.Buildings.Templates.Components.Actuators.Valve .Buildings.Templates.Components.Actuators.ValveThis is a container model that can be used to represent a variety of valves, with a variety of characteristics. The supported types of valve are described in the enumeration Buildings.Templates.Components.Types.Valve. The supported flow characteristics are described in the enumeration Buildings.Templates.Components.Types.ValveCharacteristicTwoWay for two-way valves, and in the enumeration Buildings.Templates.Components.Types.ValveCharacteristicThreeWay for three-way valves.
The following input and output points are available.
For modulating valves:
y (real).y = 0 corresponds to fully closed (fully open bypass for three-way valves).
y = 1 corresponds to fully open (fully closed bypass for three-way valves).
y_actual (real) is returned.y_actual = 0 corresponds to fully closed.
y_actual = 1 corresponds to fully open.
For two-position valves:
y1.y1 = false corresponds to fully closed (fully open bypass for three-way valves).
y1 = true corresponds to fully open (fully closed bypass for three-way valves).
y1_actual and
closed end switch status y0_actual (Booleans)
are returned.y1_actual = false corresponds to fully closed.
y1_actual = true corresponds to fully open.
And the opposite for y0_actual.
The design operating point is specified with an instance of Buildings.Templates.Components.Data.Valve.
The default characteristic is equal percentage (resp. equal percentage and linear) for modulating two-way valves (resp. modulating three-way valves). The default characteristic is linear for two-position actuators.
For three-way valves, the default setting for the ratio of
the Kvs coefficient between the bypass branch and the
direct branch is fraK=1.0, see
Buildings.Fluid.HydronicConfigurations.UsersGuide.ControlValves
for the rationale.