Différences

Ci-dessous, les différences entre deux révisions de la page.

--- sunfluidh:fluid_properties_examples [2016/11/18 12:52] – [Examples of data set] yann
+++ sunfluidh:fluid_properties_examples [2016/11/29 14:58] (Version actuelle) – yann
@@ Ligne 15: / Ligne 15: @@
 The gravity or buoyancy effects are related to the temperature variation only.\\
 </WRAP>
-=== Isotherm flows ===
+=== Isothermal flows ===
    &Fluid_Properties  Reference_Dynamic_Viscosity = 1.84D-05 ,
                       Reference_Density           = 1.2058789  /
-=== Example of isothermal and axisymmetrical flows ===
+=== Example of axisymmetrical flows ===
   &Fluid_Properties  Axisymmetric_Case_3D_Enabled= .true. ,
@@ Ligne 26: / Ligne 26: @@
                      Reference_Density           = 1.20    /
-<note important> In this case, do not forget to define the domain in cylindrical geometry (see the Namelist [[sunfluidh:domain_features_namelist| "Domain_Features"]] ).</note>
+<note important> In this case, do not forget to define the domain in cylindrical geometry (see the Namelist [[sunfluidh:domain_features_namelist| "Domain_Features"]] .</note>
@@ Ligne 96: / Ligne 96: @@
 The heat capacity is calculated from the constant of perfect gas ($R=8.3144598 J.mol^{-1}.K^{-1}$), the "Heat_Capacity_Ratio" and the "Molecular_Mass " of the gas. \\
 In the dimensionless form, the specific gas constant is generally equal to unity and the heat capacity is $C_p= \frac{\gamma}{\gamma -1}$. The reference value of the molecular mass must be set to the constant of perfect gas $R$.\\
-If gravity/buoyancy effects must be considered, they are directly bounded to the density variation. The variable "Thermal_Heat_Expansion" can be omitted and the gravity source term can be defined in the namelist [[sunfluidh:gravity_namelist| "Gravity"]].</note>
+If gravity/buoyancy effects must be considered, they are directly connected to the density variation. The variable "Thermal_Heat_Expansion" can be omitted and the gravity source term can be defined in the namelist [[sunfluidh:gravity_namelist| "Gravity"]].</note>
 === Multi-species flows ===
@@ Ligne 122: / Ligne 122: @@
-<note important>The reference values must be compatible each others (bounded by the law of perfect gas).\\
+<note important>The reference values must be compatible each others (by means of law of perfect gas).\\
 In this example, the physical properties are not constant depend on the gas mixture and the temperature. They are calculated in each cell for each time step by means of formulations coming from the kinetic theory of gas.\\
-The gas properties bounded to each species are provided by the namelist [[sunfluidh:species_properties_namelist|"Species_Properties"]].</note>
+The gas properties associated to each species are provided by the namelist [[sunfluidh:species_properties_namelist|"Species_Properties"]].</note>