592, 598, 597, 596, 595
593, 595, 596, 592, 591
594, 596, 597, 593, 592
595, 597, 598, 594, 593
596, 598, 595, 591, 594
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_FIRSTCAVITY_1GAS_V_FLUX, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_FIRSTCAVITY_1GAS_V_FLUX
591, 592, 593, 594, 595, 596
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_FIRSTCAVITY_1GAS_V_FLUX_SURF, TYPE=ELEMENT
ADB_FIRSTCAVITY_1GAS_V_FLUX, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_FIRSTCAVITY_1GAS_V_FLUX_CAV, BEHAVIOR=AIR, REF NODE=ADB_FIRSTCAVITY_1GAS_V_FLUX_REF, SURFACE=ADB_FIRSTCAVITY_1GAS_V_FLUX_SURF, AMBIENT PRESSURE=1.0E5, ADIABATIC

*SYSTEM
18, 1, 0
*NODE, NSET=ADB_SECONDCAVITY_1GAS_V_FLUX
601, 0., 0., 0.
602, 0.5, 0., 0.
603, 0.5, 0.5, 0.
604, 0., 0.5, 0.
605, 0., 0., 0.5
606, 0.5, 0., 0.5
607, 0.5, 0.5, 0.5
608, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SECONDCAVITY_1GAS_V_FLUX_REF
6099, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
601, 602, 603, 604, 601
602, 608, 607, 606, 605
603, 605, 606, 602, 601
604, 606, 607, 603, 602
605, 607, 608, 604, 603
606, 608, 605, 601, 604
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SECONDCAVITY_1GAS_V_FLUX, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SECONDCAVITY_1GAS_V_FLUX
601, 602, 603, 604, 605, 606
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SECONDCAVITY_1GAS_V_FLUX_SURF, TYPE=ELEMENT
ADB_SECONDCAVITY_1GAS_V_FLUX, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SECONDCAVITY_1GAS_V_FLUX_CAV, BEHAVIOR=AIR, REF NODE=ADB_SECONDCAVITY_1GAS_V_FLUX_REF, SURFACE=ADB_SECONDCAVITY_1GAS_V_FLUX_SURF, AMBIENT PRESSURE=1.0E5, ADIABATIC

**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ADB_DUALCAVITY_1GAS_V_FLUX, PROPERTY=V_FLUX
5999, 6099
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_FIRSTCAVITY_1GAS_V_FLUX_REF, 40
ADB_SECONDCAVITY_1GAS_V_FLUX_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_FIRSTCAVITY_1GAS_V_FLUX_REF, 4.0E5
**############################################################################################################
**       TEST CASE 45: Adiabatic-Dual Cavity-One Gas(Air)-Bulk Viscosity Type Exchange Property
**############################################################################################################
*SYSTEM
16, 2, 0
*NODE, NSET=ADB_FIRSTCAVITY_1GAS_B_VISCOSITY
611, 0., 0., 0.
612, 0.5, 0., 0.
613, 0.5, 0.5, 0.
614, 0., 0.5, 0.
615, 0., 0., 0.5
616, 0.5, 0., 0.5
617, 0.5, 0.5, 0.5
618, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_FIRSTCAVITY_1GAS_B_VISCOSITY_REF
6199, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
611, 612, 613, 614, 611
612, 618, 617, 616, 615
613, 615, 616, 612, 611
614, 616, 617, 613, 612
615, 617, 618, 614, 613
616, 618, 615, 611, 614
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_FIRSTCAVITY_1GAS_B_VISCOSITY, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_FIRSTCAVITY_1GAS_B_VISCOSITY
611, 612, 613, 614, 615, 616
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_FIRSTCAVITY_1GAS_B_VISCOSITY_SURF, TYPE=ELEMENT
ADB_FIRSTCAVITY_1GAS_B_VISCOSITY, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_FIRSTCAVITY_1GAS_B_VISCOSITY_CAV, BEHAVIOR=AIR, REF NODE=ADB_FIRSTCAVITY_1GAS_B_VISCOSITY_REF, SURFACE=ADB_FIRSTCAVITY_1GAS_B_VISCOSITY_SURF, AMBIENT PRESSURE=1.0E5, ADIABATIC

*SYSTEM
18, 2, 0
*NODE, NSET=ADB_SECONDCAVITY_1GAS_B_VISCOSITY
621, 0., 0., 0.
622, 0.5, 0., 0.
623, 0.5, 0.5, 0.
624, 0., 0.5, 0.
625, 0., 0., 0.5
626, 0.5, 0., 0.5
627, 0.5, 0.5, 0.5
628, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SECONDCAVITY_1GAS_B_VISCOSITY_REF
6299, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
621, 622, 623, 624, 621
622, 628, 627, 626, 625
623, 625, 626, 622, 621
624, 626, 627, 623, 622
625, 627, 628, 624, 623
626, 628, 625, 621, 624
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SECONDCAVITY_1GAS_B_VISCOSITY, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SECONDCAVITY_1GAS_B_VISCOSITY
621, 622, 623, 624, 625, 626
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SECONDCAVITY_1GAS_B_VISCOSITY_SURF, TYPE=ELEMENT
ADB_SECONDCAVITY_1GAS_B_VISCOSITY, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SECONDCAVITY_1GAS_B_VISCOSITY_CAV, BEHAVIOR=AIR, REF NODE=ADB_SECONDCAVITY_1GAS_B_VISCOSITY_REF, SURFACE=ADB_SECONDCAVITY_1GAS_B_VISCOSITY_SURF, AMBIENT PRESSURE=1.0E5, ADIABATIC

**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ADB_DUALCAVITY_1GAS_B_VISCOSITY, PROPERTY=B_VISCOSITY
6199, 6299
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_FIRSTCAVITY_1GAS_B_VISCOSITY_REF, 40
ADB_SECONDCAVITY_1GAS_B_VISCOSITY_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_FIRSTCAVITY_1GAS_B_VISCOSITY_REF, 4.0E5
**############################################################################################################
**       TEST CASE 46: Adiabatic-Dual Cavity-One Gas(Air)-Orifice Type Exchange Property
**############################################################################################################
*SYSTEM
16, 3, 0
*NODE, NSET=ADB_FIRSTCAVITY_1GAS_ORIFICE_T
631, 0., 0., 0.
632, 0.5, 0., 0.
633, 0.5, 0.5, 0.
634, 0., 0.5, 0.
635, 0., 0., 0.5
636, 0.5, 0., 0.5
637, 0.5, 0.5, 0.5
638, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_FIRSTCAVITY_1GAS_ORIFICE_T_REF
6399, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
631, 632, 633, 634, 631
632, 638, 637, 636, 635
633, 635, 636, 632, 631
634, 636, 637, 633, 632
635, 637, 638, 634, 633
636, 638, 635, 631, 634
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_FIRSTCAVITY_1GAS_ORIFICE_T, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_FIRSTCAVITY_1GAS_ORIFICE_T
631, 632, 633, 634, 635, 636
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_FIRSTCAVITY_1GAS_ORIFICE_T_SURF, TYPE=ELEMENT
ADB_FIRSTCAVITY_1GAS_ORIFICE_T, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_FIRSTCAVITY_1GAS_ORIFICE_T_CAV, BEHAVIOR=AIR, REF NODE=ADB_FIRSTCAVITY_1GAS_ORIFICE_T_REF, SURFACE=ADB_FIRSTCAVITY_1GAS_ORIFICE_T_SURF, AMBIENT PRESSURE=1.0E5, ADIABATIC

