Also, wind energy development is in

Also, wind energy development is inevitably related to certain negative environmental impact, since when operating, WT generate acoustic noise. World Health Organization recommends when estimating WT environmental impact to evaluate the noise impact at low, average and high-frequencies. Low-frequency sounds and infrasound excite individual human body parts and worsen general human well-being. It is known that the noise of 32 dB(A) for some people is a strong irritant for their nervous system, whereas the noise of 40 dB(A) and higher for most people evokes strong discomfort [5], [6] and [7].

Research data of WT acoustic noise reveal that their evoked noise may be distributed into two main sources: mechanic and aerodynamic noise [8] and [9]. Mechanic noise is evoked by moving parts inside the cabin – gearbox, cabin rotation mechanism, etc. Aerodynamic noise originates due to air current changes, occurring due to the flow on the rotor blades [9]. The airflow turbulent pulsations, which are produced by flow behind the blades and changes of the flow in the boundary layer on the surface of the blades etc. produced this noise [6], [8] and [9].

Besides, aerodynamic pulsations are developed due to rotating interaction of blades with construction elements of WT tower. Noise may be broadband and tonal. Besides aerodynamic and mechanical noise, there always exists the environmental background noise, which is conditioned by wind flows of the plants, relief incongruities and other obstacles, transport means, birds, industry objects, etc. [9] and [10]. The background environment noise intensifies during the day, whereas at night, it sometimes diminishes due to lower side effect impact (evoked by transport, factories, fauna, etc.) [6], [10], [11] and [12]. The measured data show the wide range in sound levels at the residence. The WT produce more sound at higher wind speeds, and it was thought that the higher wind speeds would provide more background sound, which in turn would mask the increasing wind turbine noise level [11].

Performed research of Enercon E 82, Enercon E 70, Nordex N 90 and other WT׳s [13] and [14], when wind velocity changes from 4 m/s to 10 m/s, indicates that intensity of WT noise depends on the absorption of atmosphere and earth surface sound pressure pulsations, reflection, topographic earth surface effect, metrological conditions and many other agents and factors. It was determined that high-capacity (1 MW and more) WT generate much higher noise than those of low-capacity (250 kW and less). With the increase in distance from WT, the intensity of noise diminishes [13], [14] and [15]. Noise is better absorbed by light earth surface than the solid one. Moreover, the surface absorption very much depends on the noise frequency [16]. In noise frequency range from 100 Hz to 1000 Hz, the biggest noise absorption [15] and [17] is observed. Suppression of noise is performed by reducing the noise level in its origin source, also by building architectural structural means, planting various sprouts. In order to avoid hazardous environmental impact, it is expedient to precisely understand physical origin of its acoustic noise, to investigate dispersion patterns and apply noise reduction means.

Research of WT spread noise suppression processes and regularity patterns of variation of statistical parameters of the environment background noise are provided in the article. The methodology is developed, and mathematical noise propagation model is submitted, which enables to forecast the level of WT acoustic pollution in residential places or other chosen places.