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Annex60.Fluid.Actuators.UsersGuide

User's Guide

Information

Pressure drop of valves

All two and three-way valves have a parameter dpFixed_nominal. This parameter can be set to a positive (non-zero) value to model a pressure drop that is in series to the valve. If dpFixed_nominal=0, then only the valve pressure drop is modeled.

For example, in the schematics below, a valve and a fixed resistance are modeled in series.

image

This often introduces an additional nonlinear equation. Suppose that in the above model, the parameters for the flow resistance are

  val(dpValve_nominal=6000, dpFixed=0, m_flow_nominal=0.1);
  res(dp_nominal=10000,                m_flow_nominal=0.1);

Instead of this arrangement, the model res can be deleted and the valve configured as

  val(dpValve_nominal=6000, dpFixed=10000, m_flow_nominal=0.1);

This yields the same simulation results, but a nonlinear equation can be avoided in some cases. Although lumping the pressure drop of other components into the valve model violates the intent that in component-based modeling, each component should only model its own behavior, having the option of eliminating a nonlinear equation can be worthwhile.

For three way valves, similar parameters exist for the controlled ports of the valve. For example, consider the configuration below.

image

Suppose the parameters are

  val(dpValve_nominal=6000, dpFixed={0, 0}, m_flow_nominal=0.1);
  res1(dp_nominal=10000,                    m_flow_nominal=0.1);
  res3(dp_nominal=100,                      m_flow_nominal=0.1);

An equivalent model could be created by deleting the two resistance models res1 and res3, and configuring the valve as

  val(dpValve_nominal=6000, dpFixed={10000, 100}, m_flow_nominal=0.1);

Leakage flow rate

Valves and air dampers should for numerical reasons have a small leakage flow rate. This leakage l is a non-dimensional number, defined as l=Kv(y=0) ⁄ =Kv(y=1). A typical default value is l=0.0001.

If l=0, models will issue an error message as this can in some situations lead to numerical problems if a flow leg becomes decoupled from a reference pressure source.

Transients of actuators

This section describes how valves and dampers can be configured to approximate the travel time of an actuator. Such an approximation can also lead to faster simulation because discrete or fast changes in controllers are damped before they influence the flow network.

Approximation using a 2nd order filter

The valves and dampers in the package Annex60.Fluid.Actuators all have a parameter filteredOpening. This parameter is used as follows:

Using a filter often leads to a more robust simulation, because a step change in the input signal is "smoothened" by the filter, and hence the flow network is only exposed to a continuously differentiable change in the input signal. However, if the filter is part of a closed loop control, then the transient response gets changed. Therefore, if the parameter filteredOpening is changed, control gains may need to be retuned.

For example, suppose there is a closed loop control with a PI-controller Annex60.Controls.Continuous.LimPID and a valve, configured with filteredOpening=true and riseTime=120 seconds. Assume that the transient response of the other dynamic elements in the control loop is fast compared to the rise time of the filter. Then, a proportional gain of k=0.1 and an integrator time constant of Ti=120 seconds often yields satisfactory closed loop control performance. These values may need to be changed for different applications as they are also a function of the loop gain. If the control loop shows oscillatory behavior, then reduce k and/or increase Ti. If the control loop reacts too slow, do the opposite.

We will now show how the parameter riseTime affects the actual position of a control valve. The figure below shows a model with two control valves. The valve val1 is configured with filteredOpening=true and a rise time riseTime=120 seconds. The grey motor symbol above the control valve val1 indicates that filteredOpening=true.

image

If these valves both have a step input signal at 10 seconds, then the actual opening of the valves are as follows:

image

Thus, in the valve val1, the mass flow rate will slowly increase, whereas in val2, the mass flow rate changes instantaneously.

If filteredOpening=true, then the parameter y_start can be used to set the initial position of the actuator, and the parameter init can be used to configure how the position should be initialized.

For most applications, the default values are appropriate. Although adding a filter increases the number of equations, it can reduce computing time because the equations are easier to solve when a controller switches.

Approximation using a motor model with hysteresis

The model Annex60.Fluid.Actuators.Motors.IdealMotor models a motor with hysteresis. It is more detailed than the above approximation. However, it can significantly increase computing time because it generates a state event whenever the valve position changes.

Extends from Modelica.Icons.Information (Icon for general information packages).


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