Abstract
The number of onshore wind turbines in Europe has greatly increased over recent years, a trend which can be expected to continue. However, the effects of wind turbine noise on long-term health outcomes for residents living near wind farms is largely unknown, although sleep disturbance may be a cause for particular concern. Presented here are two pilot studies with the aim of examining the acoustical properties of wind turbine noise that might be of special relevance regarding effects on sleep. In both pilots, six participants spent five consecutive nights in a sound environment laboratory. During three of the nights, participants were exposed to wind turbine noise with variations in sound pressure level, amplitude modulation strength and frequency, spectral content, turbine rotational frequency and beating behaviour. The impact of noise on sleep was measured using polysomnography and questionnaires. During nights with wind turbine noise there was more frequent awakening, less deep sleep, less continuous N2 sleep and increased subjective disturbance compared to control nights. The findings indicated that amplitude modulation strength, spectral frequency and the presence of strong beats might be of particular importance for adverse sleep effects. The findings will be used in the development of experimental exposures for use in future, larger studies.
Highlights
Wind is a renewable, sustainable source of power
The present paper presents two pilot studies investigating the effect of wind turbine noise on physiologically measured sleep, conducted with the intention to guide the design and implementation of a larger-scale main study
The ratio of events per hour of total sleep time (TST) was analysed for cortical reactions: Mean values of each PSG variable in each study night are given in Suppl
Summary
Sustainable source of power. Gross electricity consumption from wind energy in the European Union (EU) member states increased more than threefold between 2004 and2014, a trend which can be expected to continue in order to fulfil EU climate goals for 2020 [1]. Gross electricity consumption from wind energy in the European Union (EU) member states increased more than threefold between 2004 and. 2014, a trend which can be expected to continue in order to fulfil EU climate goals for 2020 [1]. With the increase in wind power, more people will live near wind turbines and are at risk of exposure to wind turbine noise (WTN). According to the World Health Organization (WHO), an estimated 1.0–1.6 million healthy life years are lost each year due to environmental noise in Western Europe alone [2]. Res. Public Health 2018, 15, 2573; doi:10.3390/ijerph15112573 www.mdpi.com/journal/ijerph
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