Buildings.Fluid.HeatExchangers.ActiveBeams.Data.BaseClasses

Base classes for performance data

Information

This package contains performance curves for the active beam models.

Package Content

Name Description
Buildings.Fluid.HeatExchangers.ActiveBeams.Data.BaseClasses.AirFlow AirFlow Record for primary air parameters
Buildings.Fluid.HeatExchangers.ActiveBeams.Data.BaseClasses.TemperatureDifference TemperatureDifference Record for temperature difference
Buildings.Fluid.HeatExchangers.ActiveBeams.Data.BaseClasses.WaterFlow WaterFlow Record for water parameters

Buildings.Fluid.HeatExchangers.ActiveBeams.Data.BaseClasses.AirFlow Buildings.Fluid.HeatExchangers.ActiveBeams.Data.BaseClasses.AirFlow

Record for primary air parameters

Information

Data record for performance data that describe the air volume flow rate versus the change in the rate of heating or cooling.

The normamlized volume flow rate rV must be strictly increasing, i.e., rVi < rVi+1. Both vectors, rV and f must have the same size.

Extends from Modelica.Icons.Record (Icon for records).

Parameters

TypeNameDefaultDescription
Realr_V[:] Normalized air volume flow rate at user-selected operating points [1]
Realf[size(r_V, 1)] Normalized performance factor at these flow rates [1]

Modelica definition

record AirFlow "Record for primary air parameters" extends Modelica.Icons.Record; parameter Real r_V[:](each min=0, each final unit="1") "Normalized air volume flow rate at user-selected operating points"; parameter Real f[size(r_V, 1)](each min=0, each final unit="1") "Normalized performance factor at these flow rates"; end AirFlow;

Buildings.Fluid.HeatExchangers.ActiveBeams.Data.BaseClasses.TemperatureDifference Buildings.Fluid.HeatExchangers.ActiveBeams.Data.BaseClasses.TemperatureDifference

Record for temperature difference

Information

Data record for performance data that describe the normalized temperature difference versus the change in the rate of heating or cooling. The normalized temperature difference is defined as

rΔTi= ΔTi ⁄ ΔTnominal = (Twi-Tz) ⁄ (Tw,nominal-Tz),

where Twi is the water inlet temperature, Tz is the zone air temperature and Tw,nominal is the nominal water inlet temperature.

The normalized temperature difference rΔT must be strictly increasing, i.e., rΔTi < rΔTi+1. Both vectors, rΔT and f must have the same size.

Extends from Modelica.Icons.Record (Icon for records).

Parameters

TypeNameDefaultDescription
Realr_dT[:] Normalized temperature difference, e.g., temperature difference at user-selected operating points divided by nominal temperature difference. Must be positive. [1]
Realf[size(r_dT, 1)] Normalized performance factor at these normalized temperature differences [1]

Modelica definition

record TemperatureDifference "Record for temperature difference" extends Modelica.Icons.Record; parameter Real r_dT[:](each min=0, each final unit="1") "Normalized temperature difference, e.g., temperature difference at user-selected operating points divided by nominal temperature difference. Must be positive."; parameter Real f[size(r_dT, 1)](each min=0, each final unit="1") "Normalized performance factor at these normalized temperature differences"; end TemperatureDifference;

Buildings.Fluid.HeatExchangers.ActiveBeams.Data.BaseClasses.WaterFlow Buildings.Fluid.HeatExchangers.ActiveBeams.Data.BaseClasses.WaterFlow

Record for water parameters

Information

Data record for performance data that describe the water volume flow rate versus the change in the rate of heating or cooling.

The normamlized volume flow rate rV must be strictly increasing, i.e., rVi < rVi+1. Both vectors, rV and f must have the same size.

Extends from Modelica.Icons.Record (Icon for records).

Parameters

TypeNameDefaultDescription
Realr_V[:] Normalized water volume flow rate at user-selected operating points [1]
Realf[size(r_V, 1)] Normalized performance factor at these flow rates [1]

Modelica definition

record WaterFlow "Record for water parameters" extends Modelica.Icons.Record; parameter Real r_V[:](each min=0, each final unit="1") "Normalized water volume flow rate at user-selected operating points"; parameter Real f[size(r_V, 1)](each min=0, each unit="1") "Normalized performance factor at these flow rates"; end WaterFlow;