| Name | Description |
|---|
| get_init_segment_enthalpy_linear | [nLayer, T1, T2, T3, T4, T1_layer, T2_layer, T3_layer, T4_layer] calculates initial values through linear interpolation between the four measured temperatures in the tank |
| get_init_segment_enthalpy_piecewise_linear | [nLayer, T1, T2, T3, T4, T1_layer, T2_layer, T3_layer, T4_layer] calculates initial values through linear interpolation between the four measured temperatures in the tank |
| get_init_segment_enthalpy_piecewise_linear_Input_Kelvin | [nLayer, T1, T2, T3, T4, T1_layer, T2_layer, T3_layer, T4_layer] calculates initial values through linear interpolation between the four measured temperatures in the tank |
| get_Layer | [height_port, layer_height, nLayer] Calculates the layer for a given height. |
| get_PortCountVector | generates port count vector for tank with solar, CHP and grid in and outputs |
| get_PortCountVector_addPorts | generates port count vector for tank with solar, CHP, grid and additional in and outputs |
| get_PortCountVector_noSolar | generates port count vector for tank with solar, CHP and grid in and outputs |
| get_PortCountVector_noSolar_addPorts | generates port count vector for tank with solar, CHP and grid in and outputs |
| get_Ports | Gets ports according to the function "get_PortCountVector" |
| get_Ports_addPorts | Gets ports according to the function "get_PortCountVector" |
| get_Ports_noSolar | Gets ports according to the function "get_PortCountVector" |
| get_Ports_noSolar_addPorts | Gets ports according to the function "get_PortCountVector" |
| get_SolarInputFraction_Exp | returns vector with fraction of total inflow for each solar input layer. sum of fractions is 1. |
| partial_get_init_segment_enthalpy | Defines the initial specific enthalpy for each segment |
| trapezoid_Geometry_CrossAreas | |
| trapezoid_Geometry_Volumes | |
| trapezoid_Geometry_WallAreas | |