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Environmental impact of noise from mining operations

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The article presents the results of measurements of environmental noise caused by devices operating in the surface facilities of hard coal mines and by the technological processes related to the loading and transport of spoil and materials necessary for production. The research results are part of the program “Consequences of excessive noise in the mining environment of hard coal mines”, the overarching goal of which is to reduce the emission of industrial noise. A sampling method was used to determine the actual values of noise levels emitted to the external environment from mines and mining plants as well as to identify the acoustic power levels of devices and processes constituting the main sources of noise in mines. The results showed that mines and mining plants are often not fully aware of the scale of the environmental impact of the undesirable noise they emit. Therefore, the current periodic measurements of environmental noise should be replaced with permanent monitoring, which will be beneficial not only for the environment and residents of housing estates located near mines but also for the mining plants themselves.
Rocznik
Strony
15--28
Opis fizyczny
Bibliogr. 43 poz., rys., tab.
Twórcy
autor
  • Silesian University of Technology in Gliwice Faculty of Safety Engineering and Industrial Automation 2a Akademicka St., 41-100 Gliwice, Poland
Bibliografia
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  • 12. Chacińska, P., Kucharski, R., Książka, P. & Adamczyk, D. (2020) Report on the acoustic state of the environment in Poland based on the results of the implementation of acoustic maps + 3rd round of the implementation of acoustic maps. Warszawa: Department of Environmental Acoustics, Institute of Environmental Protection – National Research Institute.
  • 13. Correia, A.W., Peters, J.L., Levy, J.I., Melly, S. & Dominici, F. (2013) Residential exposure to aircraft noise and hospital admissions for cardiovascular diseases: Multi-airport retrospective study. British Medical Journal 347, f5561.
  • 14. European Commission (2020) Commission Directive (EU) 2020/367 of 4 March 2020 amending Annex III to Directive 2002/49/EC of the European Parliament and of the Council as regards the establishment of assessment methods for harmful effects of environmental noise. Official Journal of the European Union L 67, 5.3.2020, pp. 132–136.
  • 15. European Commission (2021) Commission Delegated Directive (EU) 2021/1226 of 21 December 2020 amending, for the purposes of adapting to scientific and technical progress, Annex II to Directive 2002/49/EC of the European Parliament and of the Council as regards common noise assessment methods. Official Journal of the European Union L 269, 28.7.2021, pp. 65–142.
  • 16. HHänninen, O., Knol, A.B., Jantunen, M., Lim, T.-A., Conrad, A., Rappolder, M., Carrer, P., Fanetti, A.-C., Kim, R., Buekers, J., Torfs, R., Iavarone, I., Classen, T., Hornberg, C. & Mekel, O.C.L. (2014) Environmental burden of disease in Europe: assessing nine risk factors in six countries. Environmental Health Perspectives 122(5), pp. 439–446.
  • 17. Ibraev, S.A., Zharylkassyn, Z.Z., Izdenov, A.K., Alekseev, A.V. & Tilemissov, M.K. (2016) Hygienic Assessment of Noise of Mobile Machinery of Transportation Company in Mining Industry. Research Journal of Pharmaceutical, Biological and Chemical Sciences 7(1), pp. 2236–2238.
  • 18. Kerketta, S., Dash, P.K. & Narayan, L.T.P. (2009) Work zone noise levels at Aarti steel plant, Orissa and its attenuation in far field. Journal of Environmental Biology 30 (5 Suppl.), pp. 903–908.
  • 19. Kerketta, S., Gartia, R., Tewari, J.K. & Bagh, S. (2011) Degree of association of industrial noise with the heavy earth moving machineries in a chromite mining complex at Odisha, India. Indian Journal of Science and Technology 4(8), pp. 910–914.
  • 20. Kisku, G.C., Barman, S.C., Kidwai, M.M. & Bhargava, S.K. (2002) Environmental impact of noise levels in and around opencast bauxite mine. Journal of Environmental Biology 23(1), pp. 51–56.
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  • 22. Lutyński, A. (2016) Hazards of methane, dust and noise occurring in mechanical processing plants of hard coal mines. Monograph No. 16. Series: Innovative mechanization techniques and technologies. Gliwice: Institute of Mining Technology – KOMAG.
  • 23. Lutyński, A. (2017a) Fighting the threats caused by methane, dust and noise in mechanical processing plants of hard coal mines. Monograph No. 18. Series: Innovative mechanization techniques and technologies. Gliwice: Institute of Mining Technology – KOMAG.
  • 24. Lutyński, A. (2017b) Noise hazard in hard coal mechanical processing plants. Mining Machines 4, pp. 15–22.
