Exposure to High-Frequency Sound and Ultrasound in Public Places: Examples from Zurich, Switzerland

Scholkmann, Felix

doi:10.3390/acoustics1040048

Cited by 6 publications

(2 citation statements)

References 25 publications

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“…Airborne ultrasound can also be produced as a by-product by various sources, such as compressors, pneumatic tools, high-speed machinery, and jet engines (Pawlaczyk and Dudarewicz 2020). There is a wide variety of devices by which the public is exposed to airborne ultrasound (Leighton 2016; Mapp 2018; Fletcher et al 2018a; Scholkmann 2019).…”

Section: Introductionmentioning

confidence: 99%

Validity of the 1984 Interim Guidelines on Airborne Ultrasound and Gaps in the Current Knowledge

2024

Health Physics

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Airborne ultrasound is used for various purposes both in industrial and public settings, as well as being produced as a by-product by a range of sources. The International Radiation Protection Association (IRPA) published interim guidelines on limiting human exposure to airborne ultrasound in 1984, based on the limited scientific evidence that was available at that time. In order to investigate whether research since 1984 requires the development of revised exposure guidelines we considered (a) within the context of ultrasound exposure the relevance to health of the biological endpoints/mechanisms listed in the IRPA guidelines, (b) the validity of the exposure limits, and (c) whether there are biological endpoints/mechanisms not covered in the guidelines. The analysis of the available evidence showed that the biological endpoints that form the basis of the guidelines are relevant to health and the guidelines provide limits of exposure based on the evidence that was available at the time. However, the IRPA limits and their associated dosimetry were based on limited evidence, which may not be considered as scientifically substantiated. Further, there is no substantiated evidence of biological endpoints/mechanisms not covered by the IRPA guidelines. These two observations could mean that IRPA’s limits are too low or too high. Research since the IRPA guidelines has made some improvements in the knowledge base, but there are still significant data gaps that need to be resolved before a formal revision of the guidelines can be made by ICNIRP, including research needs related to health outcomes and improved dosimetry. This statement makes a number of recommendations for future research on airborne ultrasound.

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Section: Introductionmentioning

confidence: 99%

Validity of the 1984 Interim Guidelines on Airborne Ultrasound and Gaps in the Current Knowledge

2024

Health Physics

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“…In addition, we apply this method not only to map noise levels within the audible range of frequencies, but also to present noise maps for frequencies above and below this range. The consideration of frequencies outside the audible range is important due to the growing body of evidence on the impacts they may have on health (Castelo Branco 2001;Leighton 2016;Zhang et al 2016;Fletcher et al 2018;Scholkmann 2019). To consider the neglected issue of port cities, we conducted our study in Southampton which has some of the busiest container ports and passenger terminals in the UK.…”

Section: Introductionmentioning

confidence: 99%

Mobile surveys and machine learning can improve urban noise mapping: Beyond A-weighted measurements of exposure

Alvares-Sanches

Osborne

White

2021

Science of The Total Environment

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A non-destructive technique using digital holographic vibrometry and Lamb waves for quality determination of polymer-metal laminates

Nowak-Grzebyta

Stachowska

Meijer

et al. 2022

Sci Rep

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We used digital holographic vibrometry (DHV) as a non-destructive method to detect debonding areas in laminates made of aluminum and polymer (polylactide, polyvinylidene fluoride or polycarbonate). At low frequencies (up to 30 kHz) $$A_0$$ A 0 Lamb waves were excited and the amplitude and the phase patterns of the vibration of the sample were simultaneously registered for metal and polymer side of the laminate. Based on these patterns debonding areas in laminates were localized. The transmission properties at low frequencies were also studied in terms of: the frequency range for which regular Lamb waves have been observed, Lamb wave amplitudes and Lamb wave propagation velocity depending on the frequency. We have shown that these properties also change when a defect occures in the laminate. Even when we could not localize the defect it was still possible to detect if a sample was damaged based on the behaviour of the Lamb waves.

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Exposure to High-Frequency Sound and Ultrasound in Public Places: Examples from Zurich, Switzerland

Cited by 6 publications

References 25 publications

Validity of the 1984 Interim Guidelines on Airborne Ultrasound and Gaps in the Current Knowledge

Validity of the 1984 Interim Guidelines on Airborne Ultrasound and Gaps in the Current Knowledge

Mobile surveys and machine learning can improve urban noise mapping: Beyond A-weighted measurements of exposure

A non-destructive technique using digital holographic vibrometry and Lamb waves for quality determination of polymer-metal laminates

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