A general low frequency acoustic radiation capability for NASTRAN
Abstract
A new capability called NASHUA is described for calculating the radiated acoustic sound pressure field exterior to a harmonically-excited arbitrary submerged 3-D elastic structure. The surface fluid pressures and velocities are first calculated by coupling a NASTRAN finite element model of the structure with a discretized form of the Helmholtz surface integral equation for the exterior fluid. After the fluid impedance is calculated, most of the required matrix operations are performed using the general matrix manipulation package (DMAP) available in NASTRAN. Far field radiated pressures are then calculated from the surface solution using the Helmholtz exterior integral equation. Other output quantities include the maximum sound pressure levels in each of the three coordinate planes, the rms and average surface pressures and normal velocities, the total radiated power and the radiation efficiency. The overall approach is illustrated and validated using known analytic solutions for submerged spherical shells subjected to both uniform and nonuniform applied loads.
- Publication:
-
In COSMIC 14th NASTRAN (R) Users' Colloquium p 293-310 (SEE N86-25823 16-39
- Pub Date:
- 1986
- Bibcode:
- 1986cona.coll..293E
- Keywords:
-
- Elastic Shells;
- Low Frequencies;
- Nastran;
- Pressure Distribution;
- Sound Pressure;
- Sound Waves;
- Acoustic Impedance;
- Boundary Integral Method;
- Far Fields;
- Finite Element Method;
- Fluid Pressure;
- Helmholtz Vorticity Equation;
- Matrices (Mathematics);
- Spherical Shells;
- Acoustics