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This study delves into the critical process of risk management within manufacturing environments, emphasizing its role as a perpetual cycle influencing all organizational tiers. The research primarily addresses the identification, analysis, and mitigation of risks in specific occupational roles within a manufacturing company. A comprehensive risk assessment is conducted for these roles both pre and post the introduction of safety protocols. The study's practical application showcased a substantial diminishment of occupational risks, particularly highlighting a 46.37% reduction in the toolmaker-milling role. This significant decrease underscores the efficacy of the implemented safety measures and the importance of continual risk management in maintaining a safe and productive work environment.
Wydawca
Rocznik
Tom
Strony
318--331
Opis fizyczny
Bibliogr. 42 poz., rys., tab.
Twórcy
autor
- Slovak University of Agriculture in Nitra, Faculty of Engineering, Institute of Agricultural Engineering, Transportand Bioenergetics, Nitra, Slovakia
autor
- Slovak University of Agriculture in Nitra, Faculty of Engineering, Institute of Design and Engineering Technologies, Nitra, Slovakia
autor
- Cyclone Manufacturing Inc, Mississauga, Ontario, Canada
autor
- University of Agriculture in Krakow, Faculty of Production and Power Engineering, Division of Mechanisationand Energy pawel.kielbasa@urk.edu.pl Technologies in Agriculture, Krakow, Poland
autor
- Slovak University of Agriculture in Nitra, Faculty of Engineering, Institute of Agricultural Engineering, Transportand Bioenergetics, Nitra, Slovakia
autor
- Czestochowa University of Technology, Department of Production Engineering and Safety, Poland
Bibliografia
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- 2. ACT No.124/2006onoccupationalsafetyandhealth. AvailableinSlovakat: https://www.ilo.org/dyn/ natlex/docs/ELECTRONIC/74480/87843/F1044026491/SVK74480%20Eng.pdf
- 3. Bujna, M., Prístavka, M., Lee, C. K., Borusiewicz, A., Samociuk, W., Beloev, I., Malaga-Toboła, U., 2023. Reducing the Probability of Failure in Manufacturing Equipment by Quantitative FTA Analysis, Agricultural Engineering, vol.27, no.1, 255-272. https://doi.org/10.2478/agriceng 2023-0019
- 4. Bujna, M., Čičo, P., Kotus, M., 2018. Risk management in production technologies. Slovak University of Agriculture in Nitra. Nitra, Slovakia. ISBN 978-80-552-1872-4.
- 5. Džubáková, M., Lichnerová, L., 2013. Process management. Ekonóm, Bratislava - Slovakia. ISBN 978-80-225-3379-9
- 6. Górny, A., 2017. The use of working environment factors as criteria in assessing the capacity to carry out processes. In. The 4th International Conference on Computing and Solutions in Manufacturing Engineering. Brasov, 1-11. (Online). https://www.researchgate.net/publication/ 312071236_The_use_of_working_environment_factors_as_criteria_in_assessing_the_capac ity_to_carry_out_processes
- 7. Hudáková, M., Míka, V., 2018. Management methods and techniques. Žilina - Slovakia. ISBN 978 80-554-1614-4. Available at: http://www.akademickyrepozitar.sk/sk/repozitar/manazerske-metody-a techniky-vyber.pdf
- 8. Islam, Sh., Dong, W., 2008. Human factors in software security risk management. In. Proceedings of the first international workshop on Leadership and management in software architecture. (Online). New York: LMSA, pp. 13-16. Available at: DOI: 10.1145/1373307.1373312
- 9. Kangalov, P., Nikolov, M., Todorov, I., 2022. Abrasion resistanceof restorative coatings for crankshafts and bearings in agriculturalmachinery. Acta Technologica Agriculturae, vol. 25, no. 1, 27–32, DOI: 10.2478/ata-2022-0005
- 10. Kiselakova, D., Horvathova, J., Sofrankova, B., Soltes, M., 2015. Analysis of risks and their impact on enterprise performance by creating enterprise risk model. Polish Journal of Management Studies, 11(2), 50-61.
