Product category:
Fluid, thermal, noise and vibration analysis software
News Release from: LMS International | Subject: LMS Sysnoise
Edited by the Engineeringtalk Editorial
Team on 26 June 2003
Simulation software predicts turbulence
noise
LMS Sysnoise can be used to simulate flow-induced noise and aero-acoustic phenomena long before the physical prototype stage.
LMS Sysnoise can be used to simulate flow-induced noise and aero-acoustic phenomena long before the physical prototype stage LMS Sysnoise uses the results of a computational fluid dynamics (CFD) model to create aero-acoustic sources and predicts the radiation and scattering of sound waves induced by fluids
This article was originally published on Engineeringtalk on 19 Mar 2001 at 8.00am (UK)
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Improvements to the art of noise (and vibration)
LMS International has upgraded its Test.Lab integrated software suite for noise and vibration testing and engineering.
Typical applications include wind noise from vehicle side mirrors, and sunroofs, turbulence noise on a high-speed train or an aircraft landing gear, and fan noise in ventilation systems, HVAC, home and office equipment.
The new module in LMS Sysnoise Rev 5.6 calculates flow-induced noise, using the results of computational fluid dynamics (CFD) through a direct coupling with industry-standard codes such as CFX, Fluent and Star-CD.
The simulation process starts with solving the flow equations using CFD models.
Next, the CFD data are passed to Sysnoise and post-processed to define sets of equivalent sources characterizing the aero-acoustics noise.
Finally, Sysnoise computes the radiated and/or scattered noise using its regular BEM (boundary element method) or FEM (finite element method) acoustic solvers, giving results at the surfaces and at any point in the field.
The powerful post-processing capabilities of LMS Sysnoise further deliver the necessary insights in the acoustic behaviour of the design.
LMS Sysnoise not only features a very efficient data transfer from the CFD database but also handles incompatibilities between the CFD and acoustic meshes.
It automatically performs the fast Fourier transform on the CFD time data, maps the CFD data from the CFD mesh on the acoustic mesh, and finally generates the required aero-acoustic sources.
These can be dipole-like, quadrupole-like or "rotating" dipole-like, enabling acoustic engineers to model and predict flow noise from stationary surfaces like mirrors, turbulence induced noise, as well as noise from rotating surfaces such as HVAC blowers and computer fans.
Application areas for aero-acoustic prediction include the automotive, aviation, space and naval industries; domestic appliances, white goods, consumer electronics and loudspeakers; construction, civil engineering and energy. Request a free brochure from LMS International ...
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