*SYSTEM
18, 3, 0
*NODE, NSET=ADB_SECONDCAVITY_1GAS_ORIFICE_T
641, 0., 0., 0.
642, 0.5, 0., 0.
643, 0.5, 0.5, 0.
644, 0., 0.5, 0.
645, 0., 0., 0.5
646, 0.5, 0., 0.5
647, 0.5, 0.5, 0.5
648, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SECONDCAVITY_1GAS_ORIFICE_T_REF
6499, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
641, 642, 643, 644, 641
642, 648, 647, 646, 645
643, 645, 646, 642, 641
644, 646, 647, 643, 642
645, 647, 648, 644, 643
646, 648, 645, 641, 644
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SECONDCAVITY_1GAS_ORIFICE_T, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SECONDCAVITY_1GAS_ORIFICE_T
641, 642, 643, 644, 645, 646
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SECONDCAVITY_1GAS_ORIFICE_T_SURF, TYPE=ELEMENT
ADB_SECONDCAVITY_1GAS_ORIFICE_T, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SECONDCAVITY_1GAS_ORIFICE_T_CAV, BEHAVIOR=AIR, REF NODE=ADB_SECONDCAVITY_1GAS_ORIFICE_T_REF, SURFACE=ADB_SECONDCAVITY_1GAS_ORIFICE_T_SURF, AMBIENT PRESSURE=1.0E5, ADIABATIC

**
**Fluid exchange definition
**
**
**Effective area for orifice is considered to be 0.002
**
*FLUID EXCHANGE, NAME=ADB_DUALCAVITY_1GAS_ORIFICE_T, PROPERTY=ORIFICE_T, EFFECTIVE AREA=0.002
6399, 6499
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_FIRSTCAVITY_1GAS_ORIFICE_T_REF, 40
ADB_SECONDCAVITY_1GAS_ORIFICE_T_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_FIRSTCAVITY_1GAS_ORIFICE_T_REF, 4.0E5
**############################################################################################################
**       TEST CASE 47: Adiabatic-Dual Cavity-One Gas(Air)-Fabric Leakage Type Exchange Property
**############################################################################################################
*SYSTEM
16, 4, 0
*NODE, NSET=ADB_FIRSTCAVITY_1GAS_F_LEAKAGE
651, 0., 0., 0.
652, 0.5, 0., 0.
653, 0.5, 0.5, 0.
654, 0., 0.5, 0.
655, 0., 0., 0.5
656, 0.5, 0., 0.5
657, 0.5, 0.5, 0.5
658, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_FIRSTCAVITY_1GAS_F_LEAKAGE_REF
6599, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
651, 652, 653, 654, 651
652, 658, 657, 656, 655
653, 655, 656, 652, 651
654, 656, 657, 653, 652
655, 657, 658, 654, 653
656, 658, 655, 651, 654
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_FIRSTCAVITY_1GAS_F_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_FIRSTCAVITY_1GAS_F_LEAKAGE
651, 652, 653, 654, 655, 656
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_FIRSTCAVITY_1GAS_F_LEAKAGE_SURF, TYPE=ELEMENT
ADB_FIRSTCAVITY_1GAS_F_LEAKAGE, SPOS
**
**Create surface on primary cavity to define effective area with fabric leakage type of exchange behavior
**
*SURFACE, NAME=ADB_FIRSTCAVITY_1GAS_F_LEAKAGE_EFFECTIVE_A_SURF, TYPE=ELEMENT
651, SPOS
654, SPOS
652, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_FIRSTCAVITY_1GAS_F_LEAKAGE_CAV, BEHAVIOR=AIR, REF NODE=ADB_FIRSTCAVITY_1GAS_F_LEAKAGE_REF, SURFACE=ADB_FIRSTCAVITY_1GAS_F_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, ADIABATIC

*SYSTEM
18, 4, 0
*NODE, NSET=ADB_SECONDCAVITY_1GAS_F_LEAKAGE
661, 0., 0., 0.
662, 0.5, 0., 0.
663, 0.5, 0.5, 0.
664, 0., 0.5, 0.
665, 0., 0., 0.5
666, 0.5, 0., 0.5
667, 0.5, 0.5, 0.5
668, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SECONDCAVITY_1GAS_F_LEAKAGE_REF
6699, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
661, 662, 663, 664, 661
662, 668, 667, 666, 665
663, 665, 666, 662, 661
664, 666, 667, 663, 662
665, 667, 668, 664, 663
666, 668, 665, 661, 664
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SECONDCAVITY_1GAS_F_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SECONDCAVITY_1GAS_F_LEAKAGE
661, 662, 663, 664, 665, 666
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SECONDCAVITY_1GAS_F_LEAKAGE_SURF, TYPE=ELEMENT
ADB_SECONDCAVITY_1GAS_F_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SECONDCAVITY_1GAS_F_LEAKAGE_CAV, BEHAVIOR=AIR, REF NODE=ADB_SECONDCAVITY_1GAS_F_LEAKAGE_REF, SURFACE=ADB_SECONDCAVITY_1GAS_F_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, ADIABATIC

**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ADB_DUALCAVITY_1GAS_F_LEAKAGE, PROPERTY=F_LEAKAGE, SURFACE=ADB_FIRSTCAVITY_1GAS_F_LEAKAGE_EFFECTIVE_A_SURF
6599, 6699
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_FIRSTCAVITY_1GAS_F_LEAKAGE_REF, 40
ADB_SECONDCAVITY_1GAS_F_LEAKAGE_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_FIRSTCAVITY_1GAS_F_LEAKAGE_REF, 4.0E5
**############################################################################################################
**       TEST CASE 48: Adiabatic-Dual Cavity-One Gas(Air)-Mass Rate Leakage Type Exchange Property
**############################################################################################################
*SYSTEM
16, 5, 0
*NODE, NSET=ADB_FIRSTCAVITY_1GAS_MR_LEAKAGE
671, 0., 0., 0.
672, 0.5, 0., 0.
673, 0.5, 0.5, 0.
674, 0., 0.5, 0.
675, 0., 0., 0.5
676, 0.5, 0., 0.5
677, 0.5, 0.5, 0.5
678, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_FIRSTCAVITY_1GAS_MR_LEAKAGE_REF
6799, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
671, 672, 673, 674, 671
672, 678, 677, 676, 675
673, 675, 676, 672, 671
674, 676, 677, 673, 672
675, 677, 678, 674, 673
676, 678, 675, 671, 674
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_FIRSTCAVITY_1GAS_MR_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_FIRSTCAVITY_1GAS_MR_LEAKAGE
671, 672, 673, 674, 675, 676
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_FIRSTCAVITY_1GAS_MR_LEAKAGE_SURF, TYPE=ELEMENT
ADB_FIRSTCAVITY_1GAS_MR_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_FIRSTCAVITY_1GAS_MR_LEAKAGE_CAV, BEHAVIOR=AIR, REF NODE=ADB_FIRSTCAVITY_1GAS_MR_LEAKAGE_REF, SURFACE=ADB_FIRSTCAVITY_1GAS_MR_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, ADIABATIC

*SYSTEM
18, 5, 0
*NODE, NSET=ADB_SECONDCAVITY_1GAS_MR_LEAKAGE
681, 0., 0., 0.
682, 0.5, 0., 0.
683, 0.5, 0.5, 0.
684, 0., 0.5, 0.
685, 0., 0., 0.5
686, 0.5, 0., 0.5
687, 0.5, 0.5, 0.5
688, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SECONDCAVITY_1GAS_MR_LEAKAGE_REF
6899, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
681, 682, 683, 684, 681
682, 688, 687, 686, 685
683, 685, 686, 682, 681
684, 686, 687, 683, 682
685, 687, 688, 684, 683
686, 688, 685, 681, 684
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SECONDCAVITY_1GAS_MR_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SECONDCAVITY_1GAS_MR_LEAKAGE
681, 682, 683, 684, 685, 686
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SECONDCAVITY_1GAS_MR_LEAKAGE_SURF, TYPE=ELEMENT
ADB_SECONDCAVITY_1GAS_MR_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SECONDCAVITY_1GAS_MR_LEAKAGE_CAV, BEHAVIOR=AIR, REF NODE=ADB_SECONDCAVITY_1GAS_MR_LEAKAGE_REF, SURFACE=ADB_SECONDCAVITY_1GAS_MR_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, ADIABATIC

