ISSN: 2222-6990
Open access
Construction site accidents have been found to be mainly caused by workers unsafe behaviors, largely due to nonchalant attitude towards safety hazards. Workers often tend to underestimate safety risks on construction site, which limits their ability to identify hazardous situations. A growing number of studies indicate frameworks of research on safety knowledge articulate the skills, knowledge, and abilities for a skilled worker in the modern world. However, there exist a scarcity of the factors of workplace safety and health from most of the current study frameworks to prepare for the future workforce. Currently, an onshore oil and gas activity in Bintulu, which is in Sarawak warrant a deeper study on the contractor worker’s Safety Competencies to better understand of other factors that may influence it. Worker’s competency working in this industry needs to be strengthened as part of the element in Health, Safety and Environment Management System (HSEMS) requirement to ensure sustainable and safe operation of the plant as it contributes to HSE performance of the organization. The objectives of this study involve assessing contractor’s Safety competency and Safety attitude working in the oil and gas industry in Sarawak and analyzing the mediator effect of Safety Knowledge. A survey has been conducted to assess 450 contractor worker’s HSE competency. A self-administered with Likert scale questionnaire was used to collect the data. The survey results shows that education level, experience and competency played key important roles in ensuring safe execution of the work and support the hypothesis that knowledge do influence the competency as mediating factor. Based on the findings, further studies will provide the organization a better understanding of safety knowledge and to strategize their Induction Program in ensuring that their future workforce are competent technically as well as their safety attitude prior entering the industry.
Abubakar, M., Ibrahim Y. M., Bala, K., & Ibrahim, A. D. (2020) Identifying the Factors Influencing Hazard Recognition Capability of Construction Workers.
Albert, A., Hallowell, M. R., and Kleiner, B. M. (2014) Enhancing Construction Hazard Recognition and Communication with Energy-Based Cognitive Mnemonics and Safety Meeting Maturity Model: Multiple Baseline Study.
Al-Zyoud, W., Qunies, A. M., Walters, A. U. C., & Jalsa, N. K. (2019) Perceptions of Chemical Safety in Laboratories.
Ajzen, I., & Fishbein, M. (1975) A Bayesian Analysis of Attribution Processes.
Andersson, M., Gunnarsson, K., & Rosen, G. (2015) Safety and health at work
Bandura A. (2011) A social cognitive perspective of positive psychology
Bandura A. (2012) On the Functional Properties of Perceived Self-Efficacy Revisited
Behm M., & Schneller A. (2013) Application of the Loughborough Construction Accident Causation model: a framework for organizational learning
Bena, A., Giraudo, M., Leombruni, R., & Costa, G., (2013) Job tenure and work injuries: a multivariate analysis of the relation with previous experience and differences by age.
Bhandari, G., Atreya, K., Yang, X., Fan, L., & Geissen, V. (2018). Factors affecting pesticide safety behaviour: The perceptions of Nepalese farmers and retailers. Science of the total environment, 631, 1560-1571.
Bintulu Development Authority. (2023). History: Bintulu in General. Bintulu Development Authority website. Retrived: https://www.bda.gov.my/page-0-92-75-History.html
Bory D. (2011) The role of safe work method statements in the Australian construction industry
Breslin, F. C., Day, D., Tompa, E., Irvin, E., Bhattacharyya, S., Clarke, J., & Wang, A. (2007a). Non-agricultural work injuries among youth: A systematic review. American Journal of Preventive Medicine, 32(2), 151–162. http://dx.doi.org/10.1016/j.amepre.2006.10. 007.
Breslin, F. C., & Smith, P. M. (2013). Risk factors for nonfatal work injury for young workers: A review of two relevant literatures. In C. W. Runyan, J. Lewko, K. Rauscher,D. Castillo, & S. Brandspigel (Eds.), Health and safety of young workers: Proceedings of a U.S. and Canadian series of symposia. DHHS (NIOSH) Publication No. 2013–144. (pp. 80–104). Cincinnati, OH: US Department of Health and Human Services.
Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health.
Chen, A., Golparvar-Fard, M., & Kleiner, B. (2014) Saves: A Augmented virtuality strategy for training construction hazard recognition.
Choudhry, R. M. (2014) Behavior-based safety on construction sites: A case study.
Christian, M. S., Bradley, J. C., Wallace, J. C., & Burke, M. J. (2009). Workplace Safety: A Meta- Analysis of the Roles of Person and Situation Factors
Cooke, T., & Lingard, H. (2011) A retrospective analysis of work-related deaths in the Australian construction industry.
Cooper, C. L., and Sutherland, V. J. (1987). “Job stress, mental health, and accidents among offshore workers in the oil and gas extraction indus tries.” J. Occup. Med. 29 (2): 119–125.
Culture. (1991). S. Culture Safety series no. 75 INSAG-4, international nuclear safety advisory group International Atomic Energy Agency, Vienna (1991)
Russo, D. (2016). Competency Measurement Model.
DeCola, E. (2009). A review of double hull tanker oil spill prevention considerations
Donald, P., Dingsdag, H. C., Biggs & Vaughn, L. S. (2008). Understanding And Defining OH&S Competency for Construction Site Positions: Worker Perceptions.
Gallardo-Gallardo, E., Dries, N., Gonz_alez-Cruz, T. F. (2013). What is the meaning of ‘talent’ in the world of work? Hum. Resour. Manag. Rev. 23 (4), 290-300.
Fang, D., & Wu, H. (2013). Development of a Safety Culture Interaction (SCI) model for construction projects
Feng, Z. (2015) An Empirical Study of Employees’ Safety Perceptions of Site Hazard/Accident Scenes.
Lee, Y. (2022). How dialogic internal communication fosters employees’ safety behavior during the COVID-19 pandemic. Public relations review, 48(1), 102156.
Reyna, V. F., & Farley, F. (2006). Risk and rationality in adolescent decision making: Implications for theory, practice, and public policy. Psychological science in the public interest, 7(1), 1-44.
Stackhouse, M., & Turner, N. (2019). How do organizational practices relate to perceived system safety effectiveness? Perceptions of safety climate and co-worker commitment to safety as workplace safety signals. Journal of safety research, 70, 59-69.
Salazar-Escoboza, M. A., Laborin-Alvarez, J. F., Alvarez-Chavez, C. R., Noriega-Orozco, L., & Borbon-Morales, C. (2020). Safety climate perceived by users of academic laboratories in higher education institutes. Safety science, 121, 93-99.
Schulte, P. A., Stephenson, C. M., Okun, A. H., Palassis, J., & Biddle, E. (2005). Integrating occupational safety and health information into vocational and technical education and other workforce preparation programs. American Journal of Public Health, 95(3), 404-411.
Van Hardeveld, R. M., Groeneveld, M. J., Lehman, J. Y., & Bull, D. C. (2001). Investigation of an air separation unit explosion. Journal of Loss Prevention in the Process Industries, 14(3), 167-180.
Westaby, J. D., & Lowe, J. K. (2005). Risk-taking orientation and injury among youth workers: examining the social influence of supervisors, coworkers, and parents. Journal of Applied Psychology, 90(5), 1027.
Zhang, L., Wang, J., Wang, Y., Sun, H., & Zhao, X. (2022). Automatic construction site hazard identification integrating construction scene graphs with BERT based domain knowledge. Automation in Construction, 142, 104535.
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