Research Article
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Year 2021, Volume: 6 Issue: 2, 137 - 147, 31.10.2021
https://doi.org/10.26650/JTL.2021.972109

Abstract

References

  • Antâo, P., Calderon, M., Puig, M., Michail, A., Wooldridge, C., & Darbra, R. M. (2016). Identification of occupational health, safety, security (OHSS) and environmental performance indicators in port areas. Safety science, 85, 266-275. google scholar
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  • Buckley, J. J. (1985). Fuzzy hierarchical analysis. Fuzzy sets and systems, 17(3), 233-247. google scholar
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  • Demirel, H., Balin, A., Çelik, E., & Alarçin, F. (2018). A fuzzy AHP and ELECTRE method for selecting stabilizing device in ship industry. Brodogradnja: Teorija i praksa brodogradnje i pomorske tehnike, 69(3), 61-77. google scholar
  • Gul, M. (2020). A fuzzy-based occupational health and safety risk assessment framework and a case study in an international port authority. Journal of Marine Engineering & Technology, 19(4), 161-175. google scholar
  • Gutierrez, X., & Hintsa, J. (2006, May). Voluntary supply chain security programs: a systematic comparison. In The International Conference on Information Systems, Logistics and Supply Chain, Lyon, France. google scholar
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  • Jiang, Y. P., & Fan, Z. P. (2002). A practical ranking method for reciprocal judgment matrix with triangular fuzzy numbers. Systems Engineering, 20(2), 89-92. google scholar
  • Mollaoğlu, M., Bucak, U., & Demirel, H. (2019). A quantitative analysis of the factors that may cause occupational accidents at ports. Journal of ETA Maritime Science, 7(4), 294- 303. google scholar
  • Saaty, T. L. (1980). The analytic hierarchy process (AHP). The Journal of the Operational Research Society, 41(11), 1073-1076. google scholar
  • Saygı, Erkan (2018). İzmit Körfezi Limanlarında İş Güvenliğinin Değerlendirilmesi, Unpublished Master Thesis, Kocaeli University Institute of Science, Kocaeli. google scholar
  • Uğurlu, Ö., Köse, E., Yıldırım, U., & Yüksekyıldız, E. (2015). Marine accident analysis for collision and grounding in oil tanker using FTA method. Maritime Policy & Management, 42(2), 163-185. google scholar
  • Van Laarhoven, P. J., & Pedrycz, W. (1983). A fuzzy extension of Saaty’s priority theory. Fuzzy sets and Systems, 11(1-3), 229-241. google scholar
  • Yorulmaz M., & Aksu, A. (2020). Liman İşletmelerinde İş Sağlığı ve Güvenliği Uygulama Performans Boyutlarının AHP ile Değerlendirilmesi: Kocaeli Liman Bölgesi. İşletme Bilimi Dergisi, 9(1), 1-24. google scholar

Evaluating Occupational Health and Safety Applications: A Framework for Turkish Container Ports

Year 2021, Volume: 6 Issue: 2, 137 - 147, 31.10.2021
https://doi.org/10.26650/JTL.2021.972109

Abstract

With the COVID-19 pandemic, sky-high demand for long-distance shipping and remaining incapable of other modes to comply with maritime transport for meeting demand caused port congestion in vital hubs. The situation increased speed pressure that exists for so long on ports. In the meantime, operational speed requirements, port congestions, spread of port services threaten occupational health and safety in port areas. To cope with this risk many regulations and measures were taken by port authorities. In this study, it is aimed to determine the priority levels of the OHS rules applied to prevent possible risks and accidents in container ports. It has also been attempted to evaluate which factors are more effective in the implementation of these rules. Thus, occupational health and safety rules applied in Turkish container ports were determined and evaluated by experts. By this means, these applications were prioritized in terms of their significance levels. In the scope of these applications, prominent factors that threaten occupational health and safety were approached. Thus, a framework related to occupational health and safety rules applied in Turkish container ports and factors threaten them was designated. This framework was analysed and the results brought employee awareness into the forefront to establish reliable occupational health and safety system in Turkish container ports.