**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ADB_DUALCAVITY_1GAS_MR_LEAKAGE, PROPERTY=MR_LEAKAGE
6799, 6899
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_FIRSTCAVITY_1GAS_MR_LEAKAGE_REF, 40
ADB_SECONDCAVITY_1GAS_MR_LEAKAGE_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_FIRSTCAVITY_1GAS_MR_LEAKAGE_REF, 4.0E5
**############################################################################################################
**       TEST CASE 49: Adiabatic-Dual Cavity-One Gas(Air)-Volume Rate Leakage Type Exchange Property
**############################################################################################################
*SYSTEM
16, 6, 0
*NODE, NSET=ADB_FIRSTCAVITY_1GAS_VR_LEAKAGE
691, 0., 0., 0.
692, 0.5, 0., 0.
693, 0.5, 0.5, 0.
694, 0., 0.5, 0.
695, 0., 0., 0.5
696, 0.5, 0., 0.5
697, 0.5, 0.5, 0.5
698, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_FIRSTCAVITY_1GAS_VR_LEAKAGE_REF
6999, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
691, 692, 693, 694, 691
692, 698, 697, 696, 695
693, 695, 696, 692, 691
694, 696, 697, 693, 692
695, 697, 698, 694, 693
696, 698, 695, 691, 694
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_FIRSTCAVITY_1GAS_VR_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_FIRSTCAVITY_1GAS_VR_LEAKAGE
691, 692, 693, 694, 695, 696
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_FIRSTCAVITY_1GAS_VR_LEAKAGE_SURF, TYPE=ELEMENT
ADB_FIRSTCAVITY_1GAS_VR_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_FIRSTCAVITY_1GAS_VR_LEAKAGE_CAV, BEHAVIOR=AIR, REF NODE=ADB_FIRSTCAVITY_1GAS_VR_LEAKAGE_REF, SURFACE=ADB_FIRSTCAVITY_1GAS_VR_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, ADIABATIC

*SYSTEM
18, 6, 0
*NODE, NSET=ADB_SECONDCAVITY_1GAS_VR_LEAKAGE
701, 0., 0., 0.
702, 0.5, 0., 0.
703, 0.5, 0.5, 0.
704, 0., 0.5, 0.
705, 0., 0., 0.5
706, 0.5, 0., 0.5
707, 0.5, 0.5, 0.5
708, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SECONDCAVITY_1GAS_VR_LEAKAGE_REF
7099, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
701, 702, 703, 704, 701
702, 708, 707, 706, 705
703, 705, 706, 702, 701
704, 706, 707, 703, 702
705, 707, 708, 704, 703
706, 708, 705, 701, 704
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SECONDCAVITY_1GAS_VR_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SECONDCAVITY_1GAS_VR_LEAKAGE
701, 702, 703, 704, 705, 706
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SECONDCAVITY_1GAS_VR_LEAKAGE_SURF, TYPE=ELEMENT
ADB_SECONDCAVITY_1GAS_VR_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SECONDCAVITY_1GAS_VR_LEAKAGE_CAV, BEHAVIOR=AIR, REF NODE=ADB_SECONDCAVITY_1GAS_VR_LEAKAGE_REF, SURFACE=ADB_SECONDCAVITY_1GAS_VR_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, ADIABATIC

**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ADB_DUALCAVITY_1GAS_VR_LEAKAGE, PROPERTY=VR_LEAKAGE
6999, 7099
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_FIRSTCAVITY_1GAS_VR_LEAKAGE_REF, 40
ADB_SECONDCAVITY_1GAS_VR_LEAKAGE_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_FIRSTCAVITY_1GAS_VR_LEAKAGE_REF, 4.0E5
**############################################################################################################
**       TEST CASE 50: Adiabatic-Dual Cavity-Mixture(Air + Nitrogen)-Mass Flux Type Exchange Property
**############################################################################################################
*SYSTEM
20, 0, 0
*NODE, NSET=ADB_FIRSTCAVITY_MIX_M_FLUX
711, 0., 0., 0.
712, 0.5, 0., 0.
713, 0.5, 0.5, 0.
714, 0., 0.5, 0.
715, 0., 0., 0.5
716, 0.5, 0., 0.5
717, 0.5, 0.5, 0.5
718, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_FIRSTCAVITY_MIX_M_FLUX_REF
7199, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
711, 712, 713, 714, 711
712, 718, 717, 716, 715
713, 715, 716, 712, 711
714, 716, 717, 713, 712
715, 717, 718, 714, 713
716, 718, 715, 711, 714
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_FIRSTCAVITY_MIX_M_FLUX, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_FIRSTCAVITY_MIX_M_FLUX
711, 712, 713, 714, 715, 716
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_FIRSTCAVITY_MIX_M_FLUX_SURF, TYPE=ELEMENT
ADB_FIRSTCAVITY_MIX_M_FLUX, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_FIRSTCAVITY_MIX_M_FLUX_CAV , REF NODE=ADB_FIRSTCAVITY_MIX_M_FLUX_REF, SURFACE=ADB_FIRSTCAVITY_MIX_M_FLUX_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE, ADIABATIC

AIR, 1.0
NITROGEN, 0.0
*SYSTEM
22, 0, 0
*NODE, NSET=ADB_SECONDCAVITY_MIX_M_FLUX
721, 0., 0., 0.
722, 0.5, 0., 0.
723, 0.5, 0.5, 0.
724, 0., 0.5, 0.
725, 0., 0., 0.5
726, 0.5, 0., 0.5
727, 0.5, 0.5, 0.5
728, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SECONDCAVITY_MIX_M_FLUX_REF
7299, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
721, 722, 723, 724, 721
722, 728, 727, 726, 725
723, 725, 726, 722, 721
724, 726, 727, 723, 722
725, 727, 728, 724, 723
726, 728, 725, 721, 724
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SECONDCAVITY_MIX_M_FLUX, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SECONDCAVITY_MIX_M_FLUX
721, 722, 723, 724, 725, 726
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SECONDCAVITY_MIX_M_FLUX_SURF, TYPE=ELEMENT
ADB_SECONDCAVITY_MIX_M_FLUX, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SECONDCAVITY_MIX_M_FLUX_CAV , REF NODE=ADB_SECONDCAVITY_MIX_M_FLUX_REF, SURFACE=ADB_SECONDCAVITY_MIX_M_FLUX_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE, ADIABATIC

AIR, 0.0
NITROGEN, 1.0
**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ADB_DUALCAVITY_MIX_M_FLUX, PROPERTY=M_FLUX
7199, 7299
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_FIRSTCAVITY_MIX_M_FLUX_REF, 40
ADB_SECONDCAVITY_MIX_M_FLUX_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_FIRSTCAVITY_MIX_M_FLUX_REF, 4.0E5
**############################################################################################################
**       TEST CASE 51: Adiabatic-Dual Cavity-Mixture(Air + Nitrogen)-Volume Flux Type Exchange Property
**############################################################################################################
*SYSTEM
20, 1, 0
*NODE, NSET=ADB_FIRSTCAVITY_MIX_V_FLUX
731, 0., 0., 0.
732, 0.5, 0., 0.
733, 0.5, 0.5, 0.
734, 0., 0.5, 0.
735, 0., 0., 0.5
736, 0.5, 0., 0.5
737, 0.5, 0.5, 0.5
738, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_FIRSTCAVITY_MIX_V_FLUX_REF
7399, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
731, 732, 733, 734, 731
732, 738, 737, 736, 735
733, 735, 736, 732, 731
734, 736, 737, 733, 732
735, 737, 738, 734, 733
736, 738, 735, 731, 734
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_FIRSTCAVITY_MIX_V_FLUX, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_FIRSTCAVITY_MIX_V_FLUX
731, 732, 733, 734, 735, 736
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_FIRSTCAVITY_MIX_V_FLUX_SURF, TYPE=ELEMENT
ADB_FIRSTCAVITY_MIX_V_FLUX, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_FIRSTCAVITY_MIX_V_FLUX_CAV , REF NODE=ADB_FIRSTCAVITY_MIX_V_FLUX_REF, SURFACE=ADB_FIRSTCAVITY_MIX_V_FLUX_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE, ADIABATIC

