4-Way 3-Position Directional Valve (2P)

4-way, 3-position directional valve in the two-phase fluid domain

Since R2024b

Libraries:
Simscape / Fluids / Two-Phase Fluid / Valves & Orifices / Directional Control Valves

Description

The 4-Way 3-Position Directional Valve (2P) block models a valve with four openings in a two-phase fluid network, typically between an actuator, pump, and tank. A single spool controls the valve operation according to the signal at port S. You can set the baseline configuration of your valve by specifying the orifices that are open when the spool is in the neutral position (centered at 0 m) in the Neutral spool position open connections parameter, when the spool moves in the positive direction in the Positive spool position open connections parameter, and when the spool moves in the negative direction in the Negative spool position open connections parameter. You can use the Orifice parameterization parameter to specify the valve model as a linear relationship or function of user-provided data.

This block is a composite component that comprises of multiple instances of the Orifice (2P) block. For more information about the valve parameterizations and block calculations, see the Orifice (2P) block.

In this example configuration, the Neutral spool position open connections parameter is All closed. When the spool is in the neutral position, all orifices are closed to flow:

In this configuration, Negative spool position open connections is P-A, B-T. When the signal at port S moves the spool to a negative position, the paths between ports P and A and between ports B and T are open to flow. The paths between ports P and B and ports A and T are closed to flow:

In this configuration, Positive spool position open connections is P-B, A-T. When the signal at port S moves the spool to a positive position, the paths between ports P and B and between ports A and T are open to flow and the paths between ports P and A and between ports B and T are closed:

This schematic shows this configuration:

The left side corresponds to the positive position and the right side corresponds to the negative position.

Spool Displacement and Valve Configuration

The spool stroke is the amount of spool travel an orifice takes to fully open from a closed position. You can define the spool stroke using the parameters in the Valve Configuration section. The table shows how the block calculates the stroke in accordance with the valve orifice parameterization and flow path characteristics.

The direction of spool movement specified by port S depends on the spool stroke and the orifice orientation.

Spool Position When Orifice Is Open	Spool Travel, ΔS
Always closed (orifice is not selected in any spool position configuration)	N/A
Always open (orifice is selected in positive, neutral, and negative spool position configurations)	N/A
Negative	S_{orifice_max} + spool stroke – S
Negative and Neutral	S_{orifice_max} + spool stroke – S
Positive	S_{orifice_max} – spool stroke + S
Positive and Neutral	S_{orifice_max} – spool stroke + S
Neutral	\|S_{orifice_max}\| + spool stroke – \|S\|
Positive and Negative	–\|S_{orifice_max}\| + spool stroke – \|S\|

S_{orifice_max} is the spool position at the maximum orifice area defined for each orifice. The orifice area saturates at the leakage area when ΔS is negative and saturates at the maximum orifice area when the orifice is fully open. When the orifice is fully open, ΔS is equal to the spool stroke, so a value of ΔS that is greater than the spool stroke does not further increase the orifice area.

The Consistency check for neutral spool position open connections parameter verifies that:

Any orifice listed in Neutral spool position open connections is open when the signal at S is 0
Any orifice that is not listed in Neutral spool position open connections is closed when the signal at S is 0

You can optionally choose to receive a warning or error when any spool positions violate this check.

This table shows the possible configurations of the 4-Way 3-Position Directional Valve (TL) block.

Configuration	Parameter Values
	All four orifices are closed in the neutral position. Positive spool position open connections: `P-A, B-T` Neutral spool position open connections: `All closed` Negative spool position open connections: `P-B, A-T` Spool position at maximum P-A orifice area > P-A spool stroke Spool position at maximum P-B orifice area < –P-B spool stroke Spool position at maximum A-T orifice area < –A-T spool stroke Spool position at maximum B-T orifice area > B-T spool stroke
	All four orifices are open in the neutral position. Positive spool position open connections: `P-A, B-T` Neutral spool position open connections: `P-A, P-B, A-T, B-T` Negative spool position open connections: `P-B, A-T` Spool position at maximum P-A orifice area < P-A spool stroke Spool position at maximum P-B orifice area > –P-B spool stroke Spool position at maximum A-T orifice area > –A-T spool stroke Spool position at maximum B-T orifice area < B-T spool stroke
	Orifices A-T and B-T are closed. Orifices P-A and P-B are overlapped. Positive spool position open connections: `P-A` Neutral spool position open connections: `All closed` Negative spool position open connections: `P-B` Spool position at maximum P-A orifice area > P-A spool stroke Spool position at maximum P-B orifice area < –P-B spool stroke
	Orifices A-T and B-T are open. Orifices P-A and P-B are overlapped. Positive spool position open connections: `P-A, B-T` Neutral spool position open connections: `A-T, B-T` Negative spool position open connections: `P-B, A-T` Spool position at maximum P-A orifice area > P-A spool stroke Spool position at maximum P-B orifice area < –P-B spool stroke Spool position at maximum A-T orifice area > –A-T spool stroke Spool position at maximum B-T orifice area < B-T spool stroke
	Orifices P-A and A-T are open in the neutral position. Orifices P-B and B-T are overlapped. Positive spool position open connections: `P-B, A-T` Neutral spool position open connections: `P-A, A-T` Negative spool position open connections: `P-A, B-T` Spool position at maximum P-A orifice area < P-A spool stroke Spool position at maximum P-B orifice area > P-B spool stroke Spool position at maximum A-T orifice area > A-T spool stroke Spool position at maximum B-T orifice area < –B-T spool stroke
	Orifice A-T is open in the neutral position. Orifices P-B, A-T, and B-T are overlapped. Positive spool position open connections: `P-A, B-T` Neutral spool position open connections: `A-T` Negative spool position open connections: `P-B, A-T` Spool position at maximum P-A orifice area > P-A spool stroke Spool position at maximum P-B orifice area < –P-B spool stroke Spool position at maximum A-T orifice area > –A-T spool stroke Spool position at maximum B-T orifice area > B-T spool stroke
	Orifice B-T is open in the neutral position. Orifices P-A, P-B, and A-T are overlapped. Positive spool position open connections: `P-A, B-T` Neutral spool position open connections: `B-T` Negative spool position open connections: `P-B, A-T` Spool position at maximum P-A orifice area > P-A spool stroke Spool position at maximum P-B orifice area < –P-B spool stroke Spool position at maximum A-T orifice area < –A-T spool stroke Spool position at maximum B-T orifice area < B-T spool stroke
	Orifices P-A and P-B are open. Orifices A-T and B-T are overlapped. Positive spool position open connections: `P-A, B-T` Neutral spool position open connections: `P-A, P-B` Negative spool position open connections: `P-B, A-T` Spool position at maximum P-A orifice area < P-A spool stroke Spool position at maximum P-B orifice area > –P-B spool stroke Spool position at maximum A-T orifice area < –A-T spool stroke Spool position at maximum B-T orifice area > B-T spool stroke
	Orifice P-A is open in the neutral position. Orifices P-B, A-T, and B-T are overlapped. Positive spool position open connections: `P-A, B-T` Neutral spool position open connections: `P-A` Negative spool position open connections: `P-B, A-T` Spool position at maximum P-A orifice area < P-A spool stroke Spool position at maximum P-B orifice area < –P-B spool stroke Spool position at maximum A-T orifice area < –A-T spool stroke Spool position at maximum B-T orifice area > B-T spool stroke
	Orifice P-B is open in the neutral position. Orifices P-A, A-T, and B-T are overlapped. Positive spool position open connections: `P-A, B-T` Neutral spool position open connections: `P-B` Negative spool position open connections: `P-B, A-T` Spool position at maximum P-A orifice area > P-A spool stroke Spool position at maximum P-B orifice area > –P-B spool stroke Spool position at maximum A-T orifice area < –A-T spool stroke Spool position at maximum B-T orifice area > B-T spool stroke
	Orifices P-B and B-T are open in the neutral position. Orifices P-A and A-T are overlapped. Positive spool position open connections: `P-B, A-T` Neutral spool position open connections: `P-B, B-T` Negative spool position open connections: `P-A, B-T` Spool position at maximum P-A orifice area < –P-A spool stroke Spool position at maximum P-B orifice area < P-B spool stroke Spool position at maximum A-T orifice area > A-T spool stroke Spool position at maximum B-T orifice area > –B-T spool stroke
	Orifices P-A, P-B, A-T, and B-T are closed in the neutral position. P-T is open in the neutral position and closes when the spool displaces. Positive spool position open connections: `P-A, B-T` Neutral spool position open connections: `P-T` Negative spool position open connections: `P-B, A-T` Spool position at maximum P-A orifice area > P-A spool stroke Spool position at maximum P-B orifice area < –P-B spool stroke Spool position at maximum A-T orifice area < –A-T spool stroke Spool position at maximum B-T orifice area > B-T spool stroke Spool position at maximum P-T orifice area = any value
	Orifice P-A is a constant orifice. Orifices P-B, A-T, and B-T are open in the neutral position. Positive spool position open connections: `P-A, P-B` Neutral spool position open connections: `P-A, P-B, A-T, B-T` Negative spool position open connections: `P-A, B-T` Spool position at maximum P-A orifice area < P-A spool stroke Spool position at maximum P-B orifice area < P-B spool stroke Spool position at maximum A-T orifice area = any value Spool position at maximum B-T orifice area > –B-T spool stroke
	Orifice P-B is a constant orifice. Orifices P-A, A-T, B-T are open in the neutral position. Positive spool position open connections: `P-B, A-T` Neutral spool position open connections: `P-A, P-B, A-T, B-T` Negative spool position open connections: `P-A, P-B` Spool position at maximum P-A orifice area > –P-A spool stroke Spool position at maximum A-T orifice area < A-T spool stroke Spool position at maximum B-T orifice area = any value
	Orifice P-A is closed in the neutral position. Ports A and T do not form a flow path. Positive spool position open connections: `P-A, P-B` Neutral spool position open connections: `All closed` Negative spool position open connections: `P-A, B-T` \|Spool position at maximum P-A orifice area\| > P-A spool stroke Spool position at maximum P-B orifice area > P-B spool stroke Spool position at maximum B-T orifice area < –B-T spool stroke
	Orifice P-B is closed in the neutral position. Ports B and T do not form a flow path. Positive spool position open connections: `P-B, A-T` Neutral spool position open connections: `All closed` Negative spool position open connections: `P-A, P-B` Spool position at maximum P-A orifice area < –P-A spool stroke \|Spool position at maximum P-B orifice area\| > P-B spool stroke Spool position at maximum A-T orifice area > A-T spool stroke
	Orifice P-A is closed in the neutral position. Orifice A-T is open in the neutral position. Positive spool position open connections: `P-A, P-B` Neutral spool position open connections: `A-T, B-T` Negative spool position open connections: `P-A, B-T` \|Spool position at maximum P-A orifice area\| > P-A spool stroke Spool position at maximum P-B orifice area > P-B spool stroke Spool position at maximum A-T orifice area = any value Spool position at maximum B-T orifice area > –B-T spool stroke
	Orifice P-B is closed in the neutral position. Orifice B-T is open in the neutral position. Positive spool position open connections: `P-B, A-T` Neutral spool position open connections: `A-T, B-T` Negative spool position open connections: `P-A, P-B` Spool position at maximum P-A orifice area < –P-A spool stroke \|Spool position at maximum P-B orifice area\| > P-B spool stroke Spool position at maximum A-T orifice area < A-T spool stroke Spool position at maximum B-T orifice area = any value
	Orifice P-B is closed in the neutral position. Orifice P-T is open in the neutral position. Ports A and T do not form a flow path. Positive spool position open connections: `P-A, P-B` Neutral spool position open connections: `P-T` Negative spool position open connections: `P-B, A-T` Spool position at maximum P-A orifice area > P-A spool stroke \|Spool position at maximum P-B orifice area\| > P-B spool stroke Spool position at maximum B-T orifice area < –B-T spool stroke Spool position at maximum P-T orifice area = any value
	Orifice P-A is closed in the neutral position. Orifice P-T is open in the neutral position. Ports A and T do not form a flow path. Positive spool position open connections: `P-A, B-T` Neutral spool position open connections: `P-T` Negative spool position open connections: `P-A, P-B` \|Spool position at maximum P-A orifice area\| > P-A spool stroke Spool position at maximum P-B orifice area < –P-B spool stroke Spool position at maximum B-T orifice area > B-T spool stroke Spool position at maximum P-T orifice area = any value

Valve Orifice Parameterizations

The Modeling option parameter controls the parameterization options for a valve that models either vapor or liquid, but does not impact the fluid properties. The block calculates the fluid properties inside the valve from the inlet conditions.

The Orifice parameterization parameter specifies the model for the open area or flow rate through one or all of the valve orifices. If you set Area characteristics to Identical for all flow paths, the block applies the same data for all flow paths. When you select Different for all flow paths, the block uses individual parameterizations for each flow path.

Liquid Valve Parameterization

When Modeling option is Liquid operating condition, the block parameterization model a valve that controls liquid flow.

When Orifice parameterization is Linear - Area vs. spool travel, the opening area is a linear function of the spool position received as a signal at port S

$A_{o r i f i c e} = \frac{(A_{\max} - A_{l e a k})}{Δ S_{\max}} Δ S + A_{l e a k},$

where:

ΔS is the spool travel.
A_orifice saturates at A_leak when ΔS is negative and saturates at A_max when the orifice is fully open. When the orifice is fully open, ΔS is equal to the spool stroke, so a value of ΔS that is greater than the spool stroke does not increase the orifice area.
ΔS_max is the value of the Spool travel between closed and open orifice parameter.
A_max is the value of the Maximum orifice area parameter.
A_leak is the value of the Leakage area parameter.
When the valve is in a near-open or near-closed position in the linear parameterization, you can maintain numerical robustness in your simulation by adjusting the Smoothing factor parameter. If the Smoothing factor parameter is nonzero, the block smoothly saturates the opening area between A_leak and A_max. For more information, see Numerical Smoothing.

When Orifice parameterization is Tabulated data - Area vs. spool travel, you can provide spool travel vectors for your system or for individual flow paths between ports P, A, B, and T. The block uses this data to calculate the relationship between the orifice area and spool displacement. The block uses interpolation to determine the opening area between given data points. A_leak and A_max are the first and last parameters of the opening area vector, respectively.

When Orifice parameterization is Tabulated data - Nominal mass flow rate vs. spool travel, the block calculates the mass flow rate for each orifice from the nominal conditions you specify in the block parameters. The spool position signal from port S scales the orifice opening area, which can also scale mass flow rate.

Vapor Valve Parameterization

When Modeling option is Vapor operating condition, the block parameterizations are designed to model a valve that controls vapor flow.

