AWAVE, Wavenum, Wavetype, Opt1, Opt2, VAL1, VAL2, VAL3, VAL4, VAL5, VAL6, VAL7, VAL8, VAL9, VAL10, VAL11, VAL12, VAL13
Specifies input data for an acoustic incident wave.
WavenumWave number. You specify the integer number for an acoustic incident wave inside or outside the model. The number must be between 1 and 20.
WavetypeWave type:
PLAN | — | Planar incident wave |
MONO | — | Monopole or pulsating sphere incident wave |
DIPO | — | Dipole incident wave |
BACK | — | Back enclosed loudspeaker |
BARE | — | Bare loudspeaker |
STATUS | — | Displays the status of the acoustic
wave settings if |
DELE | — | Deletes the acoustic wave settings
if |
Opt1PRES | — | Pressure |
VELO | — | Velocity |
Opt2EXT | — | Incident wave outside the model. |
INT | — | Incident wave inside the model. This option is only available for pure scattered pressure formulation. |
For Wavetype = PLAN, only Opt2 = EXT is available.
VAL1, VAL2, VAL3, . . . , VAL13If Wavetype = PLAN, MONO,
DIPO, BACK, or BARE:
| — | Amplitude of pressure or normal velocity to the sphere surface. |
| — | Phase angle of the applied pressure or velocity (in degrees). Defaults to 0 degrees. |
If Wavetype = PLAN:
| — | Incident ϕ angle from x axis toward y axis. |
| — | Incident θ angle from z axis toward y axis. |
| — | Not used. |
If Wavetype = MONO, DIPO, BACK, or
BARE:
| — | Global Cartesian coordinate values of source position. |
If Wavetype = PLAN, MONO,
DIPO, BACK, or BARE:
| — | Mass density of base medium (defaults to 1.2041 kg/m3). |
| — | Speed of sound in base medium (defaults to 343.24 m/s). |
| — | Radius
of pulsating sphere (not used for |
| — | Dipole
length (only available for |
| — | Unit vector of dipole axis from the positive to the negative. Only
available for |
| — | Port number if the incident power is required on the port |
Use the ASOL command to activate the scattered field algorithm and the ASCRES command for output control with the scattered field algorithm. Refer to Acoustics in the Mechanical APDL Theory Reference for more information about pure scattered field formulation.