Modeling A
==============


Characteristics of modeling
-----------------------------------

For the 3D system on which the added coefficients are calculated:


.. csv-table::

    "For the solid:", "160 meshes QUAD4
    shell elements MEDKQU4"
    "", ""
    "For the fluid:", "160 meshes QUAD4"
    "", "thermal elements THER_FACE4"
    "", "on the flat surface"
    "", ""
    "", "184 stitches QUAD4"
    "", "thermal elements THER_FACE4"
    "", "on the inlet and outlet faces of the fluid volume"
    "", ""
    "", "480 meshes HEXA8"
    "", "thermal elements THER_HEXA8"
    "", "in the fluid volume"



Tested sizes and results
------------------------------

 **For the case** **SPEC_CORR_CONV_1**


.. csv-table::

    "**Identification**", "**frequency (** :math:`\mathrm{Hz}` **)**", "**Reference type**", "**Reference**", "**%** tolerance"
    ":math:`\mathit{SF1F1}(\omega )\omega \mathrm{=}0.01` ", "1.59155e-03", "'NON_REGRESSION'", "7.288480E8", "-"
    ":math:`\mathit{SF}1F1(\mathrm{\omega })\mathrm{\omega }=1` ", "1.59155e-01", "'ANALYTIQUE'", "7.532370E6", "0.8"




.. csv-table::

    "**Identification**", "**frequency (** :math:`\mathrm{Hz}` **)**", "**Reference type**", "**Reference**", "**%** tolerance"
    ":math:`\mathit{SF1F1}(\omega )\omega \mathrm{=}0.01` ", "1.59155e-03", "'ANALYTIQUE', "''", "-", "-"
    ":math:`\mathit{SF}1F1(\mathrm{\omega })\mathrm{\omega }=1` ", "1.59155e-02", "'ANALYTIQUE'", "-", "-"


 **For the case** **SPEC_CORR_CONV_2** ****where we define an exponential spectrum function: **


.. csv-table::

    "**Identification**", "**frequency (** :math:`\mathrm{Hz}` **)**", "**Reference type**", "**Reference**", "**%** tolerance"
    ":math:`\mathit{SF}1F1(\mathrm{\omega })\mathrm{\omega }=0.01` ", "1.59155e-03", "'NON_REGRESSION', "''", "-", "-"
    ":math:`\mathit{SF}1F1(\mathrm{\omega })\mathrm{\omega }=0.1` ", "1.59155e-02", "'NON_REGRESSION'", "-", "-"