AIR, 1.0
NITROGEN, 0.0
*SYSTEM
22, 1, 0
*NODE, NSET=ADB_SECONDCAVITY_MIX_V_FLUX
741, 0., 0., 0.
742, 0.5, 0., 0.
743, 0.5, 0.5, 0.
744, 0., 0.5, 0.
745, 0., 0., 0.5
746, 0.5, 0., 0.5
747, 0.5, 0.5, 0.5
748, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SECONDCAVITY_MIX_V_FLUX_REF
7499, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
741, 742, 743, 744, 741
742, 748, 747, 746, 745
743, 745, 746, 742, 741
744, 746, 747, 743, 742
745, 747, 748, 744, 743
746, 748, 745, 741, 744
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SECONDCAVITY_MIX_V_FLUX, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SECONDCAVITY_MIX_V_FLUX
741, 742, 743, 744, 745, 746
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SECONDCAVITY_MIX_V_FLUX_SURF, TYPE=ELEMENT
ADB_SECONDCAVITY_MIX_V_FLUX, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SECONDCAVITY_MIX_V_FLUX_CAV , REF NODE=ADB_SECONDCAVITY_MIX_V_FLUX_REF, SURFACE=ADB_SECONDCAVITY_MIX_V_FLUX_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE, ADIABATIC

AIR, 0.0
NITROGEN, 1.0
**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ADB_DUALCAVITY_MIX_V_FLUX, PROPERTY=V_FLUX
7399, 7499
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_FIRSTCAVITY_MIX_V_FLUX_REF, 40
ADB_SECONDCAVITY_MIX_V_FLUX_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_FIRSTCAVITY_MIX_V_FLUX_REF, 4.0E5
**############################################################################################################
**       TEST CASE 52: Adiabatic-Dual Cavity-Mixture(Air + Nitrogen)-Bulk Viscosity Type Exchange Property
**############################################################################################################
*SYSTEM
20, 2, 0
*NODE, NSET=ADB_FIRSTCAVITY_MIX_B_VISCOSITY
751, 0., 0., 0.
752, 0.5, 0., 0.
753, 0.5, 0.5, 0.
754, 0., 0.5, 0.
755, 0., 0., 0.5
756, 0.5, 0., 0.5
757, 0.5, 0.5, 0.5
758, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_FIRSTCAVITY_MIX_B_VISCOSITY_REF
7599, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
751, 752, 753, 754, 751
752, 758, 757, 756, 755
753, 755, 756, 752, 751
754, 756, 757, 753, 752
755, 757, 758, 754, 753
756, 758, 755, 751, 754
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_FIRSTCAVITY_MIX_B_VISCOSITY, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_FIRSTCAVITY_MIX_B_VISCOSITY
751, 752, 753, 754, 755, 756
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_FIRSTCAVITY_MIX_B_VISCOSITY_SURF, TYPE=ELEMENT
ADB_FIRSTCAVITY_MIX_B_VISCOSITY, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_FIRSTCAVITY_MIX_B_VISCOSITY_CAV , REF NODE=ADB_FIRSTCAVITY_MIX_B_VISCOSITY_REF, SURFACE=ADB_FIRSTCAVITY_MIX_B_VISCOSITY_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE, ADIABATIC

AIR, 1.0
NITROGEN, 0.0
*SYSTEM
22, 2, 0
*NODE, NSET=ADB_SECONDCAVITY_MIX_B_VISCOSITY
761, 0., 0., 0.
762, 0.5, 0., 0.
763, 0.5, 0.5, 0.
764, 0., 0.5, 0.
765, 0., 0., 0.5
766, 0.5, 0., 0.5
767, 0.5, 0.5, 0.5
768, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SECONDCAVITY_MIX_B_VISCOSITY_REF
7699, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
761, 762, 763, 764, 761
762, 768, 767, 766, 765
763, 765, 766, 762, 761
764, 766, 767, 763, 762
765, 767, 768, 764, 763
766, 768, 765, 761, 764
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SECONDCAVITY_MIX_B_VISCOSITY, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SECONDCAVITY_MIX_B_VISCOSITY
761, 762, 763, 764, 765, 766
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SECONDCAVITY_MIX_B_VISCOSITY_SURF, TYPE=ELEMENT
ADB_SECONDCAVITY_MIX_B_VISCOSITY, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SECONDCAVITY_MIX_B_VISCOSITY_CAV , REF NODE=ADB_SECONDCAVITY_MIX_B_VISCOSITY_REF, SURFACE=ADB_SECONDCAVITY_MIX_B_VISCOSITY_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE, ADIABATIC

AIR, 0.0
NITROGEN, 1.0
**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ADB_DUALCAVITY_MIX_B_VISCOSITY, PROPERTY=B_VISCOSITY
7599, 7699
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_FIRSTCAVITY_MIX_B_VISCOSITY_REF, 40
ADB_SECONDCAVITY_MIX_B_VISCOSITY_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_FIRSTCAVITY_MIX_B_VISCOSITY_REF, 4.0E5
**############################################################################################################
**       TEST CASE 53: Adiabatic-Dual Cavity-Mixture(Air + Nitrogen)-Orifice Type Exchange Property
**############################################################################################################
*SYSTEM
20, 3, 0
*NODE, NSET=ADB_FIRSTCAVITY_MIX_ORIFICE_T
771, 0., 0., 0.
772, 0.5, 0., 0.
773, 0.5, 0.5, 0.
774, 0., 0.5, 0.
775, 0., 0., 0.5
776, 0.5, 0., 0.5
777, 0.5, 0.5, 0.5
778, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_FIRSTCAVITY_MIX_ORIFICE_T_REF
7799, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
771, 772, 773, 774, 771
772, 778, 777, 776, 775
773, 775, 776, 772, 771
774, 776, 777, 773, 772
775, 777, 778, 774, 773
776, 778, 775, 771, 774
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_FIRSTCAVITY_MIX_ORIFICE_T, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_FIRSTCAVITY_MIX_ORIFICE_T
771, 772, 773, 774, 775, 776
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_FIRSTCAVITY_MIX_ORIFICE_T_SURF, TYPE=ELEMENT
ADB_FIRSTCAVITY_MIX_ORIFICE_T, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_FIRSTCAVITY_MIX_ORIFICE_T_CAV , REF NODE=ADB_FIRSTCAVITY_MIX_ORIFICE_T_REF, SURFACE=ADB_FIRSTCAVITY_MIX_ORIFICE_T_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE, ADIABATIC

AIR, 1.0
NITROGEN, 0.0
*SYSTEM
22, 3, 0
*NODE, NSET=ADB_SECONDCAVITY_MIX_ORIFICE_T
781, 0., 0., 0.
782, 0.5, 0., 0.
783, 0.5, 0.5, 0.
784, 0., 0.5, 0.
785, 0., 0., 0.5
786, 0.5, 0., 0.5
787, 0.5, 0.5, 0.5
788, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SECONDCAVITY_MIX_ORIFICE_T_REF
7899, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
781, 782, 783, 784, 781
782, 788, 787, 786, 785
783, 785, 786, 782, 781
784, 786, 787, 783, 782
785, 787, 788, 784, 783
786, 788, 785, 781, 784
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SECONDCAVITY_MIX_ORIFICE_T, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SECONDCAVITY_MIX_ORIFICE_T
781, 782, 783, 784, 785, 786
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SECONDCAVITY_MIX_ORIFICE_T_SURF, TYPE=ELEMENT
ADB_SECONDCAVITY_MIX_ORIFICE_T, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SECONDCAVITY_MIX_ORIFICE_T_CAV , REF NODE=ADB_SECONDCAVITY_MIX_ORIFICE_T_REF, SURFACE=ADB_SECONDCAVITY_MIX_ORIFICE_T_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE, ADIABATIC