The method the block uses to control each orifice depends on the Opening characteristic parameter:

Linear — The measure of flow capacity depends on the spool position at port S. As the spool displaces to open to orifice, the measure of flow capacity scales from the specified minimum to the specified maximum.
Tabulated — The block calculates the measure of flow capacity as a function of the spool position at port S. This function uses a one-dimensional lookup table.

The Orifice parameterization parameter determines how the block calculates the flow rate in each orifice:

Cv flow coefficient — The flow coefficient C_v scales the flow rate in each orifice. The flow coefficient measures the ease with which a fluid can flow when driven by a certain pressure differential.
Kv flow coefficient — The flow coefficient K_v, where $K_{v} = 0.865 C_{v}$ , scales the flow rate in each orifice. The flow coefficient measures the ease with which a fluid can flow when driven by a certain pressure differential.
Orifice area — The size of the orifice area scales the flow rate in each orifice.

Visualize Orifice Openings

To visualize the spool offsets and maximum displacement, right-click the block and select Fluids > Plot Valve Characteristics. The plot shows the orifices selected in the Valve Configuration settings. The orifice parameterization sets the axes, which are either:

Orifice area versus spool position
Volumetric flow rate versus spool position, queried at a specific pressure differential
Mass flow rate versus spool position for the reference inflow temperature and reference inflow pressure, queried at a specific pressure differential

When the positive, neutral, and negative settings in the Valve Configuration parameters feature the same orifice, the plot displays the orifice openings as a constant.

To update the data after changing the block parameters, click Reload Data on the figure window.

This image shows an example valve configuration. In the Valve Configuration settings:

Positive spool position open connections is P-A, B-T
Neutral spool position open connections is P-T
Negative spool position open connections is P-B, A-T

In the P-A Orifice settings:

Spool position at maximum P-A orifice area is 2.5e-3 m

All other spool positions are at the default values.

Plot of area versus spool position for each orifice.

The visualization shows that the P-A orifice is open between the spool position at -2.53e-3 and 2.53e-3 m. Because the P-A orifice is open only when the spool is displaced in the positive direction, setting the Consistency check for neutral spool and position open connections parameter to Warning returns:

Warning: P-A orifice must be closed when the spool is in the neutral position. Adjust Spool position at maximum P-A orifice area, Neutral spool position open connections, or Consistency check for neutral spool position open connections. Right-click on the block and select Fluids > Plot Valve Characteristics to view the area or flow of each connection versus spool position.

To resolve this warning, you can change:

Spool position at maximum P-A orifice area to a value larger than 0.005 m
Consistency check for neutral spool position open connections to None
The valve configuration by setting Neutral spool position open connections to P-A

Assumptions and Limitations

There is no heat exchange between the valve and the environment.
When Modeling option is Liquid operating condition, the results may not be accurate outside of the subcooled liquid region. When Modeling option is Vapor operating condition, the results may not be accurate outside of the superheated vapor region. To model a valve in a liquid-vapor mixture, set Modeling option to Liquid operating condition.

Ports

Conserving

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A — Entry or exit port
two-phase fluid

Two-phase fluid conserving port associated with the entry or exit port to the valve.

B — Entry or exit port
two-phase fluid

Two-phase fluid conserving port associated with the entry or exit port to the valve.

P — Entry or exit port
two-phase fluid

Two-phase fluid conserving port associated with the entry or exit port to the valve.

T — Entry or exit port
two-phase fluid

Two-phase fluid conserving port associated with the entry or exit port to the valve.

Input

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S — Spool displacement, m
physical signal

Physical signal associated with the spool displacement, in m.

Parameters

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Modeling option — Modeling option for fluid phase
`Liquid operating condition` (default) | `Vapor operating condition`

Modeling option for the fluid phase at the valve. Set this parameter to Liquid operating condition if the two-phase fluid at the block location is in a liquid state. Set this parameter to Vapor operating condition if the two-phase fluid at the block location is in a vapor state.

Valve Configuration

Positive spool position open connections — Flow paths open when the spool is in positive position
`P-A, B-T` (default) | `P-A, P-B` | `P-B, A-T` | `P-A` | `P-B` | `P-A, P-B, A-B`

Flow paths open when the spool is in a positive position. This parameter sets the valve configuration and defines the direction of spool movement according to the signal received at port S. To check the parameter settings for consistency with other orifices, set Consistency check for neutral spool position open connections to Warning or Error.

Neutral spool position open connections — Flow paths open when spool is in neutral position
`All closed` (default) | `P-A, P-B, A-T, B-T` | `A-T, B-T` | `P-A, A-T` | `P-A, B-T` | `P-A, P-B` | `P-B, A-T` | `P-B, B-T` | `A-T` | `B-T` | `P-A` | `P-B` | `P-T` | `P-A, A-T, P-T` | `P-A, P-B, A-B` | `P-B, B-T, P-T` | `P-A, P-B, A-T, B-T, P-T`

Flow paths open when the spool is in the neutral position. This parameter sets the valve configuration and defines the direction of spool movement according to the signal received at port S. To check the parameter settings for consistency with other orifices, set Consistency check for neutral spool position open connections to Warning or Error.

Negative spool position open connections — Flow paths open when spool moves in negative direction
`P-A, B-T` (default) | `P-A, P-B` | `P-B, A-T` | `P-A` | `P-B` | `P-A, P-B, A-B`

Flow paths open when the spool moves in the negative direction. This parameter sets the valve configuration and defines the direction of spool movement according to the signal received at port S. To check the parameter settings for consistency with other orifices, set Consistency check for neutral spool position open connections to Warning or Error.

Consistency check for neutral spool position open connections — Whether to check if orifice settings are consistent
`Warning` (default) | `Error` | `None`

Whether to check if the neutral spool position open settings in the Valve Configuration section are consistent with the specified spool position at the maximum orifice area. For each enabled orifice, the actual offset at the spool neutral position should be commensurate with the specified spool offset for each individual orifice.

Model Parameterization

Area characteristics — Flow equations for orifices
`Identical for all flow paths` (default) | `Different for each flow path`

Whether to apply uniform or individual flow equations for the valve orifice area. When you set this parameter to Identical for all flow paths, the block uses the same orifice and spool geometries, flow rates, pressure, and area vectors for all valve orifices. When you set this parameter to Different for each flow path, you can specify these parameters individually for each orifice. For both settings, orifices A, B, P, and T have the same cross-sectional areas, discharge coefficients, and Reynolds numbers when you set Orifice parameterization to Linear - Area vs. spool travel or Tabulated data - Area vs. spool travel.

Orifice parameterization — Variable or constant orifice parameterization
`Linear - Area vs. spool travel` (default) | `Linear - Nominal mass flow rate vs. spool travel` | `Tabulated data - Area vs. spool travel` | `Cv flow coefficient` | `Kv flow coefficient` | `Orifice area`

Method the block uses to calculate the mass flow rate from the pressure difference across the orifice or the pressure difference from the mass flow rate.

When Modeling option is Liquid operating condition, the choices for this parameter are:

Linear - Area vs. spool travel
Linear - Nominal mass flow rate vs. spool travel
Tabulated data - Area vs. spool travel

When Modeling option is Vapor operating condition, the choices for this parameter are:

Cv flow coefficient
Kv flow coefficient
Orifice area

Spool travel between closed and open orifice — Maximum spool stroke
`0.005 m` (default) | positive scalar

Maximum distance of spool travel.

Dependencies

To enable this parameter, set Area characteristics to Identical for all flow paths and either:

Modeling option to Liquid operating condition and Orifice parameterization to Linear - Area vs. spool travel.
Modeling option to Vapor operating condition and Opening characteristic to Linear.

Maximum orifice area — Maximum orifice opening area
`1e-4 m^2` (default) | positive scalar

Largest open area of each orifice during the operation of the valve.

Dependencies

To enable this parameter, set Area characteristics to Identical for all flow paths and either:

Modeling option to Liquid operating condition and Orifice parameterization to Linear - Area vs. spool travel.
Modeling option to Vapor operating condition, Orifice parameterization to Orifice area, and Opening characteristic to Linear.

Nominal mass flow rate at maximum orifice opening — Rated mass flow rate
`0.1` kg/s (default) | positive scalar

Typical, rated, or design mass flow rate at the orifice maximum opening position.

Dependencies

To enable this parameter, set Modeling option to Liquid operating condition, Area characteristics to Identical for all flow paths, and Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel.

Nominal pressure drop at maximum orifice opening — Rated pressure drop
`0.001` MPa (default) | positive scalar

Typical, rated, or design pressure drop at the orifice maximum opening position.

Dependencies

Nominal inlet condition specification — Method of determining inlet fluid state
`Temperature` (default) | `Vapor quality` | `Vapor void fraction` | `Specific enthalpy` | `Specific internal energy`

Method of determining the inlet fluid state. The block determines the orifice nominal inlet specific volume from the tabulated fluid properties data based on the value of the Nominal inlet pressure and Nominal inlet condition specification parameters.

Dependencies

Nominal inlet pressure — Inlet fluid pressure
`0.101325` MPa (default) | positive scalar

Inlet pressure in nominal conditions. The block determines the inlet specific volume from the tabulated fluid properties data based on the value of the Nominal inlet pressure and Nominal inlet condition specification parameters.

Dependencies

Nominal inlet temperature — Fluid temperature
`293.15` K (default) | positive scalar

Inlet fluid temperature in nominal operating conditions.

Dependencies

To enable this parameter, set Modeling option to Liquid operating condition, Area characteristics to Identical for all flow paths, Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel, and Nominal inlet condition specification to Temperature.

Nominal inlet vapor quality — Inlet vapor quality mass fraction
`0` (default) | positive scalar in the range [0,1]

Inlet mixture vapor quality by mass fraction in nominal operating conditions. A value of 0 means that the inlet fluid is subcooled liquid. A value of 1 means that the inlet fluid is superheated vapor.

Dependencies

Nominal inlet vapor void fraction — Inlet volume fraction
`0` (default) | positive scalar in the range [0,1]

Inlet mixture volume fraction in nominal operating conditions. A value of 0 means that the inlet fluid is subcooled liquid. A value of 1 means that the inlet fluid is superheated vapor.

Dependencies

Nominal inlet specific enthalpy — Inlet fluid specific enthalpy
`400` kJ/kg (default) | positive scalar

Inlet specific enthalpy in nominal operating conditions.

Dependencies

Nominal inlet specific internal energy — Inlet specific internal energy
`400` kJ/kg (default) | positive scalar

Inlet specific internal energy in nominal operating conditions.

Dependencies

Opening characteristic — Method to convert control signal to measure of flow capacity
`Linear` (default) | `Tabulated`

Method by which to convert the control signal specified at port S to the chosen measure of flow capacity.

Dependencies

To enable this parameter, set Modeling option to Vapor operating condition.

Spool travel vector — Vector of spool opening distances relative to fully closed position
`[0, .00125, .0025, .00375, .005] m` (default) | 1-by-n vector

Vector of spool travel distances when parameterizing the orifice according to the tabulated valve area data. The vector elements must correspond one-to-one with the elements in the Orifice area vector parameter. List the values in ascending order. The first element must be 0. The block uses linear interpolation between table data points.

Dependencies

To enable this parameter, set Area characteristics to Identical for all flow paths and either:

Modeling option to Liquid operating condition and Orifice parameterization to Tabulated data - Area vs. spool travel.
Modeling option to Vapor operating condition and Opening characteristic to Tabulated.

Orifice area vector — Vector of valve opening areas
`[1e-10, 1e-05, 4e-05, 6e-05, .0001] m^2` (default) | 1-by-n vector

Vector of opening areas when parameterizing the orifice according to the tabulated valve area data. The vector elements must correspond one-to-one with the elements in the Spool travel vector parameter. List the values in ascending order. The elements must be greater than 0.

Dependencies

To enable this parameter, set Area characteristics to Identical for all flow paths and either:

Modeling option to Liquid operating condition and Orifice parameterization to Tabulated data - Area vs. spool travel.
Modeling option to Vapor operating condition, Orifice parameterization to Orifice area, and Opening characteristic to Tabulated.

Maximum Cv flow coefficient — C_v coefficient that corresponds to maximally open component
`4` (default) | positive scalar

Value of the C_v flow coefficient when the orifice is fully open and the area available for flow is at a maximum. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential.

Dependencies

To enable this parameter, set Modeling option to Vapor operating condition, Area characteristics to Identical for all flow paths, Orifice parameterization to Cv flow coefficient, and Opening characteristic to Linear.

Cv flow coefficient vector — C_v coefficients for values in member position vector
`[1e-06, .8, 1.6, 2.4, 3.2, 4]` (default) | 1-by-n vector

Vector of C_v flow coefficients. Each coefficient corresponds to a value in the Control member position vector parameter. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential. The size of the vector must be the same as the Control member position vector parameter.

Dependencies

Maximum Kv flow coefficient — K_v coefficient that corresponds to maximally open component
`3.6` (default) | positive scalar

Value of the K_v flow coefficient when the orifice is fully open and the area available for flow is at a maximum. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential.

Dependencies

To enable this parameter, set Modeling option to Vapor operating condition, Area characteristics to Identical for all flow paths, Orifice parameterization to Kv flow coefficient, and Opening characteristic to Linear.

Kv flow coefficient vector — K_v coefficients for values in member position vector
`[1e-06, .72, 1.44, 2.16, 2.88, 3.6]` (default) | 1-by-n vector

Vector of K_v flow coefficients. Each coefficient corresponds to a value in the Control member position vector parameter. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential. The size of the vector must be the same as the Control member position vector parameter.

Dependencies

To enable this parameter, set Modeling option to Vapor operating condition, Area characteristics to Identical for all flow paths, Orifice parameterization to Kv flow coefficient, and Opening characteristic to Tabulated.

xT pressure differential ratio factor at choked flow — Ratio of pressure differentials
`0.7` (default) | positive scalar

Ratio between the inlet pressure, p_in, and the outlet pressure, p_out, defined as $(p_{i n} - p_{o u t}) / p_{i n}$ where choking first occurs.

Dependencies

To enable this parameter, Modeling option to Vapor operating condition, Area characteristics to Identical for all flow paths, and Orifice parameterization to Cv flow coefficient or Kv flow coefficient.

Discharge coefficient — Discharge coefficient
`0.64` (default) | positive scalar

Correction factor that accounts for discharge losses in theoretical flows.

Dependencies

To enable this parameter, set Modeling option to Vapor operating condition and Orifice parameterization to Orifice area or set Modeling option to Liquid operating condition and Orifice parameterization to either:

Linear - Area vs. spool travel
Tabulated data - Area vs. spool travel

Leakage flow fraction — Ratio of flow rates
`1e-6` (default) | positive scalar

Ratio of the flow rate of the orifice when it is closed to when it is open.