- 11. Kotus, M., Žitňák, M., Bujna, M., Lestyánszka, K., 2017. Occupational health and safety. Slovak University of Agriculture. Nitra – Slovakia. ISBN 978-80-552-1636-2
- 12. Luskova, M., Dvorak, Z., 2012. Risk management methods in railway transport critical infrastructure. Logistyka. (Online), No.3., 1395-1400. Available at: http://fbiw.uniza.sk/kritinf /aktuality/publik/034_luskova_dvorak_logystika-3-2012.pdf
- 13. Marhavalis, P., 2011. Risk analysis and assessment methodologies in the work sites: On a review, classification and comparative study of the scientific literature of the period 2000-2009. Journal of Loss Prevention in the Process Industries, 24(5)., 477-523. DOI: 10.1016/j.jlp.2011.03.004
- 14. Marquis, H,. 2009. How to Roll the Deming Wheel. In DITY Weekly Newsletter. (Online), Vol.5, No.28. Available at: http://itsmsolutions.com/wp-content/uploads/2013/01/DITYvol5 iss28.pdf
- 15. McDermott, R., Beauregard, M., Mikulak, R., 2008. The Basics of FMEA. (Online). New York: Productivity Press. 90s. ISBN 9780429244773. Available at: https://www.taylorfrancis.com/ books/mono/10.1201/b16656/basics-fmea-raymond-mikulak-robin-mcdermott-michael beauregard
- 16. Nenadál, J., Petříková, R., Plura, J., Noskievičová, D., Tošeňovský, J., 2008. Modern quality management. (Online). Tiskárny Havličkuv Brod. Praha – Czech Republic ISBN 978-80-726-186-7. Available at: https://old.knihovna.zcu.cz/export/sites/knihovna/ elektronicke-informacni-zdroje/e knihy/moderni-management-jakosti.pdf
- 17. Pačaiová, H., Andrejiová, M., Balažiková, M., Tomašková, M., Gazda, T., Chomová, K., Hijj, J., Salaj, L., 2021. Methodologyfor complex efficiency evaluation of machinery safety measures ina production organization. In Applied Sciences, vol. 11, no. 1, article no. 453. DOI: 10.3390/app1101045
- 18. Pačaiová, H., Ižaríková, G., 2019. Base principles and practicesfor implementation of total productive maintenance in automotiveindustry. In Quality Innovation Prosperity, vol. 23, no. 1, 45–59. DOI: 10.12776/qip.v23i1.1203
- 19. Padayachee, K., 2002. An interpretive study of software risk management perspectives. In. Proceedings of the 2002 annual research conference of the South African institute oif computer scientists and information technologists on Enablement through technology. (Online). 118-127. Available at : DOI: 10.5555/581506.581524
- 20. Patil, R., Waghmode, L., Chikali P., Mulla, T., 2013. An Overview of Fault Tree Analysis (FTA) Method for Realiability Analysis & Life Cycle Cost (LCC) Management. In IOSR. (Online). 14 18. 2278-1684. Available at: https://www.researchgate.net/profile/Rajkumar-Patil 2/publication/277971116_An_Overview_of_Fault_Tree_Analysis_FTA_Method_for_Reliability_Analysis _Life_Cycle_Cost_LCC_Management/links/5577e07808aeb6d8c01ce7bf/An-Overview-of-Fault-Tree Analysis-FTA-Method-for-Reliability-Analysis-Life-Cycle-Cost-LCC-Management.pdf [cit. 2022-10-14].
- 21. Pecek, M., 2020. General principles of prevention in OSH. (Online). Available at: https://www.bezpecnostvpraxi.sk/clanok-z-titulky/vseobecne-zasady-prevencie-v-bozp-aktbvp.htm
- 22. Pruszkowski, L., 2015. HAZOP jako metoda wspomagająca zarządzanie bezpieczeństwem procesowym w przedsiębiorstwie. In Acta Universitatis Nicolai Copernici. (Online), vol. 42, no. 3., 7-20. Available at: https://apcz.umk.pl/AUNC_ZARZ/article/view/AUNC_ZARZ.2015.029
- 23. Siddiqui, N., Nandan, A., Sharma, M., Srivastava, A., 2014. Risk Management Techniques HAZOP & HAZID Study. In International Journal on Occupational. Health & Safety, Fire & Enviroment - Allied Science. (Online), vol. 1, no. 1. Available at: https://www.researchgate.net/profile/Abhishek Nandan 2/publication/319979143_Risk_Management_Techniques_HAZOP_HAZID_Study/links/59c4a2344585 15548f21a17a/Risk-Management-Techniques-HAZOP-HAZID-Study.pdf [cit. 2022-10-03].