AIR, 0.0
NITROGEN, 1.0
**
**Fluid exchange definition
**
**
**Effective area for orifice is considered to be 0.002
**
*FLUID EXCHANGE, NAME=ADB_DUALCAVITY_MIX_ORIFICE_T, PROPERTY=ORIFICE_T, EFFECTIVE AREA=0.002
7799, 7899
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_FIRSTCAVITY_MIX_ORIFICE_T_REF, 40
ADB_SECONDCAVITY_MIX_ORIFICE_T_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_FIRSTCAVITY_MIX_ORIFICE_T_REF, 4.0E5
**############################################################################################################
**       TEST CASE 54: Adiabatic-Dual Cavity-Mixture(Air + Nitrogen)-Fabric Leakage Type Exchange Property
**############################################################################################################
*SYSTEM
20, 4, 0
*NODE, NSET=ADB_FIRSTCAVITY_MIX_F_LEAKAGE
791, 0., 0., 0.
792, 0.5, 0., 0.
793, 0.5, 0.5, 0.
794, 0., 0.5, 0.
795, 0., 0., 0.5
796, 0.5, 0., 0.5
797, 0.5, 0.5, 0.5
798, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_FIRSTCAVITY_MIX_F_LEAKAGE_REF
7999, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
791, 792, 793, 794, 791
792, 798, 797, 796, 795
793, 795, 796, 792, 791
794, 796, 797, 793, 792
795, 797, 798, 794, 793
796, 798, 795, 791, 794
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_FIRSTCAVITY_MIX_F_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_FIRSTCAVITY_MIX_F_LEAKAGE
791, 792, 793, 794, 795, 796
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_FIRSTCAVITY_MIX_F_LEAKAGE_SURF, TYPE=ELEMENT
ADB_FIRSTCAVITY_MIX_F_LEAKAGE, SPOS
**
**Create surface on primary cavity to define effective area with fabric leakage type of exchange behavior
**
*SURFACE, NAME=ADB_FIRSTCAVITY_MIX_F_LEAKAGE_EFFECTIVE_A_SURF, TYPE=ELEMENT
791, SPOS
794, SPOS
792, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_FIRSTCAVITY_MIX_F_LEAKAGE_CAV , REF NODE=ADB_FIRSTCAVITY_MIX_F_LEAKAGE_REF, SURFACE=ADB_FIRSTCAVITY_MIX_F_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE, ADIABATIC

AIR, 1.0
NITROGEN, 0.0
*SYSTEM
22, 4, 0
*NODE, NSET=ADB_SECONDCAVITY_MIX_F_LEAKAGE
801, 0., 0., 0.
802, 0.5, 0., 0.
803, 0.5, 0.5, 0.
804, 0., 0.5, 0.
805, 0., 0., 0.5
806, 0.5, 0., 0.5
807, 0.5, 0.5, 0.5
808, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SECONDCAVITY_MIX_F_LEAKAGE_REF
8099, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
801, 802, 803, 804, 801
802, 808, 807, 806, 805
803, 805, 806, 802, 801
804, 806, 807, 803, 802
805, 807, 808, 804, 803
806, 808, 805, 801, 804
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SECONDCAVITY_MIX_F_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SECONDCAVITY_MIX_F_LEAKAGE
801, 802, 803, 804, 805, 806
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SECONDCAVITY_MIX_F_LEAKAGE_SURF, TYPE=ELEMENT
ADB_SECONDCAVITY_MIX_F_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SECONDCAVITY_MIX_F_LEAKAGE_CAV , REF NODE=ADB_SECONDCAVITY_MIX_F_LEAKAGE_REF, SURFACE=ADB_SECONDCAVITY_MIX_F_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE, ADIABATIC

AIR, 0.0
NITROGEN, 1.0
**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ADB_DUALCAVITY_MIX_F_LEAKAGE, PROPERTY=F_LEAKAGE, SURFACE=ADB_FIRSTCAVITY_MIX_F_LEAKAGE_EFFECTIVE_A_SURF
7999, 8099
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_FIRSTCAVITY_MIX_F_LEAKAGE_REF, 40
ADB_SECONDCAVITY_MIX_F_LEAKAGE_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_FIRSTCAVITY_MIX_F_LEAKAGE_REF, 4.0E5
**############################################################################################################
**       TEST CASE 55: Adiabatic-Dual Cavity-Mixture(Air + Nitrogen)-Mass Rate Leakage Type Exchange Property
**############################################################################################################
*SYSTEM
20, 5, 0
*NODE, NSET=ADB_FIRSTCAVITY_MIX_MR_LEAKAGE
811, 0., 0., 0.
812, 0.5, 0., 0.
813, 0.5, 0.5, 0.
814, 0., 0.5, 0.
815, 0., 0., 0.5
816, 0.5, 0., 0.5
817, 0.5, 0.5, 0.5
818, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_FIRSTCAVITY_MIX_MR_LEAKAGE_REF
8199, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
811, 812, 813, 814, 811
812, 818, 817, 816, 815
813, 815, 816, 812, 811
814, 816, 817, 813, 812
815, 817, 818, 814, 813
816, 818, 815, 811, 814
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_FIRSTCAVITY_MIX_MR_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_FIRSTCAVITY_MIX_MR_LEAKAGE
811, 812, 813, 814, 815, 816
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_FIRSTCAVITY_MIX_MR_LEAKAGE_SURF, TYPE=ELEMENT
ADB_FIRSTCAVITY_MIX_MR_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_FIRSTCAVITY_MIX_MR_LEAKAGE_CAV , REF NODE=ADB_FIRSTCAVITY_MIX_MR_LEAKAGE_REF, SURFACE=ADB_FIRSTCAVITY_MIX_MR_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE, ADIABATIC

AIR, 1.0
NITROGEN, 0.0
*SYSTEM
22, 5, 0
*NODE, NSET=ADB_SECONDCAVITY_MIX_MR_LEAKAGE
821, 0., 0., 0.
822, 0.5, 0., 0.
823, 0.5, 0.5, 0.
824, 0., 0.5, 0.
825, 0., 0., 0.5
826, 0.5, 0., 0.5
827, 0.5, 0.5, 0.5
828, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SECONDCAVITY_MIX_MR_LEAKAGE_REF
8299, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
821, 822, 823, 824, 821
822, 828, 827, 826, 825
823, 825, 826, 822, 821
824, 826, 827, 823, 822
825, 827, 828, 824, 823
826, 828, 825, 821, 824
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SECONDCAVITY_MIX_MR_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SECONDCAVITY_MIX_MR_LEAKAGE
821, 822, 823, 824, 825, 826
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SECONDCAVITY_MIX_MR_LEAKAGE_SURF, TYPE=ELEMENT
ADB_SECONDCAVITY_MIX_MR_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SECONDCAVITY_MIX_MR_LEAKAGE_CAV , REF NODE=ADB_SECONDCAVITY_MIX_MR_LEAKAGE_REF, SURFACE=ADB_SECONDCAVITY_MIX_MR_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE, ADIABATIC

AIR, 0.0
NITROGEN, 1.0
**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ADB_DUALCAVITY_MIX_MR_LEAKAGE, PROPERTY=MR_LEAKAGE
8199, 8299
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_FIRSTCAVITY_MIX_MR_LEAKAGE_REF, 40
ADB_SECONDCAVITY_MIX_MR_LEAKAGE_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_FIRSTCAVITY_MIX_MR_LEAKAGE_REF, 4.0E5
**############################################################################################################
**       TEST CASE 56: Adiabatic-Dual Cavity-Mixture(Air + Nitrogen)-Volume Rate Leakage Type Exchange Property
**############################################################################################################
*SYSTEM
20, 6, 0
*NODE, NSET=ADB_FIRSTCAVITY_MIX_VR_LEAKAGE
831, 0., 0., 0.
832, 0.5, 0., 0.
833, 0.5, 0.5, 0.
834, 0., 0.5, 0.
835, 0., 0., 0.5
836, 0.5, 0., 0.5
837, 0.5, 0.5, 0.5
838, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_FIRSTCAVITY_MIX_VR_LEAKAGE_REF
8399, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
831, 832, 833, 834, 831
832, 838, 837, 836, 835
833, 835, 836, 832, 831
834, 836, 837, 833, 832
835, 837, 838, 834, 833
836, 838, 835, 831, 834
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_FIRSTCAVITY_MIX_VR_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_FIRSTCAVITY_MIX_VR_LEAKAGE
831, 832, 833, 834, 835, 836
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_FIRSTCAVITY_MIX_VR_LEAKAGE_SURF, TYPE=ELEMENT
ADB_FIRSTCAVITY_MIX_VR_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_FIRSTCAVITY_MIX_VR_LEAKAGE_CAV , REF NODE=ADB_FIRSTCAVITY_MIX_VR_LEAKAGE_REF, SURFACE=ADB_FIRSTCAVITY_MIX_VR_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE, ADIABATIC

