The Thermoviscous Acoustics, Boundary Mode (tabm) interface (
), found under the
Thermoviscous Acoustics branch (
) when adding a physics interface, is used to compute and identify propagating and nonpropagating modes in waveguides and ducts. The interface performs a boundary mode analysis on a given boundary, including the thermal and viscous loss effects that are important in the acoustic boundary layer near walls.
The interface is applied at boundaries which represent the cross section or the inlet of a waveguide or duct of small dimensions. It solves for the acoustic variations of pressure p, velocity
u, and temperature
T, as well as the out-of-plane wave number
kn of the modes. Near walls, viscous losses and thermal conduction become important because boundary layers exists. The thickness of these layers is known as the viscous and thermal penetration depth. For this reason, it is necessary to include thermal conduction effects and viscous losses explicitly in the governing equations. The Thermoviscous Acoustics, Boundary Mode interface is, for example, used when setting up sources in systems with small ducts like hearing aids or mobile devices. It can also be used to identify the propagating wave number and characteristic impedance of a duct cross section and use that information in the homogenized
Narrow Region Acoustics model in
The Pressure Acoustics, Frequency Domain Interface.
When this physics interface is added, these default nodes are also added to the Model Builder —
Thermoviscous Acoustics Model,
Wall, and
Initial Values. Then, from the
Physics toolbar, add other nodes that implement, for example, boundary conditions and sources. You can also right-click
Thermoviscous Acoustics, Boundary Mode to select physics features from the context menu.
The Label is the default physics interface name.
The Name is used primarily as a scope prefix for variables defined by the physics interface. Refer to such physics interface variables in expressions using the pattern
<name>.<variable_name>. In order to distinguish between variables belonging to different physics interfaces, the
name string must be unique. Only letters, numbers, and underscores (_) are permitted in the
Name field. The first character must be a letter.
The default Name (for the first physics interface in the model) is
tabm.
Expand the Equation section to see the equations solved for with the
Equation form specified. The default selection is
Equation form is set to
Study controlled. The available studies are selected under
Show equations assuming.
See the settings for Sound Pressure Level Settings for the Pressure Acoustics, Frequency Domain interface.
From the list, select the element order for the Pressure, the
Velocity field, and the
Temperature variation. The default uses
Linear elements for the pressure and
Quadratic serendipity for the velocity field and the temperature variations.
This physics interface defines these dependent variables (fields), the Pressure p, the
Velocity field u and its components, and the
Temperature variation T. The names can be changed but the names of fields and dependent variables must be unique within a model.