Pneumatic domain properties for attached circuit
The Gas Properties block defines pneumatic domain properties for a circuit, that is, the gas properties that act as global parameters for all the blocks connected to the pneumatic circuit. These gas properties are assumed to be constant during simulation time.
The Gas Properties block lets you specify the gas properties, such as specific heat at constant pressure and constant volume, as well as viscosity, as block parameters. It also lets you specify ambient pressure and ambient temperature.
The Gas Properties block has one port. You can connect it to a pneumatic diagram by branching a connection line off the main line and connecting it to the port. When you connect the Gas Properties block to a pneumatic line, the software automatically identifies the pneumatic blocks connected to the particular circuit and propagates the gas properties to all the pneumatic blocks in the circuit.
Each topologically distinct pneumatic circuit in a diagram requires exactly one Gas Properties block to be connected to it. Therefore, there must be as many Gas Properties blocks as there are pneumatic circuits in the system. If no Gas Properties block is attached to a circuit, the pneumatic blocks in this circuit use the gas properties corresponding to the default Gas Properties block parameter values.
Specify the gas specific heat at constant pressure. The default value is 1.005e3 J/kg/K.
Specify the gas specific heat at constant volume. The default value is 717.95 J/kg/K.
Specify the gas dynamic viscosity. The default value is 1.821e-5 s*Pa.
Specify the gas ambient pressure. The default value is 101325 Pa.
Specify the gas ambient temperature. The default value is 293.15 K.
Determines how the block handles the out-of-range assertion during simulation:
Error — If the pressure or temperature falls below absolute zero, the simulation stops and you get an error message. This is the default.
Warning — If the pressure or temperature falls below absolute zero, you get a warning but the simulation continues.