Infrasound and low frequency noise from wind turbines: exposure and health effects

Wind turbines emit low frequency noise (LFN) and large turbines generally generate more LFN than small turbines. The dominant source of LFN is the interaction between incoming turbulence and the blades. Measurements suggest that indoor levels of LFN in dwellings typically are within recommended guideline values, provided that the outdoor level does not exceed corresponding guidelines for facade exposure. Three cross-sectional questionnaire studies show that annoyance from wind turbine noise is related to the immission level, but several explanations other than low frequency noise are probable. A statistically significant association between noise levels and self-reported sleep disturbance was found in two of the three studies. It has been suggested that LFN from wind turbines causes other, and more serious, health problems, but empirical support for these claims is lacking.

[1]  H. Vos Trade and Industry , 1946 .

[2]  J. G. Walker,et al.  The identification and subjective effect of amplitude modulation in diesel engine exhaust noise , 1988 .

[3]  Henrik Møller,et al.  Low Frequency Hearing Thresholds in Pressure Field and in Free Field , 1990 .

[4]  R F Job,et al.  Sources and effects of low-frequency noise. , 1996, The Journal of the Acoustical Society of America.

[5]  Ulf Landström,et al.  Low Frequency Noise and Annoyance in Classroom , 2000 .

[6]  William M. Hartmann,et al.  Psychoacoustics: Facts and Models , 2001 .

[7]  H. Miedema,et al.  Annoyance from transportation noise: relationships with exposure metrics DNL and DENL and their confidence intervals. , 2001, Environmental health perspectives.

[8]  W. Babisch The Noise/Stress Concept, Risk Assessment and Research Needs. , 2002, Noise & health.

[9]  G. P. van den Berg,et al.  Effects of the wind profile at night on wind turbine sound , 2004 .

[10]  H. Møller,et al.  Hearing at low and infrasonic frequencies. , 2004, Noise & health.

[11]  E. Pedersen,et al.  Perception and annoyance due to wind turbine noise--a dose-response relationship. , 2004, The Journal of the Acoustical Society of America.

[12]  H. G. Leventhall,et al.  Low frequency noise and annoyance. , 2004, Noise & health.

[13]  K. P. Waye,et al.  Evaluations of effects due to low frequency noise in a low demanding work situation , 2004 .

[14]  G. P. van den Berg,et al.  The beat is getting stronger: The effect of atmospheric stability on low frequency modulated sound of wind turbines , 2005 .

[15]  Wolfgang Babisch,et al.  Traffic Noise and Risk of Myocardial Infarction , 2005, Epidemiology.

[16]  Guofu Niu,et al.  Low-Frequency Noise , 2005 .

[17]  Jørgen Jakobsen,et al.  Infrasound Emission from Wind Turbines , 2005 .

[18]  Geoff Leventhall,et al.  INFRASOUND FROM WIND TURBINES - FACT, FICTION OR DECEPTION , 2006 .

[19]  Mariana Alves-Pereira,et al.  Vibroacoustic disease: biological effects of infrasound and low-frequency noise explained by mechanotransduction cellular signalling. , 2007, Progress in biophysics and molecular biology.

[20]  Eja Pedersen,et al.  Living in the Vicinity of Wind Turbines — A Grounded Theory Study , 2007 .

[21]  Pieter Sijtsma,et al.  Nationaal Lucht-en Ruimtevaartlaboratorium National Aerospace Laboratory NLR NLR-TP-2007-798 Location and quantification of noise sources on a wind turbine , 2008 .

[22]  K. Persson Waye,et al.  Wind turbine noise, annoyance and self-reported health and well-being in different living environments , 2007, Occupational and Environmental Medicine.

[23]  Geoff Leventhall,et al.  What is infrasound? , 2007, Progress in biophysics and molecular biology.

[24]  K. Watanabe,et al.  Measurement of infrasound generated by wind turbine generator , 2008, 2008 SICE Annual Conference.

[25]  Cheolung Cheong,et al.  Experimental Identification of Acoustic Emission Characteristics of Large Wind Turbines with Emphasis on Infrasound and Low-Frequency Noise , 2008 .

[26]  Wolfgang Babisch,et al.  Road traffic noise and cardiovascular risk. , 2008, Noise & health.

[27]  Mats E. Nilsson,et al.  Long-Term Exposure to Road Traffic Noise and Myocardial Infarction , 2009, Epidemiology.

[28]  Irene van Kamp,et al.  Exposure-response relationship of the association between aircraft noise and the risk of hypertension. , 2009, Noise & health.

[29]  Eja Pedersen,et al.  Response to noise from modern wind farms in The Netherlands. , 2009, The Journal of the Acoustical Society of America.

[30]  Nina Pierpont,et al.  Wind Turbine Syndrome: A Report on a Natural Experiment , 2009 .

[31]  Mariana Alves-Pereira,et al.  Vibroacoustic disease: the need for a new attitude towards noise , 2009 .

[32]  Eja Pedersen,et al.  Exposure-response relationships for annoyance by wind turbine noise: A comparison with other stationary sources , 2009 .

[33]  Helge Aagaard Madsen,et al.  Low Frequency Noise from Wind Turbines Mechanisms of Generation and its Modelling , 2010 .

[34]  T. Hullar,et al.  Responses of the ear to low frequency sounds, infrasound and wind turbines , 2010, Hearing Research.

[35]  Martin Röösli,et al.  Aircraft Noise, Air Pollution, and Mortality From Myocardial Infarction , 2010, Epidemiology.

[36]  Eja Pedersena,et al.  Health aspects associated with wind turbine noise—Results from three field studies , 2011 .

[37]  H. Møller,et al.  Low-frequency noise from large wind turbines. , 2011, The Journal of the Acoustical Society of America.

[38]  Woo Young Choi,et al.  Annoyance caused by amplitude modulation of wind turbine noise , 2011 .

[39]  Robert D'Neal,et al.  Low frequency noise and infrasound from wind turbines , 2011 .

[40]  C. Hanning,et al.  Wind turbine noise , 2012, BMJ : British Medical Journal.

[41]  J. Parmanen Some Reasons to Revise the International Standard ISO 226:2003: Acoustics—Normal Equal-Loudness-Level Contours , 2012 .