Dependencies

To enable this parameter, set either:

Modeling option to Liquid operating condition and Orifice parameterization to Linear - Area vs. spool travel.
Modeling option to Vapor operating condition and Opening characteristic to Linear.

Smoothing factor — Numerical smoothing factor
`0.01` (default) | positive scalar in the range of [0,1]

Continuous smoothing factor that introduces a layer of gradual change based on the flow response when the valve is in the near-open and near-closed positions. To increase the stability of your simulation in these regimes, set this parameter to a nonzero value less than one.

Dependencies

To enable this parameter, set Modeling option to Liquid operating condition and Orifice parametrization to Linear - area vs. spool travel or set Modeling option to Vapor operating condition and Opening characteristic to Linear.

Pressure recovery — Whether to account for pressure increase in area expansions
`off` (default) | `on`

Whether to account for pressure increase when fluid flows from a region of smaller cross-sectional area to a region of larger cross-sectional area.

Dependencies

To enable this parameter, set Modeling option to Liquid operating condition and Orifice parameterization to either:

Linear - area vs. spool travel
Tabulated data - Area vs. spool travel

Laminar flow pressure ratio — Laminar-turbulent transition pressure ratio
`0.999` (default) | positive scalar

Ratio of the orifice outlet pressure to orifice inlet pressure at which the fluid transitions between the laminar and turbulent regimes. The pressure loss corresponds to the mass flow rate linearly in laminar flows and quadratically in turbulent flows.

Inlet phase change time constant — Time lag for mixture specific volume
`0.1` `s` (default) | positive scalar

Time lag for liquid-vapor mixtures when computing the fluid specific volume. This parameter does not influence the specific volume when the inlet fluid is a fully supercooled liquid or fully superheated vapor.

Dependencies

To enable this parameter, set Modeling option to Liquid operating condition.

Cross-sectional area at ports P, T, A and B — Area at conserving ports
`0.01 m^2` (default) | positive scalar

Maximum cross-sectional areas at the entry and exit ports P, T, A, and B, which the block uses in the pressure-flow rate equation that determines the mass flow rate through the valve.

P-A Orifice

Spool position at maximum P-A orifice area — Spool offset for fully open P-A orifice
`5e-3 m` (default) | positive scalar

Spool offset from the neutral position for a fully open P-A orifice.

Dependencies

To enable this parameter, set one of these parameters.

Positive spool position open connections to:

P-A, B-T
P-A, P-B
P-A
P-A, P-B, A-B

Neutral spool position open connections to:

P-A, P-B, A-T, B-T
P-A, A-T
P-A, B-T
P-A, P-B
P-A
P-A, A-T, P-T
P-A, P-B, A-B
P-A, P-B, A-T, B-T, P-T

Negative spool position open connections to:

P-A, P-B, A-T, B-T
P-A, A-T
P-A, B-T
P-A, P-B
P-A
P-A, P-B, A-B

Note:

This parameter is enabled only when the P-A orifice settings do not appear in all three spool position parameters: Positive spool position open connections, Neutral spool position open connections, and Negative spool position open connections.

P-A spool travel between closed and open orifice — Maximum spool stroke
`0.005 m` (default) | positive scalar

Maximum distance of spool travel. This value provides an upper limit to calculations so that simulations do not return unphysical values.

Dependencies

To enable this parameter, set one of the following parameters:

Positive spool position open connections to:

P-A, B-T
P-A, P-B
P-A
P-A, P-B, A-B

Neutral spool position open connections to:

P-A, P-B, A-T, B-T
P-A, A-T
P-A, B-T
P-A, P-B
P-A
P-A, A-T, P-T
P-A, P-B, A-B
P-A, P-B, A-T, B-T, P-T

Negative spool position open connections to:

P-A, P-B, A-T, B-T
P-A, A-T
P-A, B-T
P-A, P-B
P-A
P-A, P-B, A-B

And either:

Modeling option to Liquid operating condition, Area characteristics to Different for each flow path, and Orifice parameterization to Linear - Area vs. spool travel or Linear - Nominal mass flow rate vs. spool travel.
Modeling option to Vapor operating condition, Area characteristics to Different for each flow path, and Opening characteristic to Linear.

P-A nominal mass flow rate at maximum orifice opening — Rated mass flow rate
`0.1` `kg/s` (default) | positive scalar

Typical, rated, or design mass flow rate through a maximally open P-A orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
One of the following parameters:
Positive spool position open connections to:
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, A-T, P-T
- P-A, P-B, A-B
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B

P-A nominal pressure drop at maximum orifice opening — Rated pressure drop
`0.001` `MPa` (default) | positive scalar

Typical, rated, or design pressure drop through a maximally open P-A orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
One of the following parameters:
Positive spool position open connections to:
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, A-T, P-T
- P-A, P-B, A-B
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B

P-A nominal inlet condition specification — Method of determining inlet fluid state
`Temperature` (default) | `Vapor quality` | `Vapor void fraction` | `Specific enthalpy` | `Specific internal energy`

Method of determining the inlet fluid state for P-A orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
At least one of the following parameters:
Positive spool position open connections to:
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, A-T, P-T
- P-A, P-B, A-B
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B

P-A nominal inlet pressure — Inlet fluid pressure
`0.101325` `MPa` (default) | positive scalar

Inlet pressure for the P-A orifice at nominal conditions.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
At least one of the following parameters:
Positive spool position open connections to:
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, A-T, P-T
- P-A, P-B, A-B
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B

P-A nominal inlet temperature — Fluid temperature
`293.15` `K` (default) | positive scalar

Inlet fluid temperature for the P-A orifice in nominal operating conditions.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Temperature
At least one of the following parameters:
Positive spool position open connections to:
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, A-T, P-T
- P-A, P-B, A-B
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B

P-A nominal inlet vapor quality — Inlet vapor quality mass fraction
`0` (default) | positive scalar in the range [0,1]

Inlet mixture vapor quality by mass fraction for the P-A orifice in nominal operating conditions. A value of 0 means that the inlet fluid is subcooled liquid. A value of 1 means that the inlet fluid is superheated vapor.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Vapor quality
At least one of the following parameters:
Positive spool position open connections to:
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, A-T, P-T
- P-A, P-B, A-B
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B

P-A nominal inlet vapor void fraction — Inlet vapor void fraction
`0` (default) | positive scalar in the range [0,1]

Inlet mixture vapor void fraction for the P-A orifice in nominal operating conditions. A value of 0 means that the inlet fluid is subcooled liquid. A value of 1 means that the inlet fluid is superheated vapor.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Vapor void fraction
At least one of the following parameters:
Positive spool position open connections to:
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, A-T, P-T
- P-A, P-B, A-B
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B

P-A nominal inlet specific enthalpy — Inlet fluid specific enthalpy
`400` `kJ/kg` (default) | positive scalar

Inlet specific enthalpy for the P-A orifice in nominal operating conditions.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Specific enthalpy
At least one of the following parameters:
Positive spool position open connections to:
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, A-T, P-T
- P-A, P-B, A-B
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B

P-A nominal inlet specific internal energy — Inlet specific internal energy
`400` `kJ/kg` (default) | positive scalar

Inlet specific internal energy for the P-A orifice in nominal operating conditions.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Specific internal energy
At least one of the following parameters:
Positive spool position open connections to:
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, A-T, P-T
- P-A, P-B, A-B
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B

P-A constant orifice nominal mass flow rate — Nominal mass flow rate
`0.1` `kg/s` (default) | positive scalar

Typical, rated, or design mass flow rate through a constant P-A orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
One of the following settings in each parameter:
Positive spool position open connections to:
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, A-T, P-T
- P-A, P-B, A-B
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B

Note:

This parameter is enabled only when the P-A orifice settings appear in all three spool position parameters: Positive spool position open connections, Neutral spool position open connections, and Negative spool position open connections.

P-A constant orifice nominal pressure drop — Nominal pressure drop
`0.001` `MPa` (default) | positive scalar

Typical, rated, or design pressure drop through a constant P-A orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
One of the following settings in each parameter:
Positive spool position open connections to:
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, A-T, P-T
- P-A, P-B, A-B
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B

Note:

P-A constant orifice Cv flow coefficient — Flow coefficient
`4` (default) | positive scalar

Value of the constant C_v flow coefficient for the P-A orifice. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Cv flow coefficient
One of the following settings in each parameter:
Positive spool position open connections to:
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, A-T, P-T
- P-A, P-B, A-B
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B

Note:

This parameter is enabled only when the P-A orifice settings appear all three spool position parameters: Positive spool position open connections, Neutral spool position open connections, and Negative spool position open connections.

P-A orifice maximum Cv flow coefficient — C_v coefficient that corresponds to maximally open component
`4` (default) | positive scalar

Value of the C_v flow coefficient when the P-A orifice is fully open and the area available for flow is at a maximum. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Cv flow coefficient
Opening characteristic to Linear
One of the following parameters:
Positive spool position open connections to:
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, A-T, P-T
- P-A, P-B, A-B
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B

P-A orifice Cv flow coefficient vector — C_v coefficients for values in member position vector
`[1e-06, .8, 1.6, 2.4, 3.2, 4]` (default) | 1-by-n vector

Vector of C_v flow coefficients. Each coefficient corresponds to a value in the P-A orifice spool travel vector parameter. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential. The size of the vector must be the same as the P-A orifice spool travel vector parameter.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Cv flow coefficient
Opening characteristic to Tabulated
One of the following parameters:
Positive spool position open connections to:
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, A-T, P-T
- P-A, P-B, A-B
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B

P-A constant orifice Kv flow coefficient — Flow coefficient
`3.6` (default) | positive scalar

Value of the constant K_v flow coefficient for the P-A orifice. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Kv flow coefficient
One of the following settings in each parameter:
Positive spool position open connections to:
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, A-T, P-T
- P-A, P-B, A-B
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B

Note:

P-A orifice maximum Kv flow coefficient — K_v coefficient that corresponds to maximally open component
`3.6` (default) | positive scalar

Value of the K_v flow coefficient when the P-A orifice is fully open and the area available for flow is at a maximum. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Kv flow coefficient
Opening characteristic to Linear
One of the following parameters:
Positive spool position open connections to:
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, A-T, P-T
- P-A, P-B, A-B
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B

P-A orifice Kv flow coefficient vector — K_v coefficients for values in member position vector
`[1e-06, .72, 1.44, 2.16, 2.88, 3.6]` (default) | 1-by-n vector

Vector of K_v flow coefficients. Each coefficient corresponds to a value in the P-A orifice spool travel vector parameter. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential. The size of the vector must be the same as the P-A orifice spool travel vector parameter.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Kv flow coefficient
Opening characteristic to Tabulated
One of the following parameters:
Positive spool position open connections to:
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, A-T, P-T
- P-A, P-B, A-B
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B

P-A orifice spool travel vector — Vector of spool opening distances relative to fully closed position
`[0, .00125, .0025, .00375, .005] m` (default) | 1-by-n vector

Vector of spool travel distances for the tabular parameterization of the valve area. List the values in ascending order. The first element must be 0. The block uses linear interpolation between table data points.

Dependencies

To enable this parameter, set one of the following parameters:

Positive spool position open connections to:

P-A, B-T
P-A, P-B
P-A
P-A, P-B, A-B

Neutral spool position open connections to:

P-A, P-B, A-T, B-T
P-A, A-T
P-A, B-T
P-A, P-B
P-A
P-A, A-T, P-T
P-A, P-B, A-B
P-A, P-B, A-T, B-T, P-T

Negative spool position open connections to:

P-A, P-B, A-T, B-T
P-A, A-T
P-A, B-T
P-A, P-B
P-A
P-A, P-B, A-B

And either:

Modeling option to Liquid operating condition, Area characteristics to Different for each flow path, and Orifice parameterization to Tabulated data - Area vs. spool travel.
Modeling option to Vapor operating condition, Area characteristics to Different for each flow path, and Opening characteristic to Tabulated.

P-A maximum orifice area — Maximum orifice opening area
`1e-4 m^2` (default) | positive scalar

Largest open area of the P-A orifice during the operation of the valve.

Dependencies

To enable this parameter, set one of the following parameters:

Positive spool position open connections to:

P-A, B-T
P-A, P-B
P-A
P-A, P-B, A-B

Neutral spool position open connections to:

P-A, P-B, A-T, B-T
P-A, A-T
P-A, B-T
P-A, P-B
P-A
P-A, A-T, P-T
P-A, P-B, A-B
P-A, P-B, A-T, B-T, P-T

Negative spool position open connections to:

P-A, P-B, A-T, B-T
P-A, A-T
P-A, B-T
P-A, P-B
P-A
P-A, P-B, A-B

Also set Area characteristics to Different for each flow path and either:

Modeling option to Liquid operating condition and Orifice parameterization to Linear - Area vs. spool travel.
Modeling option to Vapor operating condition, Orifice parameterization to Orifice area, and Opening characteristic to Linear.

P-A orifice area vector — Vector of valve opening areas
`[1e-10, 1e-05, 4e-05, 6e-05, .0001] m^2` (default) | 1-by-n vector

Vector of opening areas for the tabular parameterization of the valve area. The vector elements must correspond one-to-one with the elements in the P-A orifice spool travel vector parameter. The elements must be greater than 0 and listed in ascending order.

Dependencies

To enable this parameter, set one of the following parameters:

Positive spool position open connections to:

P-A, B-T
P-A, P-B
P-A
P-A, P-B, A-B

Neutral spool position open connections to:

P-A, P-B, A-T, B-T
P-A, A-T
P-A, B-T
P-A, P-B
P-A
P-A, A-T, P-T
P-A, P-B, A-B
P-A, P-B, A-T, B-T, P-T

Negative spool position open connections to:

P-A, P-B, A-T, B-T
P-A, A-T
P-A, B-T
P-A, P-B
P-A
P-A, P-B, A-B

Also set Area characteristics to Different for each flow path and either:

Modeling option to Liquid operating condition and Orifice parameterization to Tabulated data - Area vs. spool travel.
Modeling option to Vapor operating condition, Orifice parameterization to Orifice area, and Opening characteristic to Tabulated.

P-A constant orifice area — Cross-sectional area for constant orifice
`1e-4 m^2` (default) | positive scalar

Orifice area when the positive and negative spool positions include the same orifice.

