To increase the model detail we now add an air model assuming the zone is 8m x 8m x 3m in size. The air will exchange heat with the wall. This may be modelled using a thermal resistance representing the convective heat resistance which is equal to Rconv=1/(h*A), where A is the heat exchange surface area and h=2 W/(m2*K) is the convective heat transfer coefficient.
The MixingVolume
Medium
parameter contains information about
the type of fluid and its properties that should be modelled by the MixingVolume
.
Set its value to MediumAir
, which is declared in the template,
by typing redeclare package Medium = MediumAir
.
For the nominal mass flow rate you may assume a value of 1 kg/m3 for now.
You will have to change this value once you add a ventilation system to the model (see
BuildingSystems.Examples.Tutorial.SimpleHouse.SimpleHouse6).
Finally, set the energyDynamics
of the MixingVolume
,
which can be found in the Dynamics
tab of the model parameter window, to FixedInitial
.
Make a connection with the PrescribedHeatFlow
as well.
This block makes the connection between the heat flow from the gain, represented as a real value,
and a heat port that is compatible with the connectors of the thermal capacitance and resistance.
The result with and without the air model is plotted in the figure below.