https://doi.org/10.22190/FUWLEP240819035M

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Industrial plants can noticeably affect environmental noise pollution. In addition to the noise generated by industrial processes, vehicles used for transporting raw materials and finished products represent a significant noise source. As production capacity increases, particularly in the case of modern factories that evolved from traditional family manufactories, the problem becomes more pronounced within the existing infrastructure. This paper specifically analyzes environmental noise in the immediate vicinity of a brewery, located in the central part of one city in Serbia. Through analysis of noise monitoring results, certain machines and processes within the brewery that significantly impact environmental noise indicator values were identified. Accordingly, recommendations were provided for implementing appropriate measures within the brewery aimed at enhancing acoustic comfort in the surrounding environment near the brewery. Environmental noise measurements were repeated after the acoustic treatment of the dominant noise source in the brewery, after which the effect of the measures taken in terms of reducing the noise levels in the immediate vicinity of the source was examined.

industrial noise, environmental noise monitoring, environmental noise indicators, environmental noise limit values

Peeters, I. B., & Nusselder, R. (2019). Overview of critical noise values in the European Region. EPA Network Interest Group on Noise Abatement (IGNA): Vught, The Netherland, 182.

Istrate, I. A., Oprea, T., Rada, E. C., & Torretta, V. (2014). Noise and air pollution from urban traffic. WIT Transactions on Ecology and the Environment, 191, 1381-1389.

Smith, R. B., Fecht, D., Gulliver, J., Beevers, S. D., Dajnak, D., Blangiardo, M., ... & Toledano, M. B. (2017). Impact of London's road traffic air and noise pollution on birth weight: retrospective population-based cohort study. bmj, 359.

World Health Organization. (2011). Burden of disease from environmental noise: Quantification of healthy life years lost in Europe. World Health Organization. Regional Office for Europe.

Grubesa, S., & Suhanek, M. (2020). Traffic noise. In Noise and Environment. IntechOpen.

Morillas, J. M. B., Gozalo, G. R., González, D. M., Moraga, P. A., & Vílchez-Gómez, R. (2018). Noise pollution and urban planning. Current Pollution Reports, 4(3), 208-219.

European Commission. (2002). Directive 2002/49/EC of the European Parliament and of the Council of 25 June 2002 relating to the assessment and management of environmental noise. Official Journal of the European Communities, 189, 12-25.

International Organization for Standardization. (2016). ISO 1996–1: 2016 Acoustics – Description, Measurement and Assessment of Environmental Noise – Part 1: Basic quantities and assessment procedures.

Law, RS. (2010). Regulation on noise indicators, limit values, methods for assessing noise indicators, disturbance and harmful effects of environmental noise. Official Gazette of Republic of Serbia, No. 75/10 (in Serbian), 2010.

International Organization for Standardization. (2017). ISO 1996–2: 2017 Acoustics—Description, Measurement and Assessment of Environmental Noise – Part 2: Determination of Sound Pressure Levels.

González, A. E. (2022). Overview of noise control techniques and methods. In Noise Control. IntechOpen.

Fan, X., Li, L., Zhao, L., He, H., Zhang, D., Ren, Z., & Zhang, Y. (2020). Environmental noise pollution control of substation by passive vibration and acoustic reduction strategies. Applied Acoustics, 165, 107305.

Casas, W. J. P., Cordeiro, E. P., Mello, T. C., & Zannin, P. H. T. (2014). Noise mapping as a tool for controlling industrial noise pollution.

Mihajlov, D., Praščević, M., Ličanin, M., & Gajicki, A. (2021). Acoustic Treatment Solution of the Technical Room in Water Pumping Station – Case Study. In Acoustics and Vibration of Mechanical Structures—AVMS 2019: Proceedings of the 15th AVMS, Timisoara, Romania, May 30–31, 2019 (pp. 131-143). Springer International Publishing.

Ličanin, M., Mihajlov, D., Praščević, M., Đorđević, A., Raos, M., & Živković, N. (2021). Solution of the Environmental Noise Problem Generated by HVAC Systems – Case Study. In Acoustics and Vibration of Mechanical Structures – AVMS 2019: Proceedings of the 15th AVMS, Timisoara, Romania, May 30–31, 2019 (pp. 145-154). Springer International Publishing.