/EBCS/INLET
Block Format Keyword Define the inlet elementary boundary condition used with /MAT/LAW151.
Format
(1)  (2)  (3)  (4)  (5)  (6)  (7)  (8)  (9)  (10) 

/EBCS/INLET/form/ebcs_ID/unit_ID  
ebcs_title  
surf_ID  vel_flag  
fct_ID_{vx}  Fscale_{vx}  fct_ID_{vy}  Fscale_{vy}  fct_ID_{vz}  Fscale_{vz}  
fct_ID_{vf1}  Fscale_{vf1}  fct_ID_{rho1}  Fscale_{rho1}  fct_ID_{p_e1}  Fscale_{p_e1}  
etc  etc  etc  etc  etc  etc  
fct_ID_{vfN}  Fscale_{vfN}  fct_ID_{rhoN}  Fscale_{rhoN}  fct_ID_{p_eN}  Fscale_{p_eN} 
Definitions
Field  Contents  SI Unit Example 

form  Formulation of INLET
boundary condition.


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) 

vel_flag  Velocity type of INLET boundary.
(Integer) 

fct_ID_{vx}  If
vel_flag =0, function
${\mathrm{f}}_{VX}\left(t\right)$
identifier is the normal
velocity. If vel_flag =1, function ${\mathrm{f}}_{VX}\left(t\right)$ identifier for X velocity.
(Integer) 

Fscale_{vx}  If
vel_flag =0, normal velocity
scale factor If vel_flag =1, X velocity scale factor Default = 0.0 (Real) 
$\left[\frac{\text{m}}{\text{s}}\right]$ 
fct_ID_{vy}  Function
${\mathrm{f}}_{VY}\left(t\right)$
identifier for Y velocity.
(Integer) 

Fscale_{vy}  Y velocity scale
factor Default = 0 (Real) 
$\left[\frac{\text{m}}{\text{s}}\right]$ 
fct_ID_{vz}  Function
${\mathrm{f}}_{VZ}\left(t\right)$
identifier for Z velocity.
(Integer) 

Fscale_{vz}  Z velocity scale
factor. Default = 0 (Real) 
$\left[\frac{\text{m}}{\text{s}}\right]$ 
Field  Contents  SI Unit Example 

fct_ID_{vf1}  Function
${\mathrm{f}}_{vf}\left(t\right)$
identifier for volume fraction.
(Integer) 

Fscale_{vf1}  Alpha scale
factor. Default = 0 (Real) 

fct_ID_{rho1}  Function
${\mathrm{f}}_{rho}\left(t\right)$
identifier for density.
(Integer) 

Fscale_{rho1}  Density scale
factor. Default = 0 (Real) 
$\left[\frac{\text{kg}}{{\text{m}}^{\text{3}}}\right]$ 
fct_ID_{p_e1}  If
form =VE, function
identifier for energy,
${\mathrm{f}}_{p\_e}\left(t\right)$
. If form =VP, function identifier for pressure ${\mathrm{f}}_{p\_e}\left(t\right)$ .
(Integer) 

Fscale_{p_e1}  If
form =VE, energy scale
factor. If form =VP, pressure scale factor. Default = 0 (Real) 
$\left[\frac{\text{m}}{\text{s}}\right]$ 
Comments
 Input is general, no prior assumptions are enforced! You must verify that the elementary boundaries are consistent with general assumptions of ALE (equation closure).
 Density, pressure, energy are imposed according to a scale factor and a time function. If the function number is 0, the scale factor input is used as a contstant imposed density, pressure or energy.
 The INLET boundary condition is only compatible with /MAT/LAW151. Inlet functions for volume fraction, density and pressure (or energy depending on the formulation VP or VE) must be provided for every phase present in the /MAT/LAW151 card.
 If the function ID that defines the volume fraction, velocity, density, pressure or energy is equal to 1, the corresponding physical quantity is interpolated from the inside of the domain (zeros normal derivative).