Item Content JEVEUX ========================= Purpose. FSIC ----------- * '(11). FSIC ': S V I LONG =2 .. csv-table:: "V (1)", "type of configuration of the structure under flow: = 1 if the configuration is FAISCEAU_TRANS = 2 if the configuration is GRAPPE = 3 if the configuration is FAISCEAU_AXIAL = 4 if the configuration is COQUE_COAX" "V (2)", "= 1 if fluid-structure coupling is taken into account and 0 otherwise" Purpose. FSVI ----------- * '(11). FSVI ': S V I LONG =variable (see below) **For a "FAISCEAU_TRANS "configuration** .. csv-table:: "V (2)", "zone number (nbzone)" **If there is fluid-structure coupling** +--------------------------+--------------------------------------------------------------------------------------------------------------+ |LONG =2+2*nbzone | +--------------------------+--------------------------------------------------------------------------------------------------------------+ |V (1) |1 if the step is of the square line type (CARRE_LIGN) 2 if the step is of the triangular line type (TRIA_LIGN)| +--------------------------+--------------------------------------------------------------------------------------------------------------+ |V (3 to 2+nbzone) |Indicator defining the experimental configuration for which the coupling coefficients were obtained | +--------------------------+--------------------------------------------------------------------------------------------------------------+ |V (3+nbzone to 2+2*nbzone)|Number of discretization points per zone for the Connors method | +--------------------------+--------------------------------------------------------------------------------------------------------------+ **If there is no fluid-structure coupling** +-------+------------------+ |LONG =2 | +-------+------------------+ |V (1) |Not worth anything| +-------+------------------+ **For a "GRAPPE "configuration** The object does not exist **For a "FAISCEAU_AXIAL "configuration** .. csv-table:: "V (1)", "1 if the study is carried out on a *simplified bundle* 0 if the study is carried out on a *complete beam*" "V (5)", "number of different grid types (nbtype)" **If the study is done on a***complete beam* **If grids** are used**** (nbtype>0) ** +-----------------+-----------------------------------------------------------------------------------------------------------------------------------+ |LONG =6+nbtype | +-----------------+-----------------------------------------------------------------------------------------------------------------------------------+ |V (2) |1 if the beam is oriented along the OX axis 2 if the beam is oriented along the OY axis 3 if the beam is oriented along the OZ axis| +-----------------+-----------------------------------------------------------------------------------------------------------------------------------+ |V (3) |1 if the enclosure is circular 2 if the enclosure is rectangular | +-----------------+-----------------------------------------------------------------------------------------------------------------------------------+ |V (4) |Number of group of elements corresponding to the bundle | +-----------------+-----------------------------------------------------------------------------------------------------------------------------------+ |V (6) |total grid number (nbgrid) | +-----------------+-----------------------------------------------------------------------------------------------------------------------------------+ |V (7 to 6+nbtype)|type of grid | +-----------------+-----------------------------------------------------------------------------------------------------------------------------------+ *Note:* *I can't find information on the type of grid anywhere. So I don't know how to match this integer to the physical representation of the grid* **If you don't use a grid (nbtype=0)** +-------+-----------------------------------------------------------------------------------------------------------------------------------+ |LONG =5 | +-------+-----------------------------------------------------------------------------------------------------------------------------------+ |V (2) |1 if the beam is oriented along the OX axis 2 if the beam is oriented along the OY axis 3 if the beam is oriented along the OZ axis| +-------+-----------------------------------------------------------------------------------------------------------------------------------+ |V (3) |1 if the enclosure is circular 2 if the enclosure is rectangular | +-------+-----------------------------------------------------------------------------------------------------------------------------------+ |V (4) |Number of group of elements corresponding to the bundle | +-------+-----------------------------------------------------------------------------------------------------------------------------------+ **If the study is done on a***simplified beam* .. csv-table:: "V (4)", "zone number (nbzone)" **If you use grids (nbtype>0)** +-------------------------------+-----------------------------------------------------------------------------------------------------------------------------------+ |LONG =7+nbtype+nbzone | +-------------------------------+-----------------------------------------------------------------------------------------------------------------------------------+ |V (2) |1 if the beam is oriented along the OX axis 2 if the beam is oriented along the OY axis 3 if the beam is oriented along the OZ axis| +-------------------------------+-----------------------------------------------------------------------------------------------------------------------------------+ |V (3) |1 if the enclosure is circular 2 if the enclosure is rectangular | +-------------------------------+-----------------------------------------------------------------------------------------------------------------------------------+ |V (6) |total pipe number (nbtube) | +-------------------------------+-----------------------------------------------------------------------------------------------------------------------------------+ |V (7 to 6+nbzone) |Number of tubes