AIR, 1.0
NITROGEN, 0.0
*SYSTEM
22, 6, 0
*NODE, NSET=ADB_SECONDCAVITY_MIX_VR_LEAKAGE
841, 0., 0., 0.
842, 0.5, 0., 0.
843, 0.5, 0.5, 0.
844, 0., 0.5, 0.
845, 0., 0., 0.5
846, 0.5, 0., 0.5
847, 0.5, 0.5, 0.5
848, 0., 0.5, 0.5
**
** Cavity Ref. node placed at the center of the cubic cavity
**
*NODE, NSET=ADB_SECONDCAVITY_MIX_VR_LEAKAGE_REF
8499, 0.25, 0.25, 0.25
**
** Elements defined such that all normals point inward
**
*ELEMENT, TYPE=SFM3D4R
841, 842, 843, 844, 841
842, 848, 847, 846, 845
843, 845, 846, 842, 841
844, 846, 847, 843, 842
845, 847, 848, 844, 843
846, 848, 845, 841, 844
**
**Fix all DOF's of all the nodes of the cubic block
**
*BOUNDARY
ADB_SECONDCAVITY_MIX_VR_LEAKAGE, 1, 3
**
**Element set defined to create surface for fluid cavity definition
**
*ELSET, ELSET=ADB_SECONDCAVITY_MIX_VR_LEAKAGE
841, 842, 843, 844, 845, 846
**
**Create surface to define surface based fluid cavity
**
*SURFACE, NAME=ADB_SECONDCAVITY_MIX_VR_LEAKAGE_SURF, TYPE=ELEMENT
ADB_SECONDCAVITY_MIX_VR_LEAKAGE, SPOS
**
**Fluid cavity definition
**
*FLUID CAVITY, NAME=ADB_SECONDCAVITY_MIX_VR_LEAKAGE_CAV , REF NODE=ADB_SECONDCAVITY_MIX_VR_LEAKAGE_REF, SURFACE=ADB_SECONDCAVITY_MIX_VR_LEAKAGE_SURF, AMBIENT PRESSURE=1.0E5, MIXTURE, ADIABATIC