Dependencies

To enable this parameter, set one of the following settings in each parameter:

Positive spool position open connections to:

P-A, B-T
P-A, P-B
P-A
P-A, P-B, A-B

Neutral spool position open connections to:

P-A, P-B, A-T, B-T
P-A, A-T
P-A, B-T
P-A, P-B
P-A
P-A, A-T, P-T
P-A, P-B, A-B
P-A, P-B, A-T, B-T, P-T

Negative spool position open connections to:

P-A, P-B, A-T, B-T
P-A, A-T
P-A, B-T
P-A, P-B
P-A
P-A, P-B, A-B

And either:

Modeling option to Liquid operating condition, Area characteristics to Different for each flow path, and Orifice parameterization to Tabulated data - Area vs. spool travel or Linear - Area vs. spool travel.
Modeling option to Vapor operating condition, Area characteristics to Different for each flow path, and Opening characteristic to Tabulated.

Note:

P-A orifice xT pressure differential ratio factor at choked flow — Ratio of pressure differentials
`0.7` (default) | positive scalar

Ratio between the inlet pressure, p_in, and the outlet pressure, p_out, defined as $(p_{i n} - p_{o u t}) / p_{i n}$ where choking first occurs for the P-A orifice.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Kv flow coefficient or Cv flow coefficient
At least one of the following parameters:
Positive spool position open connections to:
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, A-T, P-T
- P-A, P-B, A-B
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-A, A-T
- P-A, B-T
- P-A, P-B
- P-A
- P-A, P-B, A-B

P-B Orifice

Spool position at maximum P-B orifice area — Spool offset for fully open P-B orifice
`5e-3 m` (default) | positive scalar

Spool offset from the neutral position for a fully open P-B orifice.

Dependencies

To enable this parameter, set one of these parameters:

Positive spool position open connections to:

P-B, A-T
P-A, P-B
P-B
P-A, P-B, A-B

Neutral spool position open connections to:

P-A, P-B, A-T, B-T
P-B, A-T
P-B, B-T
P-A, P-B
P-B
P-A, P-B, A-B
P-B, B-T, P-T
P-A, P-B, A-T, B-T, P-T

Negative spool position open connections to:

P-A, P-B, A-T, B-T
P-B, A-T
P-B, B-T
P-A, P-B
P-B
P-A, P-B, A-B

Note:

This parameter is enabled only when the P-B orifice settings do not appear in all three spool position parameters: Positive spool position open connections, Neutral spool position open connections, and Negative spool position open connections.

P-B spool travel between closed and open orifice — Maximum spool stroke
`0.005 m` (default) | positive scalar

Maximum distance of spool travel. This value provides an upper limit to calculations so that simulations do not return unphysical values.

Dependencies

To enable this parameter, set one of the following parameters:

Positive spool position open connections to:

P-B, A-T
P-A, P-B
P-B
P-A, P-B, A-B

Neutral spool position open connections to:

P-A, P-B, A-T, B-T
P-B, A-T
P-B, B-T
P-A, P-B
P-B
P-A, P-B, A-B
P-B, B-T, P-T
P-A, P-B, A-T, B-T, P-T

Negative spool position open connections to:

P-A, P-B, A-T, B-T
P-B, A-T
P-B, B-T
P-A, P-B
P-B
P-A, P-B, A-B

And either:

Modeling option to Liquid operating condition, Area characteristics to Different for each flow path, and Orifice parameterization to Linear - Area vs. spool travel or Linear - Nominal mass flow rate vs. spool travel.
Modeling option to Vapor operating condition, Area characteristics to Different for each flow path, and Opening characteristic to Linear.

P-B nominal mass flow rate at maximum orifice opening — Rated mass flow rate
`0.1` `kg/s` (default) | positive scalar

Typical, rated, or design mass flow rate through a maximally open P-B orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
One of the following parameters:
Positive spool position open connections to:
- P-B, A-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B

P-B nominal pressure drop at maximum orifice opening — Rated pressure drop
`0.001` `MPa` (default) | positive scalar

Typical, rated, or design pressure drop through a maximally open P-B orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
One of the following parameters:
Positive spool position open connections to:
- P-B, A-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B

P-B nominal inlet condition specification — Method of determining inlet fluid state
`Temperature` (default) | `Vapor quality` | `Vapor void fraction` | `Specific enthalpy` | `Specific internal energy`

Method of determining the inlet fluid state for P-B orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
At least one of the following parameters:
Positive spool position open connections to:
- P-B, A-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B

P-B nominal inlet pressure — Inlet fluid pressure
`0.101325` `MPa` (default) | positive scalar

Inlet pressure for the P-B orifice at nominal conditions.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
At least one of the following parameters:
Positive spool position open connections to:
- P-B, A-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B

P-B nominal inlet temperature — Fluid temperature
`293.15` `K` (default) | positive scalar

Inlet fluid temperature for the P-B orifice in nominal operating conditions.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Temperature
At least one of the following parameters:
Positive spool position open connections to:
- P-B, A-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B

P-B nominal inlet vapor quality — Inlet vapor quality mass fraction
`0` (default) | positive scalar in the range [0,1]

Inlet mixture vapor quality by mass fraction for the P-B orifice in nominal operating conditions. A value of 0 means that the inlet fluid is subcooled liquid. A value of 1 means that the inlet fluid is superheated vapor.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Vapor quality
At least one of the following parameters:
Positive spool position open connections to:
- P-B, A-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B

P-B nominal inlet vapor void fraction — Inlet vapor void fraction
`0` (default) | positive scalar in the range [0,1]

Inlet mixture vapor void fraction for the P-B orifice in nominal operating conditions. A value of 0 means that the inlet fluid is subcooled liquid. A value of 1 means that the inlet fluid is superheated vapor.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Vapor void fraction
At least one of the following parameters:
Positive spool position open connections to:
- P-B, A-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B

P-B nominal inlet specific enthalpy — Inlet fluid specific enthalpy
`400` `kJ/kg` (default) | positive scalar

Inlet specific enthalpy for the P-B orifice in nominal operating conditions.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Specific enthalpy
At least one of the following parameters:
Positive spool position open connections to:
- P-B, A-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B

P-B nominal inlet specific internal energy — Inlet specific internal energy
`400` `kJ/kg` (default) | positive scalar

Inlet specific internal energy for the P-B orifice in nominal operating conditions.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Specific internal energy
At least one of the following parameters:
Positive spool position open connections to:
- P-B, A-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B

P-B constant orifice nominal mass flow rate — Nominal mass flow rate
`0.1` `kg/s` (default) | positive scalar

Typical, rated, or design mass flow rate through a constant P-B orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
One of the following settings in each parameter:
Positive spool position open connections to:
- P-B, A-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B

Note:

This parameter is enabled only when the P-B orifice settings appear in all three spool position parameters: Positive spool position open connections, Neutral spool position open connections, and Negative spool position open connections.

P-B constant orifice nominal pressure drop — Nominal pressure drop
`0.001` `MPa` (default) | positive scalar

Typical, rated, or design pressure drop through a constant P-B orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
One of the following settings in each parameter:
Positive spool position open connections to:
- P-B, A-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B

Note:

P-B constant orifice Cv flow coefficient — Flow coefficient
`4` (default) | positive scalar

Value of the constant C_v flow coefficient for the P-B orifice. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Cv flow coefficient
One of the following settings in each parameter:
Positive spool position open connections to:
- P-B, A-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B

Note:

P-B orifice maximum Cv flow coefficient — C_v coefficient that corresponds to maximally open component
`4` (default) | positive scalar

Value of the C_v flow coefficient when the P-B orifice is fully open and the area available for flow is at a maximum. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Cv flow coefficient
Opening characteristic to Linear
One of the following parameters:
Positive spool position open connections to:
- P-B, A-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B

P-B orifice Cv flow coefficient vector — C_v coefficients for values in member position vector
`[1e-06, .8, 1.6, 2.4, 3.2, 4]` (default) | 1-by-n vector

Vector of C_v flow coefficients. Each coefficient corresponds to a value in the P-B orifice spool travel vector parameter. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential. The size of the vector must be the same as the P-B orifice spool travel vector parameter.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Cv flow coefficient
Opening characteristic to Tabulated
One of the following parameters:
Positive spool position open connections to:
- P-B, A-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B

P-B constant orifice Kv flow coefficient — Flow coefficient
`3.6` (default) | positive scalar

Value of the constant K_v flow coefficient for the P-B orifice. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Kv flow coefficient
One of the following settings in each parameter:
Positive spool position open connections to:
- P-B, A-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B

Note:

P-B orifice maximum Kv flow coefficient — K_v coefficient that corresponds to maximally open component
`3.6` (default) | positive scalar

Value of the K_v flow coefficient when the P-B orifice is fully open and the area available for flow is at a maximum. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Kv flow coefficient
Opening characteristic to Linear
One of the following parameters:
Positive spool position open connections to:
- P-B, A-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B

P-B orifice Kv flow coefficient vector — K_v coefficients for values in member position vector
`[1e-06, .72, 1.44, 2.16, 2.88, 3.6]` (default) | 1-by-n vector

Vector of K_v flow coefficients. Each coefficient corresponds to a value in the P-B orifice spool travel vector parameter. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential. The size of the vector must be the same as the P-B orifice spool travel vector parameter.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Kv flow coefficient
Opening characteristic to Tabulated
One of the following parameters:
Positive spool position open connections to:
- P-B, A-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B

P-B orifice spool travel vector — Vector of spool opening distances relative to fully closed position
`[0, .00125, .0025, .00375, .005] m` (default) | 1-by-n vector

Dependencies

To enable this parameter, set one of the following parameters:

Positive spool position open connections to:

P-B, A-T
P-A, P-B
P-B
P-A, P-B, A-B

Neutral spool position open connections to:

P-A, P-B, A-T, B-T
P-B, A-T
P-B, B-T
P-A, P-B
P-B
P-A, P-B, A-B
P-B, B-T, P-T
P-A, P-B, A-T, B-T, P-T

Negative spool position open connections to:

P-A, P-B, A-T, B-T
P-B, A-T
P-B, B-T
P-A, P-B
P-B
P-A, P-B, A-B

And either:

Modeling option to Liquid operating condition, Area characteristics to Different for each flow path, and Orifice parameterization to Tabulated data - Area vs. spool travel.
Modeling option to Vapor operating condition, Area characteristics to Different for each flow path, and Opening characteristic to Tabulated.

P-B maximum orifice area — Maximum orifice opening area
`1e-4 m^2` (default) | positive scalar

Largest open area of the P-B orifice during the operation of the valve.

Dependencies

To enable this parameter, set one of the following parameters:

Positive spool position open connections to:

P-B, A-T
P-A, P-B
P-B
P-A, P-B, A-B

Neutral spool position open connections to:

P-A, P-B, A-T, B-T
P-B, A-T
P-B, B-T
P-A, P-B
P-B
P-A, P-B, A-B
P-B, B-T, P-T
P-A, P-B, A-T, B-T, P-T

Negative spool position open connections to:

P-A, P-B, A-T, B-T
P-B, A-T
P-B, B-T
P-A, P-B
P-B
P-A, P-B, A-B

Also set Area characteristics to Different for each flow path and either:

Modeling option to Liquid operating condition and Orifice parameterization to Linear - Area vs. spool travel.
Modeling option to Vapor operating condition, Orifice parameterization to Orifice area, and Opening characteristic to Linear.

P-B orifice area vector — Vector of valve opening areas
`[1e-10, 1e-05, 4e-05, 6e-05, .0001] m^2` (default) | 1-by-n vector

Vector of opening areas for the tabular parameterization of the valve area. The vector elements must correspond one-to-one with the elements in the P-B orifice spool travel vector parameter. The elements must be greater than 0 and listed in ascending order.

Dependencies

To enable this parameter, set one of the following parameters:

Positive spool position open connections to:

P-B, A-T
P-A, P-B
P-B
P-A, P-B, A-B

Neutral spool position open connections to:

P-A, P-B, A-T, B-T
P-B, A-T
P-B, B-T
P-A, P-B
P-B
P-A, P-B, A-B
P-B, B-T, P-T
P-A, P-B, A-T, B-T, P-T

Negative spool position open connections to:

P-A, P-B, A-T, B-T
P-B, A-T
P-B, B-T
P-A, P-B
P-B
P-A, P-B, A-B

Also set Area characteristics to Different for each flow path and either:

Modeling option to Liquid operating condition and Orifice parameterization to Tabulated data - Area vs. spool travel.
Modeling option to Vapor operating condition, Orifice parameterization to Orifice area, and Opening characteristic to Tabulated.

P-B constant orifice area — Cross-sectional area for constant orifice
`1e-4 m^2` (default) | positive scalar

Orifice area when the positive and negative spool positions include the same orifice.

Dependencies

To enable this parameter, set one of the following settings in each parameter:

Positive spool position open connections to:

P-B, A-T
P-A, P-B
P-B
P-A, P-B, A-B

Neutral spool position open connections to:

P-A, P-B, A-T, B-T
P-B, A-T
P-B, B-T
P-A, P-B
P-B
P-A, P-B, A-B
P-B, B-T, P-T
P-A, P-B, A-T, B-T, P-T

Negative spool position open connections to:

P-A, P-B, A-T, B-T
P-B, A-T
P-B, B-T
P-A, P-B
P-B
P-A, P-B, A-B

And either:

Modeling option to Liquid operating condition, Area characteristics to Different for each flow path, and Orifice parameterization to Tabulated data - Area vs. spool travel or Linear - Area vs. spool travel.
Modeling option to Vapor operating condition, Area characteristics to Different for each flow path, and Opening characteristic to Tabulated.

Note:

P-B orifice xT pressure differential ratio factor at choked flow — Ratio of pressure differentials
`0.7` (default) | positive scalar

Ratio between the inlet pressure, p_in, and the outlet pressure, p_out, defined as $(p_{i n} - p_{o u t}) / p_{i n}$ where choking first occurs for the P-B orifice.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Kv flow coefficient or Cv flow coefficient
At least one of the following parameters:
Positive spool position open connections to:
- P-B, A-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- P-B, B-T
- P-A, P-B
- P-B
- P-A, P-B, A-B

A-B Orifice

Spool position at maximum A-B orifice area — Spool offset for fully open A-B orifice
`5e-3 m` (default) | positive scalar

Spool offset from the neutral position for a fully open A-B orifice.

Dependencies

To enable this parameter, set one of these parameters.

Positive spool position open connections to:

P-A, P-B, A-B

Neutral spool position open connections to:

P-A, P-B, A-B

Negative spool position open connections to:

P-A, P-B, A-B

Note:

This parameter is enabled only when the A-B orifice settings do not appear in all three spool position parameters: Positive spool position open connections, Neutral spool position open connections, and Negative spool position open connections.

A-B spool travel between closed and open orifice — Maximum spool stroke
`0.005 m` (default) | positive scalar

Maximum distance of spool travel. This value provides an upper limit to calculations so that simulations do not return unphysical values.

