Work accident risk analysis with FMEA (failure mode and effect analysis) method on steel frame bridge project

I Ketut Sutapa; I Made Suardana Kader; I Made Anom Santiana; I Gede Sastra Wibawa; I Made Tapa Yasa; I Wayan Suasira

doi:10.53730/ijpse.v5n3.2942

Authors

I Ketut Sutapa
ketutsutapa@pnb.ac.id
Department of Civil Engineering, Bali State Polytechnic, Indonesia
I Made Suardana Kader Department of Civil Engineering, Bali State Polytechnic, Indonesia
I Made Anom Santiana Department of Civil Engineering, Bali State Polytechnic, Indonesia
I Gede Sastra Wibawa Department of Civil Engineering, Bali State Polytechnic, Indonesia
I Made Tapa Yasa Department of Civil Engineering, Bali State Polytechnic, Indonesia
I Wayan Suasira Department of Civil Engineering, Bali State Polytechnic, Indonesia

Keywords:

FMEA method, identification, impact, risk analysis, work accident

Abstract

Risk is the possibility of the occurrence of an event outside of which every activity that is likely to be detrimental is carried out by humans. In the Nangarasong Steel Frame construction project in Flores district, there is uncertainty which will create a risk that can encourage the project and can affect the potential for work accidents. Uncertainty factors can cause risk in an activity that has an impact on decreasing labor productivity, risk of cost, time, and damage to design or technology. To reduce these adverse impacts, a risk management system is needed, which includes analysis, analysis, and monitoring of risks that may occur. Risk management makes an integrated effort to manage the risk of work accidents by using the FMEA (Failure Mode And Effect Analysis) method. All construction projects that may experience accident risks are identified and analyzed for the severity with FMEA, from the results of which the causes and impacts of the work accident risks will be sought. After knowing and the impact of the risk of work accidents, the next action on the risk of work accidents that result.

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References

Adar, E., Ince, M., Karatop, B., & Bilgili, M. S. (2017). The risk analysis by failure mode and effect analysis (FMEA) and fuzzy-FMEA of supercritical water gasification