  • 25. Magiera, A. & Solecka, J (2021) Environmental noise, its types and effects on health. Annals of the National Institute of Hygiene 72(1), pp. 41–48.
  • 26. Mocek, P. (2020) Industrial noise as a source of threat in the field of blasting technology in coal mines. New Trends in Production Engineering 3(1), pp. 83–97.
  • 27. Mocek, P. (2022a) Industrial noise as a source of threats in the energy and mechanical section of hard coal mines (in Polish). Rynek Energii 2, pp. 75–85.
  • 28. Mocek, P. (2022b) Research on the Environmental Impact of Industrial Noise Emitted by Mining Plants. Management Systems in Production Engineering 30(2), pp. 146–155.
  • 29. Mohammadi I.A., Kanrash, F.A., Abolghasemi, J. & Rahmani, K. (2019) The Effects of Chronical Noise-Exposure on Hearing Ability, Psychological, and Mental Attitude of Workers in Automotive Industry. The Journal of Tolooebehdasht 18(1), pp. 17–31.
  • 30. Monazzam Esmaielpour, M.R., Zakerian, S.A., Abbasi, M., Ábbasi Balochkhaneh, F. & Mousavi Kordmiri, S.H. (2022) Investigating the effect of noise exposure on mental disorders and the work ability index among industrial workers. Noise & Vibration Worldwide 53(1-2), pp. 3–11.
  • 31. Münzel, T., Gori, T., Babisch, W. & Basner, M. (2014) Cardiovascular effects of environmental noise exposure. European Heart Journal 35(13), pp. 829–836.
  • 32. Omlin, S, Bauer, G.F. & Brink, M. (2011) Effects of noise from non-traffic-related ambient sources on sleep: Review of the literature of 1999–2010. Noise Health 13(53), pp. 299–309.
  • 33. PKN (2014) PN-EN 61672-1. Electroacoustics – Sound level meters – Part 1: Requirements. Warszawa: Polish Committee for Standardization.
  • 34. Preisendörfer, P., Herold, L. & Kurz, K. (2020) Road Traffic and Aircraft Noise as Drivers of Environmental Protest? Kölner Zeitschrift für Soziologie und Sozialpsychologie 72(2), pp. 165–191, doi: 10.1007/s11577-020-00686-z.
  • 35. Ravichandran, C., Rakesh Sharma, T. & Alagappa Moses, A. (2012) Assessment of noise pollution due to flyover construction in Tiruchirappalli District, Tamil Nadu. Indian Journal of Environmental Protection 32(10), pp. 804–807.
  • 36. Regulation (2021) Regulation of the Minister of Climate and Environment of September 7, 2021 on the requirements for measuring emissions. Journal of Laws 2021 item 1710.
  • 37. Sanok, S., Berger M., Müller U., Schmid M., Weidenfeld S., Elmenhorst E.-M. & Aeschbach. D. (2022) Road traffic noise impacts sleep continuity in suburban residents: Exposure-response quantification of noise-induced awakenings from vehicle pass-bys at night. Science of the Total Environment 817, 152594.
  • 38. Shabani, F., Alimohammadi, I., Abolghasemi, J., Dehdari, T. & Ghasemi, R. (2020) The study of effect of educational intervention on noise annoyance among workers in a textile industry. Applied Acoustics 170, 107515.
  • 39. Silva, L.T., Magalhães, A., Silva, J.F. & Fonseca, F. (2021) Impacts of low-frequency noise from industrial sources in residential areas. Applied Acoustics 182, 108203.
  • 40. Vardhan, H., Karmakar, N. & Rao, Y. (2006) Assessment of heavy earth-moving machinery noise vis-a-vis routine maintenance. Noise Control Engineering Journal 54(2), pp. 64–78.
  • 41. Wang, T.-C., Chang, T.-Y., Tyler, R.S., Hwang, B.-F., Chen, Y.-H., Wu, C.-M., Liu, C.-S., Chen, K.-C., Lin, C.- D. & Tsai, M.-H. (2021) Association between exposure to road traffic noise and hearing impairment: a case-control study. Journal of Environmental Health Science and Engineering 19(2), pp. 1483–1489.
  • 42. WHO (2011) Burden of Disease from Environmental Noise. Quantification of Healthy Life Years Lost in Europe. Geneva, Switzerland: World Health Organization.
  • 43. WHO (2018) Environmental Noise Guidelines for the European Region. Copenhagen. Denmark: WHO Regional Office for Europe.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d0bd6010-bf42-461a-929c-6bcee7f44d59
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