per zone | +-------------------------------+-----------------------------------------------------------------------------------------------------------------------------------+ |V (7+nbzone) |Grid number | +-------------------------------+-----------------------------------------------------------------------------------------------------------------------------------+ |V (8+nbzone to 7+nbtype+nbzone)|type of grid | +-------------------------------+-----------------------------------------------------------------------------------------------------------------------------------+ **If you don't use a grid (nbtype=0)** +-----------------+-----------------------------------------------------------------------------------------------------------------------------------+ |LONG =6+nbzone | +-----------------+-----------------------------------------------------------------------------------------------------------------------------------+ |V (2) |1 if the beam is oriented along the OX axis 2 if the beam is oriented along the OY axis 3 if the beam is oriented along the OZ axis| +-----------------+-----------------------------------------------------------------------------------------------------------------------------------+ |V (3) |1 if the enclosure is circular 2 if the enclosure is rectangular | +-----------------+-----------------------------------------------------------------------------------------------------------------------------------+ |V (6) |total pipe number (nbtube) | +-----------------+-----------------------------------------------------------------------------------------------------------------------------------+ |V (7 to 6+nbzone)|Number of tubes per zone | +-----------------+-----------------------------------------------------------------------------------------------------------------------------------+ **For a configuration** COQUE_COAX . +-------+-----------------------------------------------------------------------------------------------------------------------------------+ |LONG =2 | +-------+-----------------------------------------------------------------------------------------------------------------------------------+ |V (1) |1 if fluid-structure coupling is taken into account and 0 if not | +-------+-----------------------------------------------------------------------------------------------------------------------------------+ |V (2) |1 if the beam is oriented along the OX axis 2 if the beam is oriented along the OY axis 3 if the beam is oriented along the OZ axis| +-------+-----------------------------------------------------------------------------------------------------------------------------------+ *General note on item FSVI :* *Several pieces of information are redundant (in particular the number of zones or the consideration of fluid-structure coupling). In addition, the same information is not available in the same places depending on the configuration, which makes it very complicated to get started with this operator*. Purpose. FSVK ----------- .. code-block:: text '(11). FSVK ': S V K8 LONG =variable (see below) **For a configuration** FAISCEAU_TRANS +-----------------+--------------------------------------------------------------------------------+ |LONG =4+nbzone | +-----------------+--------------------------------------------------------------------------------+ |V (1) |Name of the concept cara_elemdefining the beam | +-----------------+--------------------------------------------------------------------------------+ |V (2) |'DX', 'DY', or 'DZ'to indicate the direction in which fluid-elastic forces apply| +-----------------+--------------------------------------------------------------------------------+ |V (3) |Function-type concept defining the density of the internal fluid | +-----------------+--------------------------------------------------------------------------------+ |V (4) |Function-type concept defining the density of the external fluid | +-----------------+--------------------------------------------------------------------------------+ |V (5 to 4+nbzone)|function-type concept defining the fluid speed profile for each zone | +-----------------+--------------------------------------------------------------------------------+ **For a configuration** GRAPPE The object only exists if the coupling is active +-------+-------------------------------------------------------------+ |LONG =4 | +-------+-------------------------------------------------------------+ |V (1) |type of flow corresponding to the experimental configurations| +-------+-------------------------------------------------------------+ |V (2) |Names of the node where fluid-elastic forces apply | +-------+-------------------------------------------------------------+ |V (3) |Name of the concept sd_cara_elemdefining the beam | +-------+-------------------------------------------------------------+ |V (4) |Name of the sd_model concept defining the beam | +-------+-------------------------------------------------------------+ **For a configuration** FAISCEAU_AXIAL **If the study is done on a***complete beam* . +-------+-------------------------------------------------------------------+ |LONG =3 | +-------+-------------------------------------------------------------------+ |V (1) |Function-type concept defining the density of the fluid | +-------+-------------------------------------------------------------------+ |V (2) |Function-type concept defining the kinematic viscosity of the fluid| +-------+-------------------------------------------------------------------+ |V (3) |Name of the concept cara_elemdefining the beam | +-------+-------------------------------------------------------------------+ **If the study is done on a***simplified beam* +-------+-------------------------------------------------------------------+ |LONG =2 | +-------+-------------------------------------------------------------------+ |V (1) |Function-type concept defining the density of the fluid | +-------+-------------------------------------------------------------------+ |V (2) |Function-type concept defining