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Advanced Computational Vibroacoustics: Reduced-Order Models and Uncertainty Quantification

Advanced Computational Vibroacoustics: Reduced-Order Models and Uncertainty Quantification

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Roger Ohayon, Christian Soize
Cambridge University Press, 8/11/2014
EAN 9781107071711, ISBN10: 1107071712

Hardcover, 136 pages, 23.4 x 15.6 x 1.6 cm
Language: English

Advanced Computational Vibroacoustics presents an advanced computational method for the prediction of sound and structural vibrations, in low- and medium-frequency ranges - complex structural acoustics and fluid-structure interaction systems encountered in aerospace, automotive, railway, naval, and energy-production industries. The formulations are presented within a unified computational strategy and are adapted for the present and future generation of massively parallel computers. A reduced-order computational model is constructed using the finite element method for the damped structure and the dissipative internal acoustic fluid (gas or liquid with or without free surface) and using an appropriate symmetric boundary-element method for the external acoustic fluid (gas or liquid). This book allows direct access to computational methods that have been adapted for the future evolution of general commercial software. Written for the global market, it is an invaluable resource for academic researchers, graduate students, and practising engineers.

1. Principal objectives and a strategy for modeling vibroacoustic systems
2. Definition of the vibroacoustic system
3. External inviscid acoustic fluid equations
4. Internal dissipative acoustic fluid equations
5. Structure equations
6. Vibroacoustic boundary-value problem
7. Computational vibroacoustic model
8. Reduced-order computational model
9. Uncertainty quantification in computational vibroacoustics
10. Symmetric BEM without spurious frequencies for the external acoustic fluid.