Passive-only damage detection by reciprocity of Green’s functions reconstructed from diffuse acoustic fields with application to wind turbine blades

Abstract

The increasing demand for renewable and clean power generation has resulted in the increased size of rotor blades in wind turbine systems. The operational environments have introduced the need for structural health monitoring of the blades to help prevent unexpected failures. A new passive approach is here presented to detect damage in a wind turbine blade using the reciprocity of Green’s function. This is achieved using the derivative of an ensemble average of cross-correlation functions to reconstruct the forward and backward time-domain Green’s functions between any two detection points on the structure within a diffuse acoustic field. Damage is detected when the similarity between the forward and backward signals decreases due to the wave nonlinearities introduced by the discontinuity that break the field reciprocity condition. Proof-of-principle results are presented first for an aluminum plate and then for a 9-m-long composite wind turbine blade containing known, simulated damage.

Keywords

Passive systems diffuse fields reciprocity damage detection Green’s function turbine blades

Get full access to this article

View all access options for this article.

References

Adams

White

Rumsey

. (2010) Structural health monitoring of wind turbines: method and application to a HAWT. Wind Energy 1–21.

Berry

Ashwill

(2007) CX-100 manufacturing final project report. Sandia National Laboratory Report. Report no. SAND2007-6065, November. USA: US Government, Sandia National Laboratory.

Ciang

Lee

Bang

(2008) Structural health monitoring for a wind turbine system: a review of damage detection methods. Measurement Science & Technology 19: 1–20.

Duroux

Sabra

Ayers

. (2010) Using cross-correlations of elastic diffuse fields for attenuation tomography of structural damage. Journal of the Acoustical Society of America 127(6): 3311–3314.

Farinholt

Taylor

Park

. (2012) Full-scale fatigue tests of CX-100 wind turbine blades. Part I—testing. In: Proceedings on SPIE NDE and smart structures, vol. 8343, San Diego, CA, 11 March.

Lobkis

Weaver

(2001) On the emergence of the Green’s function in the correlations of a diffuse field. Journal of the Acoustical Society of America 110(6): 3011–3017.

Manohar

Lanza di Scalea

(2014) Defect detection in wind turbine blades using statistically enhanced Lock-in Thermography. Structural Health Monitoring 12(5–6): 566–574.

Niezrecki

Avitable

Chen

. (2013) Inspection and monitoring of wind turbine blade embedded defects during fatigue testing. In: Proceedings of 9th international workshop on structural health monitoring, Palo Alto, CA, 10–12 September.

Pitchford

Grisso

Inman

(2007) Impedance-based structural health monitoring of wind turbine blades. In: Proceedings of SPIE NDE and smart structures (ed Kundu

), vol. 6532, San Diego, CA, 18 March.

10.

Roux

Kuperman

and NPAL Group (2004) Extracting coherent wave fronts from acoustic ambient noise in the ocean. Journal of the Acoustical Society of America 116(4): 1995–2003.

11.

Roux

Sabra

Kuperman

. (2005) Ambient noise cross correlation in free space: theoretical approach. Journal of the Acoustical Society of America 117(1): 79–84.

12.

Rumsey

Paquette

(2008) Structural health monitoring of wind turbine blades. In: Proceedings of SPIE NDE and smart structures (ed Ecke

Peters

Meyendorf

), vol. 3933, San Diego, CA, 9 March.

13.

Sabra

Gerstoft

Roux

. (2005) Surface wave tomography from microseisms in Southern California. Geophysical Research Letters 32(14): L14311.

14.

Sabra

Srivastava

Lanza di Scalea

. (2008) Structural health monitoring by extraction of coherent guided waves from diffuse fields. Journal of the Acoustical Society of America 123(1): EL8–EL13.

15.

Sohn

Park

Law

. (2007) Damage detection in composite plates by using an enhanced time reversal method. Journal of Aerospace Engineering 20(3): 141–151.

16.

Taylor

Park

Farinholt

. (2013) Fatigue crack detection performance comparison in a composite wind turbine rotor blade. Structural Health Monitoring 12(3): 252–262.

17.

Tippmann

Manohar

Lanza di Scalea

(2012) Wind turbine inspection tests at UCSD. In: Proceedings of SPIE NDE and smart structures, vol. 8345, San Diego, CA, 11 March.

18.

Wagner

Bareiß

Guidati

(1996) Noise mechanisms in wind turbines. In: Wagner

Bareiß

Guidati

(eds) Wind Turbine Noise. Berlin, Heidelberg: Springer, pp. 67–92.

19.

Weaver

Lobkis

(2004) Diffuse fields in open systems and the emergence of the Green’s function (L). Journal of the Acoustical Society of America 116(5): 2731–2734.

20.

Zayas

Roach

Rumsey

. (2007) Low-cost fiber Bragg grating interrogation for in situ assessment of structures. In: Proceedings of SPIE NDE and smart structures (ed Tomizuka

Yun

C-B

Giurgiutiu

), vol. 6529, San Diego, CA, 18 March.