References

  • Antâo, P., Calderon, M., Puig, M., Michail, A., Wooldridge, C., & Darbra, R. M. (2016). Identification of occupational health, safety, security (OHSS) and environmental performance indicators in port areas. Safety science, 85, 266-275. google scholar
  • Beheary, M. S., Abdelaal, A., & Matar, S. M. (2020). Occupational Health and Safety Practices Assessment in Damietta Port, North Egypt. Asian Journal of Advanced Research and Reports, 17-27. google scholar
  • Brooks, M. R., & Faust, P. (2018). 50 Years of Review of Maritime Transport, 1968-2018: Reflecting on the Past, Exploring the Future, UNCTAD Publishing, Geneva. (No. UNCTAD/DTL/2018/1). google scholar
  • Buckley, J. J. (1985). Fuzzy hierarchical analysis. Fuzzy sets and systems, 17(3), 233-247. google scholar
  • Chen, C. T. (2000). Extensions of the TOPSIS for group decision-making under fuzzy environment. Fuzzy sets and systems, 114(1), 1-9. google scholar
  • Demirel, H., Balin, A., Çelik, E., & Alarçin, F. (2018). A fuzzy AHP and ELECTRE method for selecting stabilizing device in ship industry. Brodogradnja: Teorija i praksa brodogradnje i pomorske tehnike, 69(3), 61-77. google scholar
  • Gul, M. (2020). A fuzzy-based occupational health and safety risk assessment framework and a case study in an international port authority. Journal of Marine Engineering & Technology, 19(4), 161-175. google scholar
  • Gutierrez, X., & Hintsa, J. (2006, May). Voluntary supply chain security programs: a systematic comparison. In The International Conference on Information Systems, Logistics and Supply Chain, Lyon, France. google scholar
  • Hanaz, Muhammed Oğuzhan (2019). Konteyner Limanlarında Tehlike ve Risklerin Analizi, Unpublished Master Thesis, Üsküdar University Institute of Medical Sciences, İstanbul. google scholar
  • Hwang, C. L., & Yoon, K. (1981). Methods for multiple attribute decision making. In Multiple attribute decision making (pp. 58-191). Springer, Berlin, Heidelberg. google scholar
  • Jiang, Y. P., & Fan, Z. P. (2002). A practical ranking method for reciprocal judgment matrix with triangular fuzzy numbers. Systems Engineering, 20(2), 89-92. google scholar
  • Mollaoğlu, M., Bucak, U., & Demirel, H. (2019). A quantitative analysis of the factors that may cause occupational accidents at ports. Journal of ETA Maritime Science, 7(4), 294- 303. google scholar
  • Saaty, T. L. (1980). The analytic hierarchy process (AHP). The Journal of the Operational Research Society, 41(11), 1073-1076. google scholar
  • Saygı, Erkan (2018). İzmit Körfezi Limanlarında İş Güvenliğinin Değerlendirilmesi, Unpublished Master Thesis, Kocaeli University Institute of Science, Kocaeli. google scholar
  • Uğurlu, Ö., Köse, E., Yıldırım, U., & Yüksekyıldız, E. (2015). Marine accident analysis for collision and grounding in oil tanker using FTA method. Maritime Policy & Management, 42(2), 163-185. google scholar
  • Van Laarhoven, P. J., & Pedrycz, W. (1983). A fuzzy extension of Saaty’s priority theory. Fuzzy sets and Systems, 11(1-3), 229-241. google scholar
  • Yorulmaz M., & Aksu, A. (2020). Liman İşletmelerinde İş Sağlığı ve Güvenliği Uygulama Performans Boyutlarının AHP ile Değerlendirilmesi: Kocaeli Liman Bölgesi. İşletme Bilimi Dergisi, 9(1), 1-24. google scholar
There are 17 citations in total.

Details

Primary Language English
Subjects Sports Medicine
Journal Section Research Article
Authors

Seyhun Coban 0000-0002-4819-3900

Hakan Demirel 0000-0002-7579-7064

Umur Bucak 0000-0001-5112-8133

Publication Date October 31, 2021
Submission Date July 22, 2021
Acceptance Date September 18, 2021
Published in Issue Year 2021 Volume: 6 Issue: 2

Cite

APA Coban, S., Demirel, H., & Bucak, U. (2021). Evaluating Occupational Health and Safety Applications: A Framework for Turkish Container Ports. Journal of Transportation and Logistics, 6(2), 137-147. https://doi.org/10.26650/JTL.2021.972109
AMA Coban S, Demirel H, Bucak U. Evaluating Occupational Health and Safety Applications: A Framework for Turkish Container Ports. JTL. October 2021;6(2):137-147. doi:10.26650/JTL.2021.972109
Chicago Coban, Seyhun, Hakan Demirel, and Umur Bucak. “Evaluating Occupational Health and Safety Applications: A Framework for Turkish Container Ports”. Journal of Transportation and Logistics 6, no. 2 (October 2021): 137-47. https://doi.org/10.26650/JTL.2021.972109.
EndNote Coban S, Demirel H, Bucak U (October 1, 2021) Evaluating Occupational Health and Safety Applications: A Framework for Turkish Container Ports. Journal of Transportation and Logistics 6 2 137–147.
IEEE S. Coban, H. Demirel, and U. Bucak, “Evaluating Occupational Health and Safety Applications: A Framework for Turkish Container Ports”, JTL, vol. 6, no. 2, pp. 137–147, 2021, doi: 10.26650/JTL.2021.972109.
ISNAD Coban, Seyhun et al. “Evaluating Occupational Health and Safety Applications: A Framework for Turkish Container Ports”. Journal of Transportation and Logistics 6/2 (October 2021), 137-147. https://doi.org/10.26650/JTL.2021.972109.
JAMA Coban S, Demirel H, Bucak U. Evaluating Occupational Health and Safety Applications: A Framework for Turkish Container Ports. JTL. 2021;6:137–147.
MLA Coban, Seyhun et al. “Evaluating Occupational Health and Safety Applications: A Framework for Turkish Container Ports”. Journal of Transportation and Logistics, vol. 6, no. 2, 2021, pp. 137-4, doi:10.26650/JTL.2021.972109.
Vancouver Coban S, Demirel H, Bucak U. Evaluating Occupational Health and Safety Applications: A Framework for Turkish Container Ports. JTL. 2021;6(2):137-4.



The JTL is being published twice (in April and October of) a year, as an official international peer-reviewed journal of the School of Transportation and Logistics at Istanbul University.