the kinematic viscosity of the fluid| +-------+-------------------------------------------------------------------+ **For a configuration** COQUE_COAX +-------+------------------------------------------------------------+ |LONG =3 | +-------+------------------------------------------------------------+ |V (1) |Name of the concept sd_cara_elemdefining the beam | +-------+------------------------------------------------------------+ |V (2) |Name of the sd_master concept defining the internal material| +-------+------------------------------------------------------------+ |V (3) |Name of the sd_master concept defining the external material| +-------+------------------------------------------------------------+ Purpose. FSVR ----------- * '(11). FSVR ': S V R LONG =variable (see below) **For a configuration** FAISCEAU_TRANS **If there is a coupling** . +-------------------+----------------------------------------------------------------------+ |LONG =3+2*nbzone | +-------------------+----------------------------------------------------------------------+ |V (1) |mass coefficient added | +-------------------+----------------------------------------------------------------------+ |V (2) |not reduced | +-------------------+----------------------------------------------------------------------+ |V (3) |density of the tube | +-------------------+----------------------------------------------------------------------+ |V (4 to 3+2*nbzone)|Bound of the Connors constant interval for the method of the same name| +-------------------+----------------------------------------------------------------------+ **If there is no pairing** +-------+----------------------+ |LONG =1 | +-------+----------------------+ |V (1) |mass coefficient added| +-------+----------------------+ **For a configuration** GRAPPE **The object only exists if there is a coupling** +-------+----------------------+ |LONG =2 | +-------+----------------------+ |V (1) |mass coefficient added| +-------+----------------------+ |V (2) |density of the fluid | +-------+----------------------+ **For a configuration** FAISCEAU_TRANS **If the study is done on a***complete beam* +--------------------------------+------------------------------------------------------------------------------------------------+ |**If the enclosure is circular** | +--------------------------------+------------------------------------------------------------------------------------------------+ |LONG =8 | +--------------------------------+------------------------------------------------------------------------------------------------+ |V (1 to 4) |value of the gravity vector (intensity and directions) | +--------------------------------+------------------------------------------------------------------------------------------------+ |V (5) |tube roughness | +--------------------------------+------------------------------------------------------------------------------------------------+ |V (6 to 8) |characteristics of the circular wall, with in order the coordinates of the center and the radius| +--------------------------------+------------------------------------------------------------------------------------------------+ +---------------------------------+----------------------------------------------------------------------------------------------------------------------------------------------------+ |**If the speaker is rectangular** | +---------------------------------+----------------------------------------------------------------------------------------------------------------------------------------------------+ |LONG =10 | +---------------------------------+----------------------------------------------------------------------------------------------------------------------------------------------------+ |V (1 to 4) |value of the gravity vector (intensity and directions) | +---------------------------------+----------------------------------------------------------------------------------------------------------------------------------------------------+ |V (5) |tube roughness | +---------------------------------+----------------------------------------------------------------------------------------------------------------------------------------------------+ |V (6 to 10) |characteristics of the rectangular wall, with in order the coordinates of the center and then the dimensions of the enclosure along the OYet OZ axis| +---------------------------------+----------------------------------------------------------------------------------------------------------------------------------------------------+ **If the study is done on a simplified harness* +--------------------------------+------------------------------------------------------------------------------------------------+ |**If the enclosure is circular** | +--------------------------------+------------------------------------------------------------------------------------------------+ |LONG =8+nbzone | +--------------------------------+------------------------------------------------------------------------------------------------+ |V (1 to 4) |value of the gravity vector (intensity and directions) | +--------------------------------+------------------------------------------------------------------------------------------------+ |V (5) |tube roughness | +--------------------------------+------------------------------------------------------------------------------------------------+ |V (6 to 8) |characteristics of the circular wall, with in order the coordinates of the center and the radius| +--------------------------------+------------------------------------------------------------------------------------------------+ |V (9 to 8+nbzone) |radius of the tubes for each zone | +--------------------------------+------------------------------------------------------------------------------------------------+ +---------------------------------+------------------------------------------------------------------------------------------------------------------------------------------------------+ |**If the speaker