AIR, 0.0
NITROGEN, 1.0
**
**Fluid exchange definition
**
*FLUID EXCHANGE, NAME=ADB_DUALCAVITY_MIX_VR_LEAKAGE, PROPERTY=VR_LEAKAGE
8399, 8499
**
**Initial conditions
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
ADB_FIRSTCAVITY_MIX_VR_LEAKAGE_REF, 40
ADB_SECONDCAVITY_MIX_VR_LEAKAGE_REF, 20
*INITIAL CONDITIONS, TYPE=FLUID PRESSURE
ADB_FIRSTCAVITY_MIX_VR_LEAKAGE_REF, 4.0E5
**====================================
**Fluid behavior definition
**====================================
*FLUID BEHAVIOR, NAME=AIR
*MOLECULAR WEIGHT
0.0289
*CAPACITY, TYPE=POLYNOMIAL
28.110, 1.967E-3, 4.802E-6, -1.966E-9, 0.0
*FLUID BEHAVIOR, NAME=NITROGEN
*MOLECULAR WEIGHT
0.028
*CAPACITY, TYPE=POLYNOMIAL
26.092, 8.218E-3, -1.976E-6, -0.1592E-9, 0.0444E6
**=====================================
**Fluid exchange property definitions
**=====================================
*FLUID EXCHANGE PROPERTY, NAME=M_FLUX, TYPE=MASS FLUX
0.4
*FLUID EXCHANGE PROPERTY, NAME=V_FLUX, TYPE=VOLUME FLUX
0.072
*FLUID EXCHANGE PROPERTY, NAME=B_VISCOSITY, TYPE=BULK VISCOSITY
6.0E5, 1.0E6
**
**Effective area, A=0.002 m^2
**
*FLUID EXCHANGE PROPERTY, NAME=ORIFICE_T, TYPE=ORIFICE
0.0836
**
**Effective leakage area of the fabric = 3*Area of one face of the cubic primary cavity = 3*0.25 = 0.75 m^2
**
*FLUID EXCHANGE PROPERTY, NAME=F_LEAKAGE, TYPE=FABRIC LEAKAGE
2.5E-4
**
**Mass flow rate is considered a function of absolute pressure difference and average temperature
**
*FLUID EXCHANGE PROPERTY, NAME=MR_LEAKAGE, TYPE=MASS RATE LEAKAGE
0, 0, , 0
0.1, 1.5E5, , 40
0.4, 4.0E5, , 40
0.2, 1.5E5, , 100
0.5, 4.0E5, , 100
**
**Volume flow rate is considered only a function of absolute pressure difference
**
*FLUID EXCHANGE PROPERTY, NAME=VR_LEAKAGE, TYPE=VOLUME RATE LEAKAGE
0, 0
0.072, 4.0E5
**
**Node set defined to prescribe temperature BC's on the ref nodes of the isothermal primary cavity
**
*NSET, NSET=ISOTHERMAL_PRIMARY_CAVITY_REF_NODES
ISO_SINGLECAVITY_1GAS_M_FLUX_REF
ISO_SINGLECAVITY_1GAS_V_FLUX_REF
ISO_SINGLECAVITY_1GAS_B_VISCOSITY_REF
ISO_SINGLECAVITY_1GAS_ORIFICE_T_REF
ISO_SINGLECAVITY_1GAS_F_LEAKAGE_REF
ISO_SINGLECAVITY_1GAS_MR_LEAKAGE_REF
ISO_SINGLECAVITY_1GAS_VR_LEAKAGE_REF
ISO_SINGLECAVITY_MIX_M_FLUX_REF
ISO_SINGLECAVITY_MIX_V_FLUX_REF
ISO_SINGLECAVITY_MIX_B_VISCOSITY_REF
ISO_SINGLECAVITY_MIX_ORIFICE_T_REF
ISO_SINGLECAVITY_MIX_F_LEAKAGE_REF
ISO_SINGLECAVITY_MIX_MR_LEAKAGE_REF
ISO_SINGLECAVITY_MIX_VR_LEAKAGE_REF
ISO_FIRSTCAVITY_1GAS_M_FLUX_REF
ISO_FIRSTCAVITY_1GAS_V_FLUX_REF
ISO_FIRSTCAVITY_1GAS_B_VISCOSITY_REF
ISO_FIRSTCAVITY_1GAS_ORIFICE_T_REF
ISO_FIRSTCAVITY_1GAS_F_LEAKAGE_REF
ISO_FIRSTCAVITY_1GAS_MR_LEAKAGE_REF
ISO_FIRSTCAVITY_1GAS_VR_LEAKAGE_REF
ISO_FIRSTCAVITY_MIX_M_FLUX_REF
ISO_FIRSTCAVITY_MIX_V_FLUX_REF
ISO_FIRSTCAVITY_MIX_B_VISCOSITY_REF
ISO_FIRSTCAVITY_MIX_ORIFICE_T_REF
ISO_FIRSTCAVITY_MIX_F_LEAKAGE_REF
ISO_FIRSTCAVITY_MIX_MR_LEAKAGE_REF
ISO_FIRSTCAVITY_MIX_VR_LEAKAGE_REF
**
**Node set defined to prescribe temperature BC's on the ref nodes of the isothermal secondary cavity, different from that prescribed for the primary cavity ref nodes
**
*NSET, NSET=ISOTHERMAL_SECONDARY_CAVITY_REF_NODES
ISO_SECONDCAVITY_1GAS_M_FLUX_REF
ISO_SECONDCAVITY_1GAS_V_FLUX_REF
ISO_SECONDCAVITY_1GAS_B_VISCOSITY_REF
ISO_SECONDCAVITY_1GAS_ORIFICE_T_REF
ISO_SECONDCAVITY_1GAS_F_LEAKAGE_REF
ISO_SECONDCAVITY_1GAS_MR_LEAKAGE_REF
ISO_SECONDCAVITY_1GAS_VR_LEAKAGE_REF
ISO_SECONDCAVITY_MIX_M_FLUX_REF
ISO_SECONDCAVITY_MIX_V_FLUX_REF
ISO_SECONDCAVITY_MIX_B_VISCOSITY_REF
ISO_SECONDCAVITY_MIX_ORIFICE_T_REF
ISO_SECONDCAVITY_MIX_F_LEAKAGE_REF
ISO_SECONDCAVITY_MIX_MR_LEAKAGE_REF
ISO_SECONDCAVITY_MIX_VR_LEAKAGE_REF
**
**Node set comprising ref nodes of adiabatic fluid cavities 
**
*NSET, NSET=ADIABATIC_CAVITY_REF_NODES
ADB_SINGLECAVITY_1GAS_M_FLUX_REF
ADB_SINGLECAVITY_1GAS_V_FLUX_REF
ADB_SINGLECAVITY_1GAS_B_VISCOSITY_REF
ADB_SINGLECAVITY_1GAS_ORIFICE_T_REF
ADB_SINGLECAVITY_1GAS_F_LEAKAGE_REF
ADB_SINGLECAVITY_1GAS_MR_LEAKAGE_REF
ADB_SINGLECAVITY_1GAS_VR_LEAKAGE_REF
ADB_SINGLECAVITY_MIX_M_FLUX_REF
ADB_SINGLECAVITY_MIX_V_FLUX_REF
ADB_SINGLECAVITY_MIX_B_VISCOSITY_REF
ADB_SINGLECAVITY_MIX_ORIFICE_T_REF
ADB_SINGLECAVITY_MIX_F_LEAKAGE_REF
ADB_SINGLECAVITY_MIX_MR_LEAKAGE_REF
ADB_SINGLECAVITY_MIX_VR_LEAKAGE_REF
ADB_FIRSTCAVITY_1GAS_M_FLUX_REF
ADB_SECONDCAVITY_1GAS_M_FLUX_REF
ADB_FIRSTCAVITY_1GAS_V_FLUX_REF
ADB_SECONDCAVITY_1GAS_V_FLUX_REF
ADB_FIRSTCAVITY_1GAS_B_VISCOSITY_REF
ADB_SECONDCAVITY_1GAS_B_VISCOSITY_REF
ADB_FIRSTCAVITY_1GAS_ORIFICE_T_REF
ADB_SECONDCAVITY_1GAS_ORIFICE_T_REF
ADB_FIRSTCAVITY_1GAS_F_LEAKAGE_REF
ADB_SECONDCAVITY_1GAS_F_LEAKAGE_REF
ADB_FIRSTCAVITY_1GAS_MR_LEAKAGE_REF
ADB_SECONDCAVITY_1GAS_MR_LEAKAGE_REF
ADB_FIRSTCAVITY_1GAS_VR_LEAKAGE_REF
ADB_SECONDCAVITY_1GAS_VR_LEAKAGE_REF
ADB_FIRSTCAVITY_MIX_M_FLUX_REF
ADB_SECONDCAVITY_MIX_M_FLUX_REF
ADB_FIRSTCAVITY_MIX_V_FLUX_REF
ADB_SECONDCAVITY_MIX_V_FLUX_REF
ADB_FIRSTCAVITY_MIX_B_VISCOSITY_REF
ADB_SECONDCAVITY_MIX_B_VISCOSITY_REF
ADB_FIRSTCAVITY_MIX_ORIFICE_T_REF
ADB_SECONDCAVITY_MIX_ORIFICE_T_REF
ADB_FIRSTCAVITY_MIX_F_LEAKAGE_REF
ADB_SECONDCAVITY_MIX_F_LEAKAGE_REF
ADB_FIRSTCAVITY_MIX_MR_LEAKAGE_REF
ADB_SECONDCAVITY_MIX_MR_LEAKAGE_REF
ADB_FIRSTCAVITY_MIX_VR_LEAKAGE_REF
ADB_SECONDCAVITY_MIX_VR_LEAKAGE_REF
**
**Define elset to assign section
**
*ELSET, ELSET=ELSET_ALL
ISO_SINGLECAVITY_1GAS_M_FLUX
ISO_SINGLECAVITY_1GAS_V_FLUX
ISO_SINGLECAVITY_1GAS_B_VISCOSITY