Dependencies

To enable this parameter, set one of the following parameters:

Positive spool position open connections to:

P-A, P-B, A-B

Neutral spool position open connections to:

P-A, P-B, A-B

Negative spool position open connections to:

P-A, P-B, A-B

And either:

Modeling option to Liquid operating condition, Area characteristics to Different for each flow path, and Orifice parameterization to Linear - Area vs. spool travel or Linear - Nominal mass flow rate vs. spool travel.
Modeling option to Vapor operating condition, Area characteristics to Different for each flow path, and Opening characteristic to Linear.

A-B nominal mass flow rate at maximum orifice opening — Rated mass flow rate
`0.1` `kg/s` (default) | positive scalar

Typical, rated, or design mass flow rate through a maximally open A-B orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
One of the following parameters:
Positive spool position open connections to:
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-B
Negative spool position open connections to:
- P-A, P-B, A-B

A-B nominal pressure drop at maximum orifice opening — Rated pressure drop
`0.001` `MPa` (default) | positive scalar

Typical, rated, or design pressure drop through a maximally open A-B orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
One of the following parameters:
Positive spool position open connections to:
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-B
Negative spool position open connections to:
- P-A, P-B, A-B

A-B nominal inlet condition specification — Method of determining inlet fluid state
`Temperature` (default) | `Vapor quality` | `Vapor void fraction` | `Specific enthalpy` | `Specific internal energy`

Method of determining the inlet fluid state for A-B orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
At least one of the following parameters:
Positive spool position open connections to:
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-B
Negative spool position open connections to:
- P-A, P-B, A-B

A-B nominal inlet pressure — Inlet fluid pressure
`0.101325` `MPa` (default) | positive scalar

Inlet pressure for the A-B orifice at nominal conditions.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
At least one of the following parameters:
Positive spool position open connections to:
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-B
Negative spool position open connections to:
- P-A, P-B, A-B

A-B nominal inlet temperature — Fluid temperature
`293.15` `K` (default) | positive scalar

Inlet fluid temperature for the A-B orifice in nominal operating conditions.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Temperature
At least one of the following parameters:
Positive spool position open connections to:
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-B
Negative spool position open connections to:
- P-A, P-B, A-B

A-B nominal inlet vapor quality — Inlet vapor quality mass fraction
`0` (default) | positive scalar in the range [0,1]

Inlet mixture vapor quality by mass fraction for the A-B orifice in nominal operating conditions. A value of 0 means that the inlet fluid is subcooled liquid. A value of 1 means that the inlet fluid is superheated vapor.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Vapor quality
At least one of the following parameters:
Positive spool position open connections to:
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-B
Negative spool position open connections to:
- P-A, P-B, A-B

A-B nominal inlet vapor void fraction — Inlet vapor void fraction
`0` (default) | positive scalar in the range [0,1]

Inlet mixture vapor void fraction for the A-B orifice in nominal operating conditions. A value of 0 means that the inlet fluid is subcooled liquid. A value of 1 means that the inlet fluid is superheated vapor.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Vapor void fraction
At least one of the following parameters:
Positive spool position open connections to:
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-B
Negative spool position open connections to:
- P-A, P-B, A-B

A-B nominal inlet specific enthalpy — Inlet fluid specific enthalpy
`400` `kJ/kg` (default) | positive scalar

Inlet specific enthalpy for the A-B orifice in nominal operating conditions.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Specific enthalpy
At least one of the following parameters:
Positive spool position open connections to:
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-B
Negative spool position open connections to:
- P-A, P-B, A-B

A-B nominal inlet specific internal energy — Inlet specific internal energy
`400` `kJ/kg` (default) | positive scalar

Inlet specific internal energy for the A-B orifice in nominal operating conditions.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Specific internal energy
At least one of the following parameters:
Positive spool position open connections to:
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-B
Negative spool position open connections to:
- P-A, P-B, A-B

A-B constant orifice nominal mass flow rate — Nominal mass flow rate
`0.1` `kg/s` (default) | positive scalar

Typical, rated, or design mass flow rate through a constant A-B orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
One of the following settings in each parameter:
Positive spool position open connections to:
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-B
Negative spool position open connections to:
- P-A, P-B, A-B

Note:

This parameter is enabled only when the A-B orifice settings appear in all three spool position parameters: Positive spool position open connections, Neutral spool position open connections, and Negative spool position open connections.

A-B constant orifice nominal pressure drop — Nominal pressure drop
`0.001` `MPa` (default) | positive scalar

Typical, rated, or design pressure drop through a constant A-B orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
One of the following settings in each parameter:
Positive spool position open connections to:
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-B
Negative spool position open connections to:
- P-A, P-B, A-B

Note:

A-B constant orifice Cv flow coefficient — Flow coefficient
`4` (default) | positive scalar

Value of the constant C_v flow coefficient for the A-B orifice. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Cv flow coefficient
One of the following settings in each parameter:
Positive spool position open connections to:
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-B
Negative spool position open connections to:
- P-A, P-B, A-B

Note:

This parameter is enabled only when the A-B orifice settings appear all three spool position parameters: Positive spool position open connections, Neutral spool position open connections, and Negative spool position open connections.

A-B orifice maximum Cv flow coefficient — C_v coefficient that corresponds to maximally open component
`4` (default) | positive scalar

Value of the C_v flow coefficient when the A-B orifice is fully open and the area available for flow is at a maximum. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Cv flow coefficient
Opening characteristic to Linear
One of the following parameters:
Positive spool position open connections to:
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-B
Negative spool position open connections to:
- P-A, P-B, A-B

A-B orifice Cv flow coefficient vector — C_v coefficients for values in member position vector
`[1e-06, .8, 1.6, 2.4, 3.2, 4]` (default) | 1-by-n vector

Vector of C_v flow coefficients. Each coefficient corresponds to a value in the A-B orifice spool travel vector parameter. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential. The size of the vector must be the same as the A-B orifice spool travel vector parameter.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Cv flow coefficient
Opening characteristic to Tabulated
One of the following parameters:
Positive spool position open connections to:
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-B
Negative spool position open connections to:
- P-A, P-B, A-B

A-B constant orifice Kv flow coefficient — Flow coefficient
`3.6` (default) | positive scalar

Value of the constant K_v flow coefficient for the A-B orifice. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Kv flow coefficient
One of the following settings in each parameter:
Positive spool position open connections to:
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-B
Negative spool position open connections to:
- P-A, P-B, A-B

Note:

A-B orifice maximum Kv flow coefficient — K_v coefficient that corresponds to maximally open component
`3.6` (default) | positive scalar

Value of the K_v flow coefficient when the A-B orifice is fully open and the area available for flow is at a maximum. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Kv flow coefficient
Opening characteristic to Linear
One of the following parameters:
Positive spool position open connections to:
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-B
Negative spool position open connections to:
- P-A, P-B, A-B

A-B orifice Kv flow coefficient vector — K_v coefficients for values in member position vector
`[1e-06, .72, 1.44, 2.16, 2.88, 3.6]` (default) | 1-by-n vector

Vector of K_v flow coefficients. Each coefficient corresponds to a value in the A-B orifice spool travel vector parameter. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential. The size of the vector must be the same as the A-B orifice spool travel vector parameter.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Kv flow coefficient
Opening characteristic to Tabulated
One of the following parameters:
Positive spool position open connections to:
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-B
Negative spool position open connections to:
- P-A, P-B, A-B

A-B orifice spool travel vector — Vector of spool opening distances relative to fully closed position
`[0, .00125, .0025, .00375, .005] m` (default) | 1-by-n vector

Dependencies

To enable this parameter, set one of the following parameters:

Positive spool position open connections to:

P-A, P-B, A-B

Neutral spool position open connections to:

P-A, P-B, A-B

Negative spool position open connections to:

P-A, P-B, A-B

And either:

Modeling option to Liquid operating condition, Area characteristics to Different for each flow path, and Orifice parameterization to Tabulated data - Area vs. spool travel.
Modeling option to Vapor operating condition, Area characteristics to Different for each flow path, and Opening characteristic to Tabulated.

A-B maximum orifice area — Maximum orifice opening area
`1e-4 m^2` (default) | positive scalar

Largest open area of the A-B orifice during the operation of the valve.

Dependencies

To enable this parameter, set one of the following parameters:

Positive spool position open connections to:

P-A, P-B, A-B

Neutral spool position open connections to:

P-A, P-B, A-B

Negative spool position open connections to:

P-A, P-B, A-B

Also set Area characteristics to Different for each flow path and either:

Modeling option to Liquid operating condition and Orifice parameterization to Linear - Area vs. spool travel.
Modeling option to Vapor operating condition, Orifice parameterization to Orifice area, and Opening characteristic to Linear.

A-B orifice area vector — Vector of valve opening areas
`[1e-10, 1e-05, 4e-05, 6e-05, .0001] m^2` (default) | 1-by-n vector

Vector of opening areas for the tabular parameterization of the valve area. The vector elements must correspond one-to-one with the elements in the A-B orifice spool travel vector parameter. The elements must be greater than 0 and listed in ascending order.

Dependencies

To enable this parameter, set one of the following parameters:

Positive spool position open connections to:

P-A, P-B, A-B

Neutral spool position open connections to:

P-A, P-B, A-B

Negative spool position open connections to:

P-A, P-B, A-B

Also set Area characteristics to Different for each flow path and either:

Modeling option to Liquid operating condition and Orifice parameterization to Tabulated data - Area vs. spool travel.
Modeling option to Vapor operating condition, Orifice parameterization to Orifice area, and Opening characteristic to Tabulated.

A-B constant orifice area — Cross-sectional area for constant orifice
`1e-4 m^2` (default) | positive scalar

Orifice area when the positive and negative spool positions include the same orifice.

Dependencies

To enable this parameter, set one of the following settings in each parameter:

Positive spool position open connections to:

P-A, P-B, A-B

Neutral spool position open connections to:

P-A, P-B, A-B

Negative spool position open connections to:

P-A, P-B, A-B

And either:

Modeling option to Liquid operating condition, Area characteristics to Different for each flow path, and Orifice parameterization to Tabulated data - Area vs. spool travel or Linear - Area vs. spool travel.
Modeling option to Vapor operating condition, Area characteristics to Different for each flow path, and Opening characteristic to Tabulated.

Note:

A-B orifice xT pressure differential ratio factor at choked flow — Ratio of pressure differentials
`0.7` (default) | positive scalar

Ratio between the inlet pressure, p_in, and the outlet pressure, p_out, defined as $(p_{i n} - p_{o u t}) / p_{i n}$ where choking first occurs for the A-B orifice.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Kv flow coefficient or Cv flow coefficient
At least one of the following parameters:
Positive spool position open connections to:
- P-A, P-B, A-B
Neutral spool position open connections to:
- P-A, P-B, A-B
Negative spool position open connections to:
- P-A, P-B, A-B

A-T Orifice

Spool position at maximum A-T orifice area — Spool offset for fully open A-T orifice
`5e-3 m` (default) | positive scalar

Spool offset from the neutral position for a fully open A-T orifice.

Dependencies

To enable this parameter, set one of these parameters.

Positive spool position open connections to P-B, A-T.
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- A-T, B-T
- P-A, A-T
- A-T
- P-A, A-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to P-B, A-T.

Note:

This parameter is enabled only when the A-T orifice settings do not appear in all three spool position parameters: Positive spool position open connections, Neutral spool position open connections, and Negative spool position open connections.

A-T spool travel between closed and open orifice — Maximum spool stroke
`0.005 m` (default) | positive scalar

Maximum distance of spool travel. This value provides an upper limit to calculations so that simulations do not return unphysical values.

Dependencies

To enable this parameter, set one of the following parameters:

Positive spool position open connections to P-B, A-T.
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- A-T, B-T
- P-A, A-T
- A-T
- P-A, A-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to P-B, A-T.

And either:

Modeling option to Liquid operating condition, Area characteristics to Different for each flow path, and Orifice parameterization to Linear - Area vs. spool travel or Linear - Nominal mass flow rate vs. spool travel.
Modeling option to Vapor operating condition, Area characteristics to Different for each flow path, and Opening characteristic to Linear.

A-T nominal mass flow rate at maximum orifice opening — Rated mass flow rate
`0.1` `kg/s` (default) | positive scalar

Typical, rated, or design mass flow rate through a maximally open A-T orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
One of the following parameters:
- Positive spool position open connections to P-B, A-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - P-B, A-T
  - A-T, B-T
  - P-A, A-T
  - A-T
  - P-A, A-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-B, A-T.

A-T nominal pressure drop at maximum orifice opening — Rated pressure drop
`0.001` `MPa` (default) | positive scalar

Typical, rated, or design pressure drop through a maximally open A-T orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
One of the following parameters:
- Positive spool position open connections to P-B, A-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - P-B, A-T
  - A-T, B-T
  - P-A, A-T
  - A-T
  - P-A, A-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-B, A-T.

A-T nominal inlet condition specification — Method of determining inlet fluid state
`Temperature` (default) | `Vapor quality` | `Vapor void fraction` | `Specific enthalpy` | `Specific internal energy`

Method of determining the inlet fluid state for A-T orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
At least one of the following parameters:
- Positive spool position open connections to P-B, A-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - P-B, A-T
  - A-T, B-T
  - P-A, A-T
  - A-T
  - P-A, A-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-B, A-T.

A-T nominal inlet pressure — Inlet fluid pressure
`0.101325` `MPa` (default) | positive scalar

Inlet pressure for the A-T orifice at nominal conditions.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
At least one of the following parameters:
- Positive spool position open connections to P-B, A-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - P-B, A-T
  - A-T, B-T
  - P-A, A-T
  - A-T
  - P-A, A-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-B, A-T.

A-T nominal inlet temperature — Fluid temperature
`293.15` `K` (default) | positive scalar

Inlet fluid temperature for the A-T orifice in nominal operating conditions.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Temperature
At least one of the following parameters:
- Positive spool position open connections to P-B, A-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - P-B, A-T
  - A-T, B-T
  - P-A, A-T
  - A-T
  - P-A, A-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-B, A-T.

A-T nominal inlet vapor quality — Inlet vapor quality mass fraction
`0` (default) | positive scalar in the range [0,1]

Inlet mixture vapor quality by mass fraction for the A-T orifice in nominal operating conditions. A value of 0 means that the inlet fluid is subcooled liquid. A value of 1 means that the inlet fluid is superheated vapor.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Vapor quality
At least one of the following parameters:
- Positive spool position open connections to P-B, A-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - P-B, A-T
  - A-T, B-T
  - P-A, A-T
  - A-T
  - P-A, A-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-B, A-T.