is rectangular** | +---------------------------------+------------------------------------------------------------------------------------------------------------------------------------------------------+ |LONG =10+nbzone | +---------------------------------+------------------------------------------------------------------------------------------------------------------------------------------------------+ |V (1 to 4) |value of the gravity vector (intensity and directions) | +---------------------------------+------------------------------------------------------------------------------------------------------------------------------------------------------+ |V (5) |tube roughness | +---------------------------------+------------------------------------------------------------------------------------------------------------------------------------------------------+ |V (6 to 10) |characteristics of the rectangular wall, with in order the coordinates of the center and then the dimensions of the enclosure along the axis OY and OZ| +---------------------------------+------------------------------------------------------------------------------------------------------------------------------------------------------+ |V (11 to 10+nbzone) |radius of the tubes for each zone | +---------------------------------+------------------------------------------------------------------------------------------------------------------------------------------------------+ **For a configuration** COQUE_COAX +-------+---------------------------------------------------------------+ |LONG =7 | +-------+---------------------------------------------------------------+ |V (1) |density of the fluid | +-------+---------------------------------------------------------------+ |V (2) |kinematic viscosity of the fluid | +-------+---------------------------------------------------------------+ |V (3) |absolute roughness of shell walls | +-------+---------------------------------------------------------------+ |V (4) |Average stationary part of the input pressure loss coefficient | +-------+---------------------------------------------------------------+ |V (5) |dynamic stationary part of the input pressure loss coefficient | +-------+---------------------------------------------------------------+ |V (6) |Average stationary part of the output pressure loss coefficient| +-------+---------------------------------------------------------------+ |V (7) |dynamic stationary part of the output pressure loss coefficient| +-------+---------------------------------------------------------------+ Purpose. FSGM ----------- **For a configuration** FAISCEAU_TRANS The object does not exist **For a configuration** GRAPPE The object does not exist **For a configuration** FAISCEAU_AXIAL **If the study is done on a***complete beam* . +-------------------------------------------+------------------------------------------------+ |**If the keyword is used** **TRI_GROUP_MA** | +-------------------------------------------+------------------------------------------------+ |LONG =1 | +-------------------------------------------+------------------------------------------------+ |V (1) |generic name of the set of meshes | +-------------------------------------------+------------------------------------------------+ |**If the keyword is used** **GROUP_MA** | +-------------------------------------------+------------------------------------------------+ |LONG =nbma | +-------------------------------------------+------------------------------------------------+ |V (1 to nbma) |Name of the groups of cells composing the bundle| +-------------------------------------------+------------------------------------------------+ **If the study is done on a***simplified beam* +---------------+------------------------------------+ |LONG =nbzone | +---------------+------------------------------------+ |V (1 to nbzone)|Name of the mesh group for each zone| +---------------+------------------------------------+ **For a configuration** COQUE_COAX +-------+----------------------------------------------------+ |LONG =2 | +-------+----------------------------------------------------+ |V (1) |Name of the mesh group that makes up the inner shell| +-------+----------------------------------------------------+ |V (2) |Name of the mesh group that makes up the outer shell| +-------+----------------------------------------------------+ Purpose. FSGR ----------- .. code-block:: text '(11). FSGR ': S V R LONG =nbgrid+6*nbtype This object only exists in a grid-aware FAISCEAU_AXIAL configuration .. csv-table:: "V (1 to nbgrid)", "list of coordinates of the midpoint of each grid" "V (1+nbgrid to nbgrid+nbtype)", "grid length for each grid type" "V (1+nbgrid+nbtype to nbgrid+2*nbtype)", "grid width for each grid type" "V (1+nbgrid+2*nbtype to nbgrid+3*nbtype)", "grid thickness for each grid type" "V (1+nbgrid+3*nbtype to nbgrid+4*nbtype)", "grid drag coefficient for each grid type" "V (1+nbgrid+4*nbtype to nbgrid+5*nbtype)", "grid load coefficient for each grid type" "V (1+nbgrid+5*nbtype to nbgrid+6*nbtype)", "grid roughness for each grid type" Purpose. FSCR ----------- .. code-block:: text '(11). FSCR ': S V R LONG =2*nbtube This object only exists in a FAISCEAU_AXIAL configuration with simplified representation .. csv-table:: "V (1 to 2*nbtube)", "list of the coordinates of the centers of the tubes (x-axis followed by the y-axis for each tube)" Purpose. UNITE. FAISCEAU --------------------- .. code-block:: text 'UNITE. FAISCEAU ': S V I LONG =2 This object only exists in a FAISCEAU_TRANS configuration .. csv-table:: "V (1)", "logical unit number of the file providing useful values (by default 70)" "V (2)", "logical unit number of the file providing other useful values (by default 71)" Purpose. UNITE. GRAPPES -------------------- 'UNITE. GRAPPES ': S V I LONG =2 This object only exists in a GRAPPE configuration .. csv-table:: "V (1)", "logical unit number of the file providing useful values (by default 70)" "V (2)", "logical unit number of the file providing other useful values (by default 71)"