ISO_SINGLECAVITY_1GAS_ORIFICE_T
ISO_SINGLECAVITY_1GAS_F_LEAKAGE
ISO_SINGLECAVITY_1GAS_MR_LEAKAGE
ISO_SINGLECAVITY_1GAS_VR_LEAKAGE
ISO_SINGLECAVITY_MIX_M_FLUX
ISO_SINGLECAVITY_MIX_V_FLUX
ISO_SINGLECAVITY_MIX_B_VISCOSITY
ISO_SINGLECAVITY_MIX_ORIFICE_T
ISO_SINGLECAVITY_MIX_F_LEAKAGE
ISO_SINGLECAVITY_MIX_MR_LEAKAGE
ISO_SINGLECAVITY_MIX_VR_LEAKAGE
ISO_FIRSTCAVITY_1GAS_M_FLUX
ISO_SECONDCAVITY_1GAS_M_FLUX
ISO_FIRSTCAVITY_1GAS_V_FLUX
ISO_SECONDCAVITY_1GAS_V_FLUX
ISO_FIRSTCAVITY_1GAS_B_VISCOSITY
ISO_SECONDCAVITY_1GAS_B_VISCOSITY
ISO_FIRSTCAVITY_1GAS_ORIFICE_T
ISO_SECONDCAVITY_1GAS_ORIFICE_T
ISO_FIRSTCAVITY_1GAS_F_LEAKAGE
ISO_SECONDCAVITY_1GAS_F_LEAKAGE
ISO_FIRSTCAVITY_1GAS_MR_LEAKAGE
ISO_SECONDCAVITY_1GAS_MR_LEAKAGE
ISO_FIRSTCAVITY_1GAS_VR_LEAKAGE
ISO_SECONDCAVITY_1GAS_VR_LEAKAGE
ISO_FIRSTCAVITY_MIX_M_FLUX
ISO_SECONDCAVITY_MIX_M_FLUX
ISO_FIRSTCAVITY_MIX_V_FLUX
ISO_SECONDCAVITY_MIX_V_FLUX
ISO_FIRSTCAVITY_MIX_B_VISCOSITY
ISO_SECONDCAVITY_MIX_B_VISCOSITY
ISO_FIRSTCAVITY_MIX_ORIFICE_T
ISO_SECONDCAVITY_MIX_ORIFICE_T
ISO_FIRSTCAVITY_MIX_F_LEAKAGE
ISO_SECONDCAVITY_MIX_F_LEAKAGE
ISO_FIRSTCAVITY_MIX_MR_LEAKAGE
ISO_SECONDCAVITY_MIX_MR_LEAKAGE
ISO_FIRSTCAVITY_MIX_VR_LEAKAGE
ISO_SECONDCAVITY_MIX_VR_LEAKAGE
ADB_SINGLECAVITY_1GAS_M_FLUX
ADB_SINGLECAVITY_1GAS_V_FLUX
ADB_SINGLECAVITY_1GAS_B_VISCOSITY
ADB_SINGLECAVITY_1GAS_ORIFICE_T
ADB_SINGLECAVITY_1GAS_F_LEAKAGE
ADB_SINGLECAVITY_1GAS_MR_LEAKAGE
ADB_SINGLECAVITY_1GAS_VR_LEAKAGE
ADB_SINGLECAVITY_MIX_M_FLUX
ADB_SINGLECAVITY_MIX_V_FLUX
ADB_SINGLECAVITY_MIX_B_VISCOSITY
ADB_SINGLECAVITY_MIX_ORIFICE_T
ADB_SINGLECAVITY_MIX_F_LEAKAGE
ADB_SINGLECAVITY_MIX_MR_LEAKAGE
ADB_SINGLECAVITY_MIX_VR_LEAKAGE
ADB_FIRSTCAVITY_1GAS_M_FLUX
ADB_SECONDCAVITY_1GAS_M_FLUX
ADB_FIRSTCAVITY_1GAS_V_FLUX
ADB_SECONDCAVITY_1GAS_V_FLUX
ADB_FIRSTCAVITY_1GAS_B_VISCOSITY
ADB_SECONDCAVITY_1GAS_B_VISCOSITY
ADB_FIRSTCAVITY_1GAS_ORIFICE_T
ADB_SECONDCAVITY_1GAS_ORIFICE_T
ADB_FIRSTCAVITY_1GAS_F_LEAKAGE
ADB_SECONDCAVITY_1GAS_F_LEAKAGE
ADB_FIRSTCAVITY_1GAS_MR_LEAKAGE
ADB_SECONDCAVITY_1GAS_MR_LEAKAGE
ADB_FIRSTCAVITY_1GAS_VR_LEAKAGE
ADB_SECONDCAVITY_1GAS_VR_LEAKAGE
ADB_FIRSTCAVITY_MIX_M_FLUX
ADB_SECONDCAVITY_MIX_M_FLUX
ADB_FIRSTCAVITY_MIX_V_FLUX
ADB_SECONDCAVITY_MIX_V_FLUX
ADB_FIRSTCAVITY_MIX_B_VISCOSITY
ADB_SECONDCAVITY_MIX_B_VISCOSITY
ADB_FIRSTCAVITY_MIX_ORIFICE_T
ADB_SECONDCAVITY_MIX_ORIFICE_T
ADB_FIRSTCAVITY_MIX_F_LEAKAGE
ADB_SECONDCAVITY_MIX_F_LEAKAGE
ADB_FIRSTCAVITY_MIX_MR_LEAKAGE
ADB_SECONDCAVITY_MIX_MR_LEAKAGE
ADB_FIRSTCAVITY_MIX_VR_LEAKAGE
ADB_SECONDCAVITY_MIX_VR_LEAKAGE
**
**Section assignment
**
*SURFACE SECTION, ELSET=ELSET_ALL
**
**Node set defined for output request
**
*NSET, NSET=qa_testCAVITY_REF_NODES
ISOTHERMAL_PRIMARY_CAVITY_REF_NODES, ISOTHERMAL_SECONDARY_CAVITY_REF_NODES, ADIABATIC_CAVITY_REF_NODES
**
**Step 1: Activate fluid exchange between single cavity and its environment and between two fluid cavities.
**
*STEP
*DYNAMIC, EXPLICIT, DIRECT USER CONTROL
0.001, 1.0
**
**Prescribe temperature BC for isothermal fluid cavities
**
*TEMPERATURE
ISOTHERMAL_PRIMARY_CAVITY_REF_NODES, 100
ISOTHERMAL_SECONDARY_CAVITY_REF_NODES, 60
**
**Activate fluid exchange
**
*FLUID EXCHANGE ACTIVATION
ISO_SINGLECAVITY_1GAS_M_FLUX
ISO_SINGLECAVITY_1GAS_V_FLUX
ISO_SINGLECAVITY_1GAS_B_VISCOSITY
ISO_SINGLECAVITY_1GAS_ORIFICE_T
ISO_SINGLECAVITY_1GAS_F_LEAKAGE
ISO_SINGLECAVITY_1GAS_MR_LEAKAGE
ISO_SINGLECAVITY_1GAS_VR_LEAKAGE
ISO_SINGLECAVITY_MIX_M_FLUX
ISO_SINGLECAVITY_MIX_V_FLUX
ISO_SINGLECAVITY_MIX_B_VISCOSITY
ISO_SINGLECAVITY_MIX_ORIFICE_T
ISO_SINGLECAVITY_MIX_F_LEAKAGE
ISO_SINGLECAVITY_MIX_MR_LEAKAGE
ISO_SINGLECAVITY_MIX_VR_LEAKAGE
ISO_DUALCAVITY_1GAS_M_FLUX
ISO_DUALCAVITY_1GAS_V_FLUX
ISO_DUALCAVITY_1GAS_B_VISCOSITY
ISO_DUALCAVITY_1GAS_ORIFICE_T
ISO_DUALCAVITY_1GAS_F_LEAKAGE
ISO_DUALCAVITY_1GAS_MR_LEAKAGE
ISO_DUALCAVITY_1GAS_VR_LEAKAGE
ISO_DUALCAVITY_MIX_M_FLUX
ISO_DUALCAVITY_MIX_V_FLUX
ISO_DUALCAVITY_MIX_B_VISCOSITY
ISO_DUALCAVITY_MIX_ORIFICE_T
ISO_DUALCAVITY_MIX_F_LEAKAGE
ISO_DUALCAVITY_MIX_MR_LEAKAGE
ISO_DUALCAVITY_MIX_VR_LEAKAGE
ADB_SINGLECAVITY_1GAS_M_FLUX
ADB_SINGLECAVITY_1GAS_V_FLUX
ADB_SINGLECAVITY_1GAS_B_VISCOSITY
ADB_SINGLECAVITY_1GAS_ORIFICE_T
ADB_SINGLECAVITY_1GAS_F_LEAKAGE
ADB_SINGLECAVITY_1GAS_MR_LEAKAGE
ADB_SINGLECAVITY_1GAS_VR_LEAKAGE
ADB_SINGLECAVITY_MIX_M_FLUX
ADB_SINGLECAVITY_MIX_V_FLUX
ADB_SINGLECAVITY_MIX_B_VISCOSITY
ADB_SINGLECAVITY_MIX_ORIFICE_T
ADB_SINGLECAVITY_MIX_F_LEAKAGE
ADB_SINGLECAVITY_MIX_MR_LEAKAGE
ADB_SINGLECAVITY_MIX_VR_LEAKAGE
ADB_DUALCAVITY_1GAS_M_FLUX
ADB_DUALCAVITY_1GAS_V_FLUX
ADB_DUALCAVITY_1GAS_B_VISCOSITY
ADB_DUALCAVITY_1GAS_ORIFICE_T
ADB_DUALCAVITY_1GAS_F_LEAKAGE
ADB_DUALCAVITY_1GAS_MR_LEAKAGE
ADB_DUALCAVITY_1GAS_VR_LEAKAGE
ADB_DUALCAVITY_MIX_M_FLUX
ADB_DUALCAVITY_MIX_V_FLUX
ADB_DUALCAVITY_MIX_B_VISCOSITY
ADB_DUALCAVITY_MIX_ORIFICE_T
ADB_DUALCAVITY_MIX_F_LEAKAGE
ADB_DUALCAVITY_MIX_MR_LEAKAGE
ADB_DUALCAVITY_MIX_VR_LEAKAGE
**
**Time interval for history output should be changed to smaller value like 0.01 for correct XY curves especially for variables like CMFL, the XY-plot will change between t=0 and t=0.25 in case of fluid exchange between 2 cavities for mass rate leakage type of fluid exchange property.
**
*OUTPUT, HISTORY, TIME INTERVAL=0.25
**
**CTEMP will not be written to odb for isothermal fluid cavities. 
**
*NODE OUTPUT, NSET=qa_testCAVITY_REF_NODES
PCAV, CMFL, CMFLT, CMASS, CTEMP, CMF
*END STEP