Course detail
Vibrations and Noise
FSI-9VAH Acad. year: 2024/2025 Both semester
Vibrations and noise are a general accompaniment to all machinery operations. The whole chain encompassing the vibration sources, transfer paths of the structure, noise emitters on the machine surface and ambient acoustic environment needs to be analyzed. We need to mainly focus on active methods of reducing vibrations and noise.
Basic areas of examination:
Spectra of vibro-acoustic quantities, experimental analysis,
biomechanics of the human voice and hearing, acoustic properties of closed areas.
Identification of sources of vibrations and noise, aerodynamic sources of noise.
Passive methods of noise reduction.
Active methods of noise reduction – vibroacoustic systems of machines, deterministic models (modelled by means of FEM ) for low-frequency noise), statistic models (solutions of high-frequency noise).
Language of instruction
Czech
Supervisor
Entry knowledge
Fundamentals of acoustics:
acoustic wave, acoustic quantities (pressure, intensity, power), acoustic signal spectra, experimental analysis of the acoustic quantities, acoustic fields, spectral and modal properties of acoustic cavities.
Mathematics:
matrix algebra, linear algebra, differential equations, basics of finite element method.
Rules for evaluation and completion of the course
The exam is written and oral.
Classification is made on the regulations to be used on VUT FSI.
Active participation in the course is controled individually according to the progression of work on the project.
Aims
The target of the subject is theoretical and practical analyses of machine-tools noise, computer modelling their systems for reason to reduce the vibrations and acoustic energy radiation. An identification with the modern methods for analysis and solution of vibration and noise reduction when using the special programme systems for their solution.
To carry out the machine noise, sourer vibrations and noise identification, the modelling of dynamic phenomenon in the working processes, to realize the active and passive methods of vibrations and noise. By means of the machine noise analysis then to suggest the corresponding constructional and next arrangements, so that the dynamic machine properties would be influenced in desired direction.
The study programmes with the given course
Programme D-ENE-P: Power Engineering, Doctoral, recommended course
Programme D-IME-P: Applied Mechanics, Doctoral, recommended course
Programme D-IME-K: Applied Mechanics, Doctoral, recommended course
Programme D-ENE-K: Power Engineering, Doctoral, recommended course
Type of course unit
Lecture
20 hours, optionally
Syllabus
1. Acoustic variables, linear and decibel representation
2. Spectra of acoustic variables : band pass, tracking,
multispectra
3.Acoustic properties of a closed areas
4.-5. Biomechanics of a human voice and hearing
6.Experimental identification of machine acoustic power
7.Aerodynamic noise sources, principles and examples
8.Passive methods of vibration and noise reduction
9.Principle of reactive dampers of pipe systems
10-11.Deterministic models of vibroacoustic machine systems:
– the coupling structure of vibroacoustic machine systems
– the methods of solution (FEM and BEM)
12-13. Statistical models of vibroacoustic systems (method SEA