A-T nominal inlet vapor void fraction — Inlet vapor void fraction
`0` (default) | positive scalar in the range [0,1]

Inlet mixture vapor void fraction for the A-T orifice in nominal operating conditions. A value of 0 means that the inlet fluid is subcooled liquid. A value of 1 means that the inlet fluid is superheated vapor.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Vapor void fraction
At least one of the following parameters:
- Positive spool position open connections to P-B, A-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - P-B, A-T
  - A-T, B-T
  - P-A, A-T
  - A-T
  - P-A, A-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-B, A-T.

A-T nominal inlet specific enthalpy — Inlet fluid specific enthalpy
`400` `kJ/kg` (default) | positive scalar

Inlet specific enthalpy for the A-T orifice in nominal operating conditions.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Specific enthalpy
At least one of the following parameters:
- Positive spool position open connections to P-B, A-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - P-B, A-T
  - A-T, B-T
  - P-A, A-T
  - A-T
  - P-A, A-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-B, A-T.

A-T nominal inlet specific internal energy — Inlet specific internal energy
`400` `kJ/kg` (default) | positive scalar

Inlet specific internal energy for the A-T orifice in nominal operating conditions.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Specific internal energy
At least one of the following parameters:
- Positive spool position open connections to P-B, A-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - P-B, A-T
  - A-T, B-T
  - P-A, A-T
  - A-T
  - P-A, A-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-B, A-T.

A-T constant orifice nominal mass flow rate — Nominal mass flow rate
`0.1` `kg/s` (default) | positive scalar

Typical, rated, or design mass flow rate through a constant A-T orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
One of the following settings in each parameter:
- Positive spool position open connections to P-B, A-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - P-B, A-T
  - A-T, B-T
  - P-A, A-T
  - A-T
  - P-A, A-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-B, A-T.

Note:

This parameter is enabled only when the A-T orifice settings appear in all three spool position parameters: Positive spool position open connections, Neutral spool position open connections, and Negative spool position open connections.

A-T constant orifice nominal pressure drop — Nominal pressure drop
`0.001` `MPa` (default) | positive scalar

Typical, rated, or design pressure drop through a constant A-T orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
One of the following settings in each parameter:
- Positive spool position open connections to P-B, A-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - P-B, A-T
  - A-T, B-T
  - P-A, A-T
  - A-T
  - P-A, A-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-B, A-T.

Note:

A-T constant orifice Cv flow coefficient — Flow coefficient
`4` (default) | positive scalar

Value of the constant C_v flow coefficient for the A-T orifice. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Cv flow coefficient
One of the following settings in each parameter:
- Positive spool position open connections to P-B, A-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - P-B, A-T
  - A-T, B-T
  - P-A, A-T
  - A-T
  - P-A, A-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-B, A-T.

Note:

A-T orifice maximum Cv flow coefficient — C_v coefficient that corresponds to maximally open component
`4` (default) | positive scalar

Value of the C_v flow coefficient when the A-T orifice is fully open and the area available for flow is at a maximum. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Cv flow coefficient
Opening characteristic to Linear
One of the following parameters:
- Positive spool position open connections to P-B, A-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - P-B, A-T
  - A-T, B-T
  - P-A, A-T
  - A-T
  - P-A, A-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-B, A-T.

A-T orifice Cv flow coefficient vector — C_v coefficients for values in member position vector
`[1e-06, .8, 1.6, 2.4, 3.2, 4]` (default) | 1-by-n vector

Vector of C_v flow coefficients. Each coefficient corresponds to a value in the A-T orifice spool travel vector parameter. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential. The size of the vector must be the same as the A-T orifice spool travel vector parameter.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Cv flow coefficient
Opening characteristic to Tabulated
One of the following parameters:
- Positive spool position open connections to P-B, A-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - P-B, A-T
  - A-T, B-T
  - P-A, A-T
  - A-T
  - P-A, A-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-B, A-T.

A-T constant orifice Kv flow coefficient — Flow coefficient
`3.6` (default) | positive scalar

Value of the constant K_v flow coefficient for the A-T orifice. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Kv flow coefficient
One of the following settings in each parameter:
- Positive spool position open connections to P-B, A-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - P-B, A-T
  - A-T, B-T
  - P-A, A-T
  - A-T
  - P-A, A-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-B, A-T.

Note:

A-T orifice maximum Kv flow coefficient — K_v coefficient that corresponds to maximally open component
`3.6` (default) | positive scalar

Value of the K_v flow coefficient when the A-T orifice is fully open and the area available for flow is at a maximum. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Kv flow coefficient
Opening characteristic to Linear
One of the following parameters:
- Positive spool position open connections to P-B, A-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - P-B, A-T
  - A-T, B-T
  - P-A, A-T
  - A-T
  - P-A, A-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-B, A-T.

A-T orifice Kv flow coefficient vector — K_v coefficients for values in member position vector
`[1e-06, .72, 1.44, 2.16, 2.88, 3.6]` (default) | 1-by-n vector

Vector of K_v flow coefficients. Each coefficient corresponds to a value in the A-T orifice spool travel vector parameter. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential. The size of the vector must be the same as the A-T orifice spool travel vector parameter.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Kv flow coefficient
Opening characteristic to Tabulated
One of the following parameters:
- Positive spool position open connections to P-B, A-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - P-B, A-T
  - A-T, B-T
  - P-A, A-T
  - A-T
  - P-A, A-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-B, A-T.

A-T orifice spool travel vector — Vector of spool opening distances relative to fully closed position
`[0, .00125, .0025, .00375, .005] m` (default) | 1-by-n vector

Dependencies

To enable this parameter, set one of the following parameters:

Positive spool position open connections to P-B, A-T.
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- A-T, B-T
- P-A, A-T
- A-T
- P-A, A-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to P-B, A-T.

And either:

Modeling option to Liquid operating condition, Area characteristics to Different for each flow path, and Orifice parameterization to Tabulated data - Area vs. spool travel.
Modeling option to Vapor operating condition, Area characteristics to Different for each flow path, and Opening characteristic to Tabulated.

A-T maximum orifice area — Maximum orifice opening area
`1e-4 m^2` (default) | positive scalar

Largest open area of the A-T orifice during the operation of the valve.

Dependencies

To enable this parameter, set one of the following parameters:

Positive spool position open connections to P-B, A-T.
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- A-T, B-T
- P-A, A-T
- A-T
- P-A, A-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to P-B, A-T.

Also set Area characteristics to Different for each flow path and either:

Modeling option to Liquid operating condition and Orifice parameterization to Linear - Area vs. spool travel.
Modeling option to Vapor operating condition, Orifice parameterization to Orifice area, and Opening characteristic to Linear.

A-T orifice area vector — Vector of valve opening areas
`[1e-10, 1e-05, 4e-05, 6e-05, .0001] m^2` (default) | 1-by-n vector

Vector of opening areas for the tabular parameterization of the valve area. The vector elements must correspond one-to-one with the elements in the A-T orifice spool travel vector parameter. The elements must be greater than 0 and listed in ascending order.

Dependencies

To enable this parameter, set one of the following parameters:

Positive spool position open connections to P-B, A-T.
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- A-T, B-T
- P-A, A-T
- A-T
- P-A, A-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to P-B, A-T.

Also set Area characteristics to Different for each flow path and either:

Modeling option to Liquid operating condition and Orifice parameterization to Tabulated data - Area vs. spool travel.
Modeling option to Vapor operating condition, Orifice parameterization to Orifice area, and Opening characteristic to Tabulated.

A-T constant orifice area — Cross-sectional area for constant orifice
`1e-4 m^2` (default) | positive scalar

Orifice area when the positive and negative spool positions include the same orifice.

Dependencies

To enable this parameter, set one of the following settings in each parameter:

Positive spool position open connections to P-B, A-T.
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- P-B, A-T
- A-T, B-T
- P-A, A-T
- A-T
- P-A, A-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to P-B, A-T.

And either:

Modeling option to Liquid operating condition, Area characteristics to Different for each flow path, and Orifice parameterization to Tabulated data - Area vs. spool travel or Linear - Area vs. spool travel.
Modeling option to Vapor operating condition, Area characteristics to Different for each flow path, and Opening characteristic to Tabulated.

Note:

A-T orifice xT pressure differential ratio factor at choked flow — Ratio of pressure differentials
`0.7` (default) | positive scalar

Ratio between the inlet pressure, p_in, and the outlet pressure, p_out, defined as $(p_{i n} - p_{o u t}) / p_{i n}$ where choking first occurs for the A-T orifice.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Kv flow coefficient or Cv flow coefficient
At least one of the following parameters:
- Positive spool position open connections to P-B, A-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - P-B, A-T
  - A-T, B-T
  - P-A, A-T
  - A-T
  - P-A, A-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-B, A-T.

B-T Orifice

Spool position at maximum B-T orifice area — Spool offset for fully open B-T orifice
`5e-3 m` (default) | positive scalar

Spool offset from the neutral position for a fully open B-T orifice.

Dependencies

To enable this parameter, set one of these parameters.

Positive spool position open connections to P-A, B-T.
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- A-T, B-T
- P-A, B-T
- P-B, B-T
- B-T
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to P-A, B-T.

Note:

This parameter is enabled only when the B-T orifice settings do not appear in all three spool position parameters: Positive spool position open connections, Neutral spool position open connections, and Negative spool position open connections.

B-T spool travel between closed and open orifice — Maximum spool stroke
`0.005 m` (default) | positive scalar

Maximum distance of spool travel. This value provides an upper limit to calculations so that simulations do not return unphysical values.

Dependencies

To enable this parameter, set one of the following parameters:

Positive spool position open connections to P-A, B-T.
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- A-T, B-T
- P-A, B-T
- P-B, B-T
- B-T
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to P-A, B-T.

And either:

Modeling option to Liquid operating condition, Area characteristics to Different for each flow path, and Orifice parameterization to Linear - Area vs. spool travel or Linear - Nominal mass flow rate vs. spool travel.
Modeling option to Vapor operating condition, Area characteristics to Different for each flow path, and Opening characteristic to Linear.

B-T nominal mass flow rate at maximum orifice opening — Rated mass flow rate
`0.1` `kg/s` (default) | positive scalar

Typical, rated, or design mass flow rate through a maximally open B-T orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
One of the following parameters:
- Positive spool position open connections to P-A, B-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - A-T, B-T
  - P-A, B-T
  - P-B, B-T
  - B-T
  - P-B, B-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-A, B-T.

B-T nominal pressure drop at maximum orifice opening — Rated pressure drop
`0.001` `MPa` (default) | positive scalar

Typical, rated, or design pressure drop through a maximally open B-T orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
One of the following parameters:
- Positive spool position open connections to P-A, B-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - A-T, B-T
  - P-A, B-T
  - P-B, B-T
  - B-T
  - P-B, B-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-A, B-T.

B-T nominal inlet condition specification — Method of determining inlet fluid state
`Temperature` (default) | `Vapor quality` | `Vapor void fraction` | `Specific enthalpy` | `Specific internal energy`

Method of determining the inlet fluid state for B-T orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
At least one of the following parameters:
- Positive spool position open connections to P-A, B-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - A-T, B-T
  - P-A, B-T
  - P-B, B-T
  - B-T
  - P-B, B-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-A, B-T.

B-T nominal inlet pressure — Inlet fluid pressure
`0.101325` `MPa` (default) | positive scalar

Inlet pressure for the B-T orifice at nominal conditions.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
At least one of the following parameters:
- Positive spool position open connections to P-A, B-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - A-T, B-T
  - P-A, B-T
  - P-B, B-T
  - B-T
  - P-B, B-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-A, B-T.

B-T nominal inlet temperature — Fluid temperature
`293.15` `K` (default) | positive scalar

Inlet fluid temperature for the B-T orifice in nominal operating conditions.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Temperature
At least one of the following parameters:
- Positive spool position open connections to P-A, B-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - A-T, B-T
  - P-A, B-T
  - P-B, B-T
  - B-T
  - P-B, B-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-A, B-T.

B-T nominal inlet vapor quality — Inlet vapor quality mass fraction
`0` (default) | positive scalar in the range [0,1]

Inlet mixture vapor quality by mass fraction for the B-T orifice in nominal operating conditions. A value of 0 means that the inlet fluid is subcooled liquid. A value of 1 means that the inlet fluid is superheated vapor.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Vapor quality
At least one of the following parameters:
- Positive spool position open connections to P-A, B-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - A-T, B-T
  - P-A, B-T
  - P-B, B-T
  - B-T
  - P-B, B-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-A, B-T.

B-T nominal inlet vapor void fraction — Inlet vapor void fraction
`0` (default) | positive scalar in the range [0,1]

Inlet mixture vapor void fraction for the B-T orifice in nominal operating conditions. A value of 0 means that the inlet fluid is subcooled liquid. A value of 1 means that the inlet fluid is superheated vapor.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Vapor void fraction
At least one of the following parameters:
- Positive spool position open connections to P-A, B-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - A-T, B-T
  - P-A, B-T
  - P-B, B-T
  - B-T
  - P-B, B-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-A, B-T.

B-T nominal inlet specific enthalpy — Inlet fluid specific enthalpy
`400` `kJ/kg` (default) | positive scalar

Inlet specific enthalpy for the B-T orifice in nominal operating conditions.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Specific enthalpy
At least one of the following parameters:
- Positive spool position open connections to P-A, B-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - A-T, B-T
  - P-A, B-T
  - P-B, B-T
  - B-T
  - P-B, B-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-A, B-T.

B-T nominal inlet specific internal energy — Inlet specific internal energy
`400` `kJ/kg` (default) | positive scalar

Inlet specific internal energy for the B-T orifice in nominal operating conditions.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Specific internal energy
At least one of the following parameters:
- Positive spool position open connections to P-A, B-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - A-T, B-T
  - P-A, B-T
  - P-B, B-T
  - B-T
  - P-B, B-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-A, B-T.

B-T constant orifice nominal mass flow rate — Nominal mass flow rate
`0.1` `kg/s` (default) | positive scalar

Typical, rated, or design mass flow rate through a constant B-T orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
One of the following settings in each parameter:
- Positive spool position open connections to P-A, B-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - A-T, B-T
  - P-A, B-T
  - P-B, B-T
  - B-T
  - P-B, B-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-A, B-T.

Note:

This parameter is enabled only when the B-T orifice settings appear in all three spool position parameters: Positive spool position open connections, Neutral spool position open connections, and Negative spool position open connections.

B-T constant orifice nominal pressure drop — Nominal pressure drop
`0.001` `MPa` (default) | positive scalar

Typical, rated, or design pressure drop through a constant B-T orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
One of the following settings in each parameter:
- Positive spool position open connections to P-A, B-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - A-T, B-T
  - P-A, B-T
  - P-B, B-T
  - B-T
  - P-B, B-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-A, B-T.

