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The paper highlights the results of a study that examined the employees' expertise and awareness of occupational hazards in their work environment. The research involved a survey conducted in the form of a short questionnaire among employees responsible for loading and hauling of excavated material in an opencast mine. Among 23 major hazards that were thus identified, there were global hazards (affecting the entire mining process) as well as local, task-specific hazards. Depending on the number of responses, 10 local and 3 global hazards were identified in the analyzed area, involving noise, stress and dust. Active participation of the crew in the risk identification process helped in the assessment of their criticality levels, according to employees carrying out various task, highlighting the benefits of such approach for effective work safety management in a mining company. The conducted research demonstrated yet another goal to be achieved - i.e. the comparison of criticality levels of hazards as identified by employees and those reported in occupational risk assessment reports in the mine
Czasopismo
Rocznik
Tom
Strony
598--607
Opis fizyczny
Bibliogr. 20 poz., rys., tab., wykr.
Twórcy
- AGH University of Science and Technology, Faculty of Civil Engineering and Resource Management, Av. Mickiewicza 30, PL-30-059 Cracow, Poland
autor
- AGH University of Science and Technology, Faculty of Civil Engineering and Resource Management, Av. Mickiewicza 30, PL-30-059 Cracow, Poland
Bibliografia
- 1. Bae H., Simmons D.R., Polmear M., 2021. Promoting the Quarry Workers’ Hazard Identification Through Formal and Informal Safety Training, Safety and Health at Work, https://doi.org/10.1016/j.shaw.2021.02.003
- 2. Bahn S., 2013. Workplace hazard identification and management: The case of an underground mining operation, Safety Science 57, 129–137. doi:10.1016/j.ssci.2013.01.010
- 3. Dzeng, R.J., Lin, C.T., Fang, Y.C., 2016. Using eye-tracker to compare search patterns between experienced and novice workers for site hazard identification. Safety Science 82, 56–67. doi:10.1016/j.ssci.2015.08.008
- 4. Eiter, B.M., Kosmoski, C.L., Connor, B.P., 2016. Defining hazard from the mine worker’s perspective. Mining Engineering 68, 50–54. doi:10.19150/me.6832
- 5. Górska E., Kossobudzka-Górska A., 2019. Interaktywne podejście do oceny ryzyka zawodowego w mikroprzedsiębiorstwie, Zeszyty Naukowe Małopolskiej Wyższej Szkoły Ekonomicznej w Tarnowie, 41(1), 83-102
- 6. Haas E.J., Hoebbel C.L., Rost K.A., 2014. An analysis of trainers’ perspectives within an ecological framework: Factors that influence mine safety training processes, Safety and Health at Work 5, 118–124. doi:10.1016/j.shaw.2014.06.004
- 7. Hasanzadeh S., Esmaeili B., Dodd M.D., 2017. Impact of Construction Workers’ Hazard Identification Skills on Their Visual Attention, Journal of Construction Engineering and Management 143(10), 04017070. doi:10.1061/(asce)co.1943-7862.0001373
- 8. Klimecka-Tatar D., Matevž O., 2020. The Level of Occupational Health and Safety in European Enterprises Providing Transport and Logistics Services in Terms of Quality Management Principles, Multidisciplinary Aspects of Production Engineering 3, 394–404. doi:10.2478/mape2020-0034
- 9. Namian M., Albert A., Zuluaga C., Behm M., 2016. Role of Safety Training: Impact on Hazard Recognition and Safety Risk Perception, Journal of Construction Engineering and Management 142, 04016073. doi:10.1061/(asce)co.1943-7862.0001198
- 10. Niciejewska M., Idzikowski A., Škurková K.L., 2021. Impact of Technical, Organizational and Human Factors on Accident Rate of Small-Sized Enterprises, Management Systems in Production Engineering 29, 139–144. doi:10.2478/mspe-2021-0018
- 11. Niciejewska M., Kiriliuk O., 2020. Occupational health and safety management in “small size” enterprises, with particular emphasis on hazards identification, Production Engineering Archives 26, 195–201. doi:10.30657/pea.2020.26.34
- 12. Niciejewska M., Obrecht M., 2020. Impact of Behavioral Safety (Behavioural-Based Safety – BBS) on the Modification of Dangerous Behaviors in Enterprises, System Safety: Human - Technical Facility - Environment 2, 324–332. doi:10.2478/czoto-2020-0040
- 13. Act of June 26, 1974; Labor Code. Dz.U. 2020.1320.
- 14. Gierasimiuk J., 2009. Ogólna charakterystyka zagrożeń oraz zasad oceny i ograniczania ryzyka zawodowego, CIOP – Centralny Instytut Ochrony Pracy - Państwowy Instytut Badawczy: https://www.ciop.pl/CIOPPortalWAR/appmanager/ciop/pl?_nfpb=true&_pageLabel=P30001831335539182278&html_tresc_root_id=27410&html_tresc_id=27434&html_klucz=19558&html_klucz_spis= (03.06.2021)
- 15. Management System Occupational Health and Safety. General guidelines for risk assessment (PN-N-18002 (2000))
- 16. Regulation of the Minister of Labor and Social Policy of September 26, 1997 on general provisions on health and safety at work. Dz.U.03.169.1650
- 17. Nowak-Senderowska D., 2014. Metodyka kompleksowego szacowania ryzyka szkody na zdrowiu pracowników na wybranych górniczych stanowiskach pracy, Rozprawa doktorska, Akademia Górniczo-Hutnicza, Kraków
- 18. Patyk M., 2020. Ryzyko zawodowe procesu technologicznego, Praca dyplomowa – Studia podyplomowe w zakresie Bezpieczeństwa i higieny pracy, Akademia Górniczo-Hutnicza, Kraków - not published
- 19. Rączkowski B., 2020. BHP w praktyce, Ośrodek Doradztwa i Doskonalenia Kadr Sp. z o.o. Gdańsk, ISBN 978-83-7426-554-6
- 20. Romanowska-Słomka I., Słomka A., 2018. Ocena ryzyka zawodowego, Wydawnictwo: Tarbonus, ISBN 978-83-7394-665-1
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
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Bibliografia
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