function computeMainOutputs
extends NTUObjectFunctions.baseInputsOfNTU;
input Integer lengthArrayOfZones "Length of array for zones";
output Modelica.Units.SI.Pressure p_a_out;
output Modelica.Units.SI.SpecificEnthalpy h_a_out;
output Real xi_a_out[size(xi_a_in, 1)];
output Modelica.Units.SI.Temperature T_a_out;
output Modelica.Units.SI.MassFlowRate m_flow_totalCondensate_a;
output Modelica.Units.SI.Temperature T_a_in;
output Modelica.Units.SI.MassFlowRate m_flow_inletCondensate_a;
output Modelica.Units.SI.PressureDifference dp_a;
output Modelica.Units.SI.SpecificEnthalpy dh_a;
output Modelica.Units.SI.TemperatureDifference dT_a;
output Modelica.Units.SI.Pressure p_b_out;
output Modelica.Units.SI.SpecificEnthalpy h_b_out;
output Real xi_b_out[size(xi_b_in, 1)];
output Modelica.Units.SI.Temperature T_b_out;
output Modelica.Units.SI.MassFlowRate m_flow_totalCondensate_b;
output Modelica.Units.SI.Temperature T_b_in;
output Modelica.Units.SI.MassFlowRate m_flow_inletCondensate_b;
output Modelica.Units.SI.PressureDifference dp_b;
output Modelica.Units.SI.SpecificEnthalpy dh_b;
output Modelica.Units.SI.TemperatureDifference dT_b;
output Modelica.Units.SI.HeatFlowRate QDot "Absolute heat flow rate of heat exchanger";
output Modelica.Units.SI.TemperatureDifference PinchPointDeltaT "pinch-point temperature difference";
output Modelica.Units.SI.ThermalConductance UA "Overall heat transfer coefficient";
output Modelica.Units.SI.HeatFlowRate[lengthArrayOfZones] QDot_Z "Absolute heat flow rate of each zone in heat exchanger";
output Modelica.Units.SI.ThermalConductance[lengthArrayOfZones] UA_Z "Overall heat transfer coefficient of each zone in heat exchanger";
output Real numberOfZones;
output Real numberOfZones_a;
output Real numberOfZones_b;
output Real numberOfCalls;
end computeMainOutputs;
.TILMedia.Internals.NTUObjectFunctions.computeMainOutputs