- 24. Sinay, J., 1997. Risks of Technical Equipment: Risk Management. Publishing House: OTA a.s., Košice - Slovakia, ISBN 80-967783-0-7.
- 25. SINAY, J., Pačaiová, H., Grenčik, J., Golianová, A., Markulik, S., Morkišová, A., Nagyová, A., Treštiková, B., 2007. Quality improvement tools. Publishing House: ManaCon Presov, Slovakia. ISBN 978-80-89040-32-2.
- 26. Somjai, S., Girdwichai, L., Jermsittiparsert, K., 2019. The impact of stakeholder pressure on the risk mitigation activities of the firm. Polish Journal of Management Studies, 20(1), 405-414. DOI: 10.17512/pjms.2019.20.1.35
- 27. STN EN ISO 31 000: 2019 (01 0381). Risk Management. Instructions.
- 28. STN EN ISO 4869-2:1998. Acoustics. Hearing protectors. Part 2:Estimation of effective A-weighted sound pressure levels whenhearing protectors are worn.
- 29. STN EN ISO 9612:2010. Acoustics. Determination of occupationalnoise exposure. Engineering method.
- 30. STN ISO 45001:2019. Occupational health and safety managementsystems. Requirements with guidance for use.
- 31. Šmída, F., 2007. Introduction and development of process management in the company. Prague: Grada, 2007. 293p. ISBN 8024716794
- 32. Šolc, M., 2013. Application of the method of analysis of possible errors and consequences of FMEA in the medical process. In. EMI, vol. 5, no. 2, pp. 26-38.
- 33. Tomlein, M., 2012. Excessive and ineffective risk management and its risks. (Online). Available at: http://www2.fiit.stuba.sk/~bielik/courses/msi slov/kniha/2013/Resources/Essays/Essay_98.pdf
- 34. Turňová, Z., Tureková, I., 2012. Occupational health and safety management systems. In. Environmental Management - Proceedings of the XII. Conference with foreign participation. (Online). Žilina: Strix. pp. 168-172. ISBN 978-80-89281-85-5. Available at: https://www.sszp.eu/wp-content/uploads/2012_konf_MaZP_B14__Turnova-Turekova.pdf
- 35. Wang, J., 2018. Safety Theory and Control Technology of High-Speed Train Operation. 387p. ISBN: 978-0-12-813304-0
- 36. Žitňák, M., 2020. Operation and safety of technical equipment. 3rd supplemented edition. Nitra: Slovak University of Agriculture.159p. ISBN 978-80-552-2263-9
- 37. Havrylenko Y., Kholodniak Y., Halko S., Vershkov O., Bondarenko L., Suprun O., Miroshnyk O., Shchur T., Śrutek M., Gackowska M., 2021. Interpolation with Specified Error of a Point Series Belonging to a Monotone Curve. Entropy 23, 493 DOI: 10.3390/e23050493.
- 38. Havrylenko Y., Kholodniak Y., Halko S., Vershkov O., Miroshnyk O., Suprun O., Dereza O., Shchur T., Śrutek M., 2021. Representation of a Monotone Curve by a Contour with Regular Change in Curvature. Entropy 23, 923. DOI: 10.3390/e23070923.
- 39. Borkowski, S., Ulewicz, R., Selejdak, J., Konstanciak, M., Klimecka-Tatar, D., 2012. The use of 3x3 matrix to evaluation of ribbed wire manufacturing technology, METAL 2012 - Conference Proceedings, 21st International Conference on Metallurgy and Materials, 1722–1728. DOI: 10.12914/MSPE-06-03-2014.
- 40. Shyaa, H., Abbas, A., 2023. Job desertification as a modified variable in the relationship between the cognitive biases of the leader and the organizational anomie. Production Engineering Archives,29(4) 356-368. https://doi.org/10.30657/pea.2023.29.41
- 41. Dudek, A., Lisiecka, B., Ulewicz, R. 2017. The effect of alloying method on the structure and properties of sintered stainless steel, Archives of Metallurgy and Materials, 62(1), 281–287. DOI: 10.1515/amm-2017-0042.
- 42. Ulewicz, R., Lazar, L., 2019. The Effect of Lean Tools on the Safety Level in Manufacturing Organisations. System Safety: Human - Technical Facility - Environment,1(1) 514-521. DOI: 10.2478/czoto-2019-0066
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-70959a2a-acf0-45bc-8f15-9a00d4cb6ed5