Note:

B-T constant orifice Cv flow coefficient — Flow coefficient
`4` (default) | positive scalar

Value of the constant C_v flow coefficient for the B-T orifice. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Cv flow coefficient
One of the following settings in each parameter:
- Positive spool position open connections to P-A, B-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - A-T, B-T
  - P-A, B-T
  - P-B, B-T
  - B-T
  - P-B, B-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-A, B-T.

Note:

B-T orifice maximum Cv flow coefficient — C_v coefficient that corresponds to maximally open component
`4` (default) | positive scalar

Value of the C_v flow coefficient when the B-T orifice is fully open and the area available for flow is at a maximum. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Cv flow coefficient
Opening characteristic to Linear
One of the following parameters:
- Positive spool position open connections to P-A, B-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - A-T, B-T
  - P-A, B-T
  - P-B, B-T
  - B-T
  - P-B, B-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-A, B-T.

B-T orifice Cv flow coefficient vector — C_v coefficients for values in member position vector
`[1e-06, .8, 1.6, 2.4, 3.2, 4]` (default) | 1-by-n vector

Vector of C_v flow coefficients. Each coefficient corresponds to a value in the B-T orifice spool travel vector parameter. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential. The size of the vector must be the same as the B-T orifice spool travel vector parameter.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Cv flow coefficient
Opening characteristic to Tabulated
One of the following parameters:
- Positive spool position open connections to P-A, B-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - A-T, B-T
  - P-A, B-T
  - P-B, B-T
  - B-T
  - P-B, B-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-A, B-T.

B-T constant orifice Kv flow coefficient — Flow coefficient
`3.6` (default) | positive scalar

Value of the constant K_v flow coefficient for the B-T orifice. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Kv flow coefficient
One of the following settings in each parameter:
- Positive spool position open connections to P-A, B-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - A-T, B-T
  - P-A, B-T
  - P-B, B-T
  - B-T
  - P-B, B-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-A, B-T.

Note:

B-T orifice maximum Kv flow coefficient — K_v coefficient that corresponds to maximally open component
`3.6` (default) | positive scalar

Value of the K_v flow coefficient when the B-T orifice is fully open and the area available for flow is at a maximum. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Kv flow coefficient
Opening characteristic to Linear
One of the following parameters:
- Positive spool position open connections to P-A, B-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - A-T, B-T
  - P-A, B-T
  - P-B, B-T
  - B-T
  - P-B, B-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-A, B-T.

B-T orifice Kv flow coefficient vector — K_v coefficients for values in member position vector
`[1e-06, .72, 1.44, 2.16, 2.88, 3.6]` (default) | 1-by-n vector

Vector of K_v flow coefficients. Each coefficient corresponds to a value in the B-T orifice spool travel vector parameter. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential. The size of the vector must be the same as the B-T orifice spool travel vector parameter.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Kv flow coefficient
Opening characteristic to Tabulated
One of the following parameters:
- Positive spool position open connections to P-A, B-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - A-T, B-T
  - P-A, B-T
  - P-B, B-T
  - B-T
  - P-B, B-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-A, B-T.

B-T orifice spool travel vector — Vector of spool opening distances relative to fully closed position
`[0, .00125, .0025, .00375, .005] m` (default) | 1-by-n vector

Dependencies

To enable this parameter, set one of the following parameters:

Positive spool position open connections to P-A, B-T.
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- A-T, B-T
- P-A, B-T
- P-B, B-T
- B-T
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to P-A, B-T.

And either:

Modeling option to Liquid operating condition, Area characteristics to Different for each flow path, and Orifice parameterization to Tabulated data - Area vs. spool travel.
Modeling option to Vapor operating condition, Area characteristics to Different for each flow path, and Opening characteristic to Tabulated.

B-T maximum orifice area — Maximum orifice opening area
`1e-4 m^2` (default) | positive scalar

Largest open area of the B-T orifice during the operation of the valve.

Dependencies

To enable this parameter, set one of the following parameters:

Positive spool position open connections to P-A, B-T.
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- A-T, B-T
- P-A, B-T
- P-B, B-T
- B-T
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to P-A, B-T.

Also set Area characteristics to Different for each flow path and either:

Modeling option to Liquid operating condition and Orifice parameterization to Linear - Area vs. spool travel.
Modeling option to Vapor operating condition, Orifice parameterization to Orifice area, and Opening characteristic to Linear.

B-T orifice area vector — Vector of valve opening areas
`[1e-10, 1e-05, 4e-05, 6e-05, .0001] m^2` (default) | 1-by-n vector

Vector of opening areas for the tabular parameterization of the valve area. The vector elements must correspond one-to-one with the elements in the B-T orifice spool travel vector parameter. The elements must be greater than 0 and listed in ascending order.

Dependencies

To enable this parameter, set one of the following parameters:

Positive spool position open connections to P-A, B-T.
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- A-T, B-T
- P-A, B-T
- P-B, B-T
- B-T
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to P-A, B-T.

Also set Area characteristics to Different for each flow path and either:

Modeling option to Liquid operating condition and Orifice parameterization to Tabulated data - Area vs. spool travel.
Modeling option to Vapor operating condition, Orifice parameterization to Orifice area, and Opening characteristic to Tabulated.

B-T constant orifice area — Cross-sectional area for constant orifice
`1e-4 m^2` (default) | positive scalar

Orifice area when the positive and negative spool positions include the same orifice.

Dependencies

To enable this parameter, set one of the following settings in each parameter:

Positive spool position open connections to P-A, B-T.
Neutral spool position open connections to:
- P-A, P-B, A-T, B-T
- A-T, B-T
- P-A, B-T
- P-B, B-T
- B-T
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T
Negative spool position open connections to P-A, B-T.

And either:

Modeling option to Liquid operating condition, Area characteristics to Different for each flow path, and Orifice parameterization to Tabulated data - Area vs. spool travel or Linear - Area vs. spool travel.
Modeling option to Vapor operating condition, Area characteristics to Different for each flow path, and Opening characteristic to Tabulated.

Note:

B-T orifice xT pressure differential ratio factor at choked flow — Ratio of pressure differentials
`0.7` (default) | positive scalar

Ratio between the inlet pressure, p_in, and the outlet pressure, p_out, defined as $(p_{i n} - p_{o u t}) / p_{i n}$ where choking first occurs for the B-T orifice.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Kv flow coefficient or Cv flow coefficient
At least one of the following parameters:
- Positive spool position open connections to P-A, B-T.
- Neutral spool position open connections to:
  - P-A, P-B, A-T, B-T
  - A-T, B-T
  - P-A, B-T
  - P-B, B-T
  - B-T
  - P-B, B-T, P-T
  - P-A, P-B, A-T, B-T, P-T
- Negative spool position open connections to P-A, B-T.

P-T Orifice

Spool position at maximum P-T orifice area — Spool offset for fully open P-T orifice
`5e-3 m` (default) | positive scalar

Spool offset from the neutral position for a fully open P-T orifice.

Dependencies

To enable this parameter, set Neutral spool position open connections to:

P-T
P-A, A-T, P-T
P-B, B-T, P-T
P-A, P-B, A-T, B-T, P-T

P-T spool travel between closed and open orifice — Maximum spool stroke
`0.005 m` (default) | positive scalar

Maximum distance of spool travel. This value provides an upper limit to calculations so that simulations do not return unphysical values.

Dependencies

To enable this parameter, set Neutral spool position open connections to:

P-T
P-A, A-T, P-T
P-B, B-T, P-T
P-A, P-B, A-T, B-T, P-T

And either:

Modeling option to Liquid operating condition, Area characteristics to Different for each flow path, and Orifice parameterization to Linear - Area vs. spool travel or Linear - Nominal mass flow rate vs. spool travel.
Modeling option to Vapor operating condition, Area characteristics to Different for each flow path, and Opening characteristic to Linear.

P-T nominal mass flow rate at maximum orifice opening — Rated mass flow rate
`0.1` `kg/s` (default) | positive scalar

Typical, rated, or design mass flow rate through a maximally open P-T orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Neutral spool position open connections to:
- P-T
- P-A, A-T, P-T
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T

P-T nominal pressure drop at maximum orifice opening — Rated pressure drop
`0.001` `MPa` (default) | positive scalar

Typical, rated, or design pressure drop through a maximally open P-T orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Neutral spool position open connections to:
- P-T
- P-A, A-T, P-T
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T

P-T nominal inlet condition specification — Method of determining inlet fluid state
`Temperature` (default) | `Vapor quality` | `Vapor void fraction` | `Specific enthalpy` | `Specific internal energy`

Method of determining the inlet fluid state for P-T orifice.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Neutral spool position open connections to:
- P-T
- P-A, A-T, P-T
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T

P-T nominal inlet pressure — Inlet fluid pressure
`0.101325` `MPa` (default) | positive scalar

Inlet pressure for the P-T orifice at nominal conditions.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Neutral spool position open connections to:
- P-T
- P-A, A-T, P-T
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T

P-T nominal inlet temperature — Fluid temperature
`293.15` `K` (default) | positive scalar

Inlet fluid temperature for the P-T orifice in nominal operating conditions.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Temperature
Neutral spool position open connections to:
- P-T
- P-A, A-T, P-T
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T

P-T nominal inlet vapor quality — Inlet vapor quality mass fraction
`0` (default) | positive scalar in the range [0,1]

Inlet mixture vapor quality by mass fraction for the P-T orifice in nominal operating conditions. A value of 0 means that the inlet fluid is subcooled liquid. A value of 1 means that the inlet fluid is superheated vapor.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Vapor quality
Neutral spool position open connections to:
- P-T
- P-A, A-T, P-T
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T

P-T nominal inlet vapor void fraction — Inlet vapor void fraction
`0` (default) | positive scalar in the range [0,1]

Inlet mixture vapor void fraction for the P-T orifice in nominal operating conditions. A value of 0 means that the inlet fluid is subcooled liquid. A value of 1 means that the inlet fluid is superheated vapor.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Vapor void fraction
Neutral spool position open connections to:
- P-T
- P-A, A-T, P-T
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T

P-T nominal inlet specific enthalpy — Inlet fluid specific enthalpy
`400` `kJ/kg` (default) | positive scalar

Inlet specific enthalpy for the P-T orifice in nominal operating conditions.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Specific enthalpy
Neutral spool position open connections to:
- P-T
- P-A, A-T, P-T
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T

P-T nominal inlet specific internal energy — Inlet specific internal energy
`400` `kJ/kg` (default) | positive scalar

Inlet specific internal energy for the P-T orifice in nominal operating conditions.

Dependencies

To enable this parameter, set:

Modeling option to Liquid operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Linear - Nominal mass flow rate vs. spool travel
Nominal inlet condition specification to Specific internal energy
Neutral spool position open connections to:
- P-T
- P-A, A-T, P-T
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T

P-T orifice maximum Cv flow coefficient — C_v coefficient that corresponds to maximally open component
`4` (default) | positive scalar

Value of the C_v flow coefficient when the P-T orifice is fully open and the area available for flow is at a maximum. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Cv flow coefficient
Opening characteristic to Linear
Neutral spool position open connections to:
- P-T
- P-A, A-T, P-T
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T

P-T orifice Cv flow coefficient vector — C_v coefficients for values in member position vector
`[1e-06, .8, 1.6, 2.4, 3.2, 4]` (default) | 1-by-n vector

Vector of C_v flow coefficients. Each coefficient corresponds to a value in the P-T orifice spool travel vector parameter. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential. The size of the vector must be the same as the P-T orifice spool travel vector parameter.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Cv flow coefficient
Opening characteristic to Tabulated
Neutral spool position open connections to:
- P-T
- P-A, A-T, P-T
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T

P-T orifice maximum Kv flow coefficient — K_v coefficient that corresponds to maximally open component
`3.6` (default) | positive scalar

Value of the K_v flow coefficient when the P-T orifice is fully open and the area available for flow is at a maximum. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Kv flow coefficient
Opening characteristic to Linear
Neutral spool position open connections to:
- P-T
- P-A, A-T, P-T
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T

P-T orifice Kv flow coefficient vector — K_v coefficients for values in member position vector
`[1e-06, .72, 1.44, 2.16, 2.88, 3.6]` (default) | 1-by-n vector

Vector of K_v flow coefficients. Each coefficient corresponds to a value in the P-T orifice spool travel vector parameter. This parameter measures the ease with which the vapor traverses the resistive element when driven by a pressure differential. The size of the vector must be the same as the P-T orifice spool travel vector parameter.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Kv flow coefficient
Opening characteristic to Tabulated
Neutral spool position open connections to:
- P-T
- P-A, A-T, P-T
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T

P-T orifice spool travel vector — Vector of spool opening distances relative to fully closed position
`[0, .00125, .0025, .00375, .005] m` (default) | 1-by-n vector

Dependencies

To enable this parameter, set Neutral spool position open connections to:

P-T
P-A, A-T, P-T
P-B, B-T, P-T
P-A, P-B, A-T, B-T, P-T

And either:

Modeling option to Liquid operating condition, Area characteristics to Different for each flow path, and Orifice parameterization to Tabulated data - Area vs. spool travel.
Modeling option to Vapor operating condition, Area characteristics to Different for each flow path, and Opening characteristic to Tabulated.

P-T maximum orifice area — Maximum orifice opening area
`1e-4 m^2` (default) | positive scalar

Largest open area of the P-T orifice during the operation of the valve.

Dependencies

To enable this parameter, set Neutral spool position open connections to:

P-T
P-A, A-T, P-T
P-B, B-T, P-T
P-A, P-B, A-T, B-T, P-T

Also set Area characteristics to Different for each flow path and either:

Modeling option to Liquid operating condition and Orifice parameterization to Linear - Area vs. spool travel.
Modeling option to Vapor operating condition, Orifice parameterization to Orifice area, and Opening characteristic to Linear.

P-T orifice area vector — Vector of valve opening areas
`[1e-10, 1e-05, 4e-05, 6e-05, .0001] m^2` (default) | 1-by-n vector

Vector of opening areas for the tabular parameterization of the valve area. The vector elements must correspond one-to-one with the elements in the P-T orifice spool travel vector parameter. The elements must be greater than 0 and listed in ascending order.

Dependencies

To enable this parameter, set Neutral spool position open connections to:

P-T
P-A, A-T, P-T
P-B, B-T, P-T
P-A, P-B, A-T, B-T, P-T

Also set Area characteristics to Different for each flow path and either:

Modeling option to Liquid operating condition and Orifice parameterization to Tabulated data - Area vs. spool travel.
Modeling option to Vapor operating condition, Orifice parameterization to Orifice area, and Opening characteristic to Tabulated.

P-T orifice xT pressure differential ratio factor at choked flow — Ratio of pressure differentials
`0.7` (default) | positive scalar

Ratio between the inlet pressure, p_in, and the outlet pressure, p_out, defined as $(p_{i n} - p_{o u t}) / p_{i n}$ where choking first occurs for the P-T orifice.

Dependencies

To enable this parameter, set:

Modeling option to Vapor operating condition
Area characteristics to Different for each flow path
Orifice parameterization to Kv flow coefficient or Cv flow coefficient
Neutral spool position open connections to:
- P-T
- P-A, A-T, P-T
- P-B, B-T, P-T
- P-A, P-B, A-T, B-T, P-T

Extended Capabilities

C/C++ Code Generation
Generate C and C++ code using Simulink® Coder™.

Version History

Introduced in R2024b

4-Way 3-Position Directional Valve (2P)

Description

Spool Displacement and Valve Configuration

Valve Orifice Parameterizations

Visualize Orifice Openings

Assumptions and Limitations

Ports

Conserving

A — Entry or exit port two-phase fluid

B — Entry or exit port two-phase fluid

P — Entry or exit port two-phase fluid

T — Entry or exit port two-phase fluid

Input

S — Spool displacement, m physical signal

Parameters

Modeling option — Modeling option for fluid phase Liquid operating condition (default) | Vapor operating condition

Valve Configuration

Positive spool position open connections — Flow paths open when the spool is in positive position P-A, B-T (default) | P-A, P-B | P-B, A-T | P-A | P-B | P-A, P-B, A-B

Negative spool position open connections — Flow paths open when spool moves in negative direction P-A, B-T (default) | P-A, P-B | P-B, A-T | P-A | P-B | P-A, P-B, A-B

Consistency check for neutral spool position open connections — Whether to check if orifice settings are consistent Warning (default) | Error | None

Model Parameterization

Area characteristics — Flow equations for orifices Identical for all flow paths (default) | Different for each flow path

Orifice parameterization — Variable or constant orifice parameterization Linear - Area vs. spool travel (default) | Linear - Nominal mass flow rate vs. spool travel | Tabulated data - Area vs. spool travel | Cv flow coefficient | Kv flow coefficient | Orifice area

Spool travel between closed and open orifice — Maximum spool stroke 0.005 m (default) | positive scalar

Dependencies

Maximum orifice area — Maximum orifice opening area 1e-4 m^2 (default) | positive scalar

Dependencies

Nominal mass flow rate at maximum orifice opening — Rated mass flow rate 0.1 kg/s (default) | positive scalar

Dependencies

Nominal pressure drop at maximum orifice opening — Rated pressure drop 0.001 MPa (default) | positive scalar

Dependencies

Nominal inlet condition specification — Method of determining inlet fluid state Temperature (default) | Vapor quality | Vapor void fraction | Specific enthalpy | Specific internal energy

Dependencies

Nominal inlet pressure — Inlet fluid pressure 0.101325 MPa (default) | positive scalar

Dependencies

Nominal inlet temperature — Fluid temperature 293.15 K (default) | positive scalar

Dependencies

Nominal inlet vapor quality — Inlet vapor quality mass fraction 0 (default) | positive scalar in the range [0,1]

Dependencies

Nominal inlet vapor void fraction — Inlet volume fraction 0 (default) | positive scalar in the range [0,1]

Dependencies

Nominal inlet specific enthalpy — Inlet fluid specific enthalpy 400 kJ/kg (default) | positive scalar

Dependencies

Nominal inlet specific internal energy — Inlet specific internal energy 400 kJ/kg (default) | positive scalar

Dependencies

Opening characteristic — Method to convert control signal to measure of flow capacity Linear (default) | Tabulated

Dependencies

Spool travel vector — Vector of spool opening distances relative to fully closed position [0, .00125, .0025, .00375, .005] m (default) | 1-by-n vector

Dependencies

Orifice area vector — Vector of valve opening areas [1e-10, 1e-05, 4e-05, 6e-05, .0001] m^2 (default) | 1-by-n vector

Dependencies

Maximum Cv flow coefficient — Cv coefficient that corresponds to maximally open component 4 (default) | positive scalar

Dependencies

Cv flow coefficient vector — Cv coefficients for values in member position vector [1e-06, .8, 1.6, 2.4, 3.2, 4] (default) | 1-by-n vector

Dependencies

Maximum Kv flow coefficient — Kv coefficient that corresponds to maximally open component 3.6 (default) | positive scalar

Dependencies

Kv flow coefficient vector — Kv coefficients for values in member position vector [1e-06, .72, 1.44, 2.16, 2.88, 3.6] (default) | 1-by-n vector

Dependencies

xT pressure differential ratio factor at choked flow — Ratio of pressure differentials 0.7 (default) | positive scalar

Dependencies

Discharge coefficient — Discharge coefficient 0.64 (default) | positive scalar

Dependencies

Leakage flow fraction — Ratio of flow rates 1e-6 (default) | positive scalar

Dependencies

Smoothing factor — Numerical smoothing factor 0.01 (default) | positive scalar in the range of [0,1]

Dependencies

Pressure recovery — Whether to account for pressure increase in area expansions off (default) | on

Dependencies

Laminar flow pressure ratio — Laminar-turbulent transition pressure ratio 0.999 (default) | positive scalar

Inlet phase change time constant — Time lag for mixture specific volume 0.1 s (default) | positive scalar

Dependencies

Cross-sectional area at ports P, T, A and B — Area at conserving ports 0.01 m^2 (default) | positive scalar

P-A Orifice

Spool position at maximum P-A orifice area — Spool offset for fully open P-A orifice 5e-3 m (default) | positive scalar

Dependencies

P-A spool travel between closed and open orifice — Maximum spool stroke 0.005 m (default) | positive scalar

Dependencies

P-A nominal mass flow rate at maximum orifice opening — Rated mass flow rate 0.1 kg/s (default) | positive scalar

Dependencies

A — Entry or exit port
two-phase fluid

B — Entry or exit port
two-phase fluid

P — Entry or exit port
two-phase fluid

T — Entry or exit port
two-phase fluid

S — Spool displacement, m
physical signal

Modeling option — Modeling option for fluid phase
`Liquid operating condition` (default) | `Vapor operating condition`

Positive spool position open connections — Flow paths open when the spool is in positive position
`P-A, B-T` (default) | `P-A, P-B` | `P-B, A-T` | `P-A` | `P-B` | `P-A, P-B, A-B`

Negative spool position open connections — Flow paths open when spool moves in negative direction
`P-A, B-T` (default) | `P-A, P-B` | `P-B, A-T` | `P-A` | `P-B` | `P-A, P-B, A-B`

Consistency check for neutral spool position open connections — Whether to check if orifice settings are consistent
`Warning` (default) | `Error` | `None`

Area characteristics — Flow equations for orifices
`Identical for all flow paths` (default) | `Different for each flow path`

Orifice parameterization — Variable or constant orifice parameterization
`Linear - Area vs. spool travel` (default) | `Linear - Nominal mass flow rate vs. spool travel` | `Tabulated data - Area vs. spool travel` | `Cv flow coefficient` | `Kv flow coefficient` | `Orifice area`

Spool travel between closed and open orifice — Maximum spool stroke
`0.005 m` (default) | positive scalar

Maximum orifice area — Maximum orifice opening area
`1e-4 m^2` (default) | positive scalar

Nominal mass flow rate at maximum orifice opening — Rated mass flow rate
`0.1` kg/s (default) | positive scalar

Nominal pressure drop at maximum orifice opening — Rated pressure drop
`0.001` MPa (default) | positive scalar

Nominal inlet condition specification — Method of determining inlet fluid state
`Temperature` (default) | `Vapor quality` | `Vapor void fraction` | `Specific enthalpy` | `Specific internal energy`

Nominal inlet pressure — Inlet fluid pressure
`0.101325` MPa (default) | positive scalar

Nominal inlet temperature — Fluid temperature
`293.15` K (default) | positive scalar

Nominal inlet vapor quality — Inlet vapor quality mass fraction
`0` (default) | positive scalar in the range [0,1]

Nominal inlet vapor void fraction — Inlet volume fraction
`0` (default) | positive scalar in the range [0,1]

Nominal inlet specific enthalpy — Inlet fluid specific enthalpy
`400` kJ/kg (default) | positive scalar

Nominal inlet specific internal energy — Inlet specific internal energy
`400` kJ/kg (default) | positive scalar

Opening characteristic — Method to convert control signal to measure of flow capacity
`Linear` (default) | `Tabulated`

Spool travel vector — Vector of spool opening distances relative to fully closed position
`[0, .00125, .0025, .00375, .005] m` (default) | 1-by-n vector

Orifice area vector — Vector of valve opening areas
`[1e-10, 1e-05, 4e-05, 6e-05, .0001] m^2` (default) | 1-by-n vector

Maximum Cv flow coefficient — C_v coefficient that corresponds to maximally open component
`4` (default) | positive scalar

Cv flow coefficient vector — C_v coefficients for values in member position vector
`[1e-06, .8, 1.6, 2.4, 3.2, 4]` (default) | 1-by-n vector

Maximum Kv flow coefficient — K_v coefficient that corresponds to maximally open component
`3.6` (default) | positive scalar

Kv flow coefficient vector — K_v coefficients for values in member position vector
`[1e-06, .72, 1.44, 2.16, 2.88, 3.6]` (default) | 1-by-n vector

xT pressure differential ratio factor at choked flow — Ratio of pressure differentials
`0.7` (default) | positive scalar

Discharge coefficient — Discharge coefficient
`0.64` (default) | positive scalar

Leakage flow fraction — Ratio of flow rates
`1e-6` (default) | positive scalar

Smoothing factor — Numerical smoothing factor
`0.01` (default) | positive scalar in the range of [0,1]

Pressure recovery — Whether to account for pressure increase in area expansions
`off` (default) | `on`

Laminar flow pressure ratio — Laminar-turbulent transition pressure ratio
`0.999` (default) | positive scalar

Inlet phase change time constant — Time lag for mixture specific volume
`0.1` `s` (default) | positive scalar

Cross-sectional area at ports P, T, A and B — Area at conserving ports
`0.01 m^2` (default) | positive scalar

Spool position at maximum P-A orifice area — Spool offset for fully open P-A orifice
`5e-3 m` (default) | positive scalar

P-A spool travel between closed and open orifice — Maximum spool stroke
`0.005 m` (default) | positive scalar

P-A nominal mass flow rate at maximum orifice opening — Rated mass flow rate
`0.1` `kg/s` (default) | positive scalar

P-A nominal pressure drop at maximum orifice opening — Rated pressure drop
`0.001` `MPa` (default) | positive scalar

P-A nominal inlet condition specification — Method of determining inlet fluid state
`Temperature` (default) | `Vapor quality` | `Vapor void fraction` | `Specific enthalpy` | `Specific internal energy`

P-A nominal inlet pressure — Inlet fluid pressure
`0.101325` `MPa` (default) | positive scalar

P-A nominal inlet temperature — Fluid temperature
`293.15` `K` (default) | positive scalar

P-A nominal inlet vapor quality — Inlet vapor quality mass fraction
`0` (default) | positive scalar in the range [0,1]

P-A nominal inlet vapor void fraction — Inlet vapor void fraction
`0` (default) | positive scalar in the range [0,1]

P-A nominal inlet specific enthalpy — Inlet fluid specific enthalpy
`400` `kJ/kg` (default) | positive scalar

P-A nominal inlet specific internal energy — Inlet specific internal energy
`400` `kJ/kg` (default) | positive scalar

P-A constant orifice nominal mass flow rate — Nominal mass flow rate
`0.1` `kg/s` (default) | positive scalar

P-A constant orifice nominal pressure drop — Nominal pressure drop
`0.001` `MPa` (default) | positive scalar

P-A constant orifice Cv flow coefficient — Flow coefficient
`4` (default) | positive scalar

P-A orifice maximum Cv flow coefficient — C_v coefficient that corresponds to maximally open component
`4` (default) | positive scalar

P-A orifice Cv flow coefficient vector — C_v coefficients for values in member position vector
`[1e-06, .8, 1.6, 2.4, 3.2, 4]` (default) | 1-by-n vector

P-A constant orifice Kv flow coefficient — Flow coefficient
`3.6` (default) | positive scalar

P-A orifice maximum Kv flow coefficient — K_v coefficient that corresponds to maximally open component
`3.6` (default) | positive scalar

P-A orifice Kv flow coefficient vector — K_v coefficients for values in member position vector
`[1e-06, .72, 1.44, 2.16, 2.88, 3.6]` (default) | 1-by-n vector

P-A orifice spool travel vector — Vector of spool opening distances relative to fully closed position
`[0, .00125, .0025, .00375, .005] m` (default) | 1-by-n vector

P-A maximum orifice area — Maximum orifice opening area
`1e-4 m^2` (default) | positive scalar

P-A orifice area vector — Vector of valve opening areas
`[1e-10, 1e-05, 4e-05, 6e-05, .0001] m^2` (default) | 1-by-n vector

P-A constant orifice area — Cross-sectional area for constant orifice
`1e-4 m^2` (default) | positive scalar

P-A orifice xT pressure differential ratio factor at choked flow — Ratio of pressure differentials
`0.7` (default) | positive scalar

Spool position at maximum P-B orifice area — Spool offset for fully open P-B orifice
`5e-3 m` (default) | positive scalar

P-B spool travel between closed and open orifice — Maximum spool stroke
`0.005 m` (default) | positive scalar

P-B nominal mass flow rate at maximum orifice opening — Rated mass flow rate
`0.1` `kg/s` (default) | positive scalar

P-B nominal pressure drop at maximum orifice opening — Rated pressure drop
`0.001` `MPa` (default) | positive scalar

P-B nominal inlet condition specification — Method of determining inlet fluid state
`Temperature` (default) | `Vapor quality` | `Vapor void fraction` | `Specific enthalpy` | `Specific internal energy`

P-B nominal inlet pressure — Inlet fluid pressure
`0.101325` `MPa` (default) | positive scalar

P-B nominal inlet temperature — Fluid temperature
`293.15` `K` (default) | positive scalar

P-B nominal inlet vapor quality — Inlet vapor quality mass fraction
`0` (default) | positive scalar in the range [0,1]

P-B nominal inlet vapor void fraction — Inlet vapor void fraction
`0` (default) | positive scalar in the range [0,1]

P-B nominal inlet specific enthalpy — Inlet fluid specific enthalpy
`400` `kJ/kg` (default) | positive scalar

P-B nominal inlet specific internal energy — Inlet specific internal energy
`400` `kJ/kg` (default) | positive scalar

P-B constant orifice nominal mass flow rate — Nominal mass flow rate
`0.1` `kg/s` (default) | positive scalar

P-B constant orifice nominal pressure drop — Nominal pressure drop
`0.001` `MPa` (default) | positive scalar