Change convection var. name

ethz-pes · Apr 24, 2020 · 9d1813b · 9d1813b
1 parent 3b3e551
commit 9d1813b
Show file tree

Hide file tree

Showing 2 changed files with 10 additions and 8 deletions.
diff --git a/source_inductor/inductor_fem_ann/+fem_ann/get_out_approx_ht.m b/source_inductor/inductor_fem_ann/+fem_ann/get_out_approx_ht.m
@@ -26,8 +26,9 @@
 k_core = inp.k_core;
 k_winding_n = inp.k_winding_n;
 k_iso = inp.k_iso;
-h_exposed = inp.h_exposed;
-h_internal = inp.h_internal;
+h_convection = inp.h_convection;
+fact_exposed = inp.fact_exposed;
+fact_internal = inp.fact_internal;
 T_ambient = inp.T_ambient;
 P_core = inp.P_core;
 P_winding = inp.P_winding;
@@ -42,13 +43,13 @@
 R_iso_winding_exposed = d_iso./(S_winding_exposed.*k_iso);
 
 % convection resistance of the core (exposed and semi-exposed area in parallel)
-R_conv_core_exposed = 1./(h_exposed.*S_core_exposed);
-R_conv_core_internal = 1./(h_internal.*S_core_internal);
+R_conv_core_exposed = 1./(fact_exposed.*h_convection.*S_core_exposed);
+R_conv_core_internal = 1./(fact_internal.*h_convection.*S_core_internal);
 R_extract_winding = 1./((1./R_conv_core_exposed)+(1./R_conv_core_internal));
 
 % convection resistance of the winding (in insulation resistance, exposed and semi-exposed area in parallel)
-R_conv_winding_exposed = 1./(h_exposed.*S_winding_exposed);
-R_conv_winding_internal = 1./(h_internal.*S_winding_internal);
+R_conv_winding_exposed = 1./(fact_exposed.*h_convection.*S_winding_exposed);
+R_conv_winding_internal = 1./(fact_internal.*h_convection.*S_winding_internal);
 R_extract_core = 1./((1./(R_conv_winding_exposed+R_iso_winding_exposed))+(1./(R_conv_winding_internal+R_iso_winding_internal)));
 
 % solve the linear thermal circuit

diff --git a/source_input/get_fem_ann_data_init.m b/source_input/get_fem_ann_data_init.m
@@ -20,8 +20,9 @@
 const.k_winding_n = 0.3; % thermal conductivity of the winding (normal direction)
 const.k_contact = 0.1; % thermal conductivity of the winding/core/insulation contact
 const.d_contact = 100e-6; % physical gap for winding/core/insulation contact
-const.h_exposed = 20.0; % convection coefficient fot the exposed area
-const.h_internal = 5.0; % convection coefficient fot the semi-exposed area
+const.h_convection = 20.0; % convection coefficient reference value
+const.fact_exposed = 1.0; % convection scaling factor for the exposed area
+const.fact_internal = 0.25; % convection scaling factor for the semi-exposed area
 const.T_ambient = 0.0; % ambient temperature for the FEM simulation
 
 % FEM mesh control