/EBCS/INIP
Block Format Keyword Describes the elementary boundary condition of initial pressure.
Format
(1) | (2) | (3) | (4) | (5) | (6) | (7) | (8) | (9) | (10) |
---|---|---|---|---|---|---|---|---|---|
/EBCS/INIP/ebcs_ID/unit_ID | |||||||||
ebcs_title | |||||||||
surf_ID | |||||||||
Rho | C |
Definition
Field | Contents | SI Unit Example |
---|---|---|
ebcs_ID | Elementary boundary
condition identifier. (Integer, maximum 10 digits) |
|
unit_ID | Unit Identifier (Integer, maximum 10 digits) |
|
ebcs_title | Elementary boundary
condition title. (Character, maximum 100 characters) |
|
surf_ID | Surface
identifier. (Integer) |
|
Rho | Initial density. Default = 0 (Real) |
|
C | Speed of sound. Default = 0 (Real) |
|
Characteristic
length. Default = 0 (Real) |
Comments
- Input is general, no prior assumptions are enforced! Verify that the elementary boundaries are consistent with general assumptions of ALE (equation closure).
- It is not advised to use the Hydrodynamic Bi-material Liquid Gas Law (/MAT/LAW37 (BIPHAS)) with the elementary boundary conditions.
- Density, pressure, and energy are imposed according to a scale factor and a time function. If the function number is 0, the imposed density, pressure and energy are used.
- This keyword is less than four
or equal to six (non-reflective frontiers (NRF)) using:
(1) Pressure in the far field is imposed with a function of time. The transient pressure is derived from , the local velocity field V and the normal of the outlet facet.
Where, is the characteristic length, to compute cutoff frequency as:(2) - A resistance pressure is
computed and added to the current pressure.
(3) It aims at modeling the friction loss due to the valves.