Sound power radiated from an inverter-driven induction motor. Part 3: statistical energy analysis

C. Wang; J.C.S. Lai

Sound power radiated from an inverter-driven induction motor. Part 3: statistical energy analysis

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Sound power radiated from an inverter-driven induction motor. Part 3: statistical energy analysis

Author(s): C. Wang and J.C.S. Lai
DOI: 10.1049/ip-epa:20045087

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Author(s): C. Wang ¹ and J.C.S. Lai ¹
- Affiliations: 1: Acoustics and Vibration Unit, University College, University of New South Wales, Australian Defence Force Academy, Canberra, Australia
Source: Volume 152, Issue 3, May 2005, p. 619 – 626
DOI: 10.1049/ip-epa:20045087 , Print ISSN 1350-2352, Online ISSN 1359-7043

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The traditional approach for the prediction of noise radiated from induction motors is usually based on the finite-element and/or boundary-element methods. While these methods have been shown to provide reasonable estimates of the radiated noise at low frequencies (usually well below 2 kHz) and for small motors, the demands on computing memory and time render calculations at high frequencies and for large motors impractical to make as part of the design process. The statistical energy analysis technique, which is especially suited for calculations at high frequencies, has been applied to predict the acoustic noise of electromagnetic origin. Results demonstrate the feasibility of the method and its ability to discern the contribution of various components of a motor to the overall radiated noise.

References

1. 1)
  - Z.Q. Zhu , D. Howe . Finite element analysis of acoustic power radiated by electrical machines. Proc. Inst. Acoust. , 6 , 29 - 36
2. 2)
  - Astfalck, A., Pulle, D.W.J., Lai, J.C.S.: `Prediction of transient stator force distribution of invertor driven induction motors', Proc. AUPEC/EECON., 1997, The University of New South Wales, Vol. 1, p. 1–6.
3. 3)
  - A. Silbiger . Radiation from circular pistons of elliptical profile. J. Acoust. Soc. Amer. , 11 , 1515 - 1522
4. 4)
  - R.H. Lyon . (1975) Statistical energy analysis of dynamical systems: theory and applications.
5. 5)
  - C. Wang , J.C.S. Lai , A. Astfalck . Sound power radiated from an inverter driven induction motor II: numerical analysis. IEE Proc. Elect. Power Appl. , 3 , 341 - 348
6. 6)
  - C. Wang , J.C.S. Lai . Prediction of natural frequencies of finite length circular cylindrical shells. Appl. Acoust. , 4 , 385 - 400
7. 7)
  - J. Dai , J.C.S. Lai . Surface mobility over a square contact area of an infinite plate: experimental measurements and numerical prediction. Appl. Acoust. , 1 , 81 - 93
8. 8)
  - L. Cremer , M. Heckl , E.E. Ungar . (1988) Structure-borne sound.
9. 9)
  - G.A. Covic , J.T. Boys . Noise quieting with random PWM AC drives. IEE Proc. Electr. Power Appl. , 1 , 385 - 400
10. 10)
  - S.J. Yang . (1981) Low-noise electrical motors.
11. 11)
  - Delaere, K., Iadevaia, M., Heylen, W., Sas, P., Hameyer, K., Belmans, R.: `Statistical energy analysis of acoustic noise and vibration for electric motors: transmission from air gap field to motor frame', Proc 34th IAS Annual Meeting, 1999, 3, p. 1897–1902.
12. 12)
  - Y.K. Tso , C.H. Hansen . The prediction of structure-borne noise transmission in ships using statistical energy analysis. Acoust. Aust. , 3 , 97 - 102
13. 13)
  - I.L. Ver , C.I. Holmer , L.L. Beranek . (1971) , Noise and vibration control.
14. 14)
  - V.R. Miller , L.L. Faulkner . Predication of aircraft interior noise using the statistical energy analysis method. Trans. ASME J. Vib. Acoust. Stress Reliab. Des. , 512 - 518
15. 15)
  - Lalor, N.: The measurement of SEA loss factors on a fully assembled strucutre. ISVR technical memorandum, no. 150, University of Southampton, UK, 1987.
16. 16)
  - C. Wang , J.C.S. Lai . The sound radiation efficiency of finite length circular cylindrical shells under mechanical excitation I: theoretical analysis. J. Sound Vib. , 2 , 431 - 447
17. 17)
  - D.H. Cho , K.J. Kim . Modelling of electromagnetic excitation forces of small induction motors for vibration and noise analysis. IEE Proc. Electr. Power Appl. , 3 , 199 - 205
18. 18)
  - C. Wang , A. Astfalck , J.C.S. Lai . Sound power radiated from an inverter driven induction motor: experimental investigation. IEE Proc., Elect. Power Appl. , 1 , 48 - 56
19. 19)
  - C. Wang , J.C.S. Lai . Vibration analysis of an induction motor. J. Sound Vib. , 4 , 733 - 756

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Sound power radiated from an inverter-driven induction motor. Part 3: statistical energy analysis

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