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# Pneumatic Piston Chamber

Translational pneumatic piston chamber based on ideal gas law

## Library

Pneumatic Elements

## Description

The Pneumatic Piston Chamber block models a pneumatic piston chamber based on the ideal gas law and assuming constant specific heats. Use this model as a building block for pneumatic translational actuators. The piston can exert force in one direction only, and the direction is set by the Chamber orientation parameter.

The continuity equation for the network representation of the piston chamber is

where

 G Mass flow rate at input port V0 Initial chamber volume A Piston effective area x Piston displacement p Absolute pressure in the chamber R Specific gas constant T Absolute gas temperature t Time

The energy equation is

where

 q Heat flow due to gas inflow in the chamber (through the pneumatic port) qw Heat flow through the chamber walls (through the thermal port) cv Specific heat at constant volume cp Specific heat at constant pressure

The force equation is

where pa is the atmospheric pressure acting on the outside of the piston.

Port A is the pneumatic conserving port associated with the chamber inlet. Port H is a thermal conserving port through which heat exchange with the environment takes place. Ports C and R are mechanical translational conserving ports associated with the piston case and rod, respectively. The gas flow and the heat flow are considered positive if they flow into the chamber.

## Basic Assumptions and Limitations

• The gas is ideal.

• Specific heats at constant pressure and constant volume, cp and cv, are constant.

## Dialog Box and Parameters

Piston area

Specify the effective piston area. The default value is .002 m^2.

Piston initial extension

Specify the initial offset of the piston from the cylinder cap. The default value is 0.

Specify the volume of gas in the chamber at zero piston position. The default value is 1e-5 m^3.

Initial pressure

Specify the initial pressure in the chamber. This parameter specifies the initial condition for use in computing the initial state at the beginning of a simulation run. For more information, see Initial Conditions Computation. The default value is 101235 Pa.

Initial temperature

Specify the initial temperature of the gas in the chamber. This parameter specifies the initial condition for use in computing the initial state at the beginning of a simulation run. For more information, see Initial Conditions Computation. The default value is 293.15 K.

Chamber orientation

Specify the direction of force generation. The piston generates force in a positive direction if this parameter is set to 1 (the default). If you set this parameter to 2, the piston generates force in a negative direction.

## Ports

The block has the following ports:

A

Pneumatic conserving port associated with the chamber inlet.

H

Thermal conserving port through which heat exchange with the environment takes place.

R

Mechanical translational conserving port associated with the piston (rod).

C

Mechanical translational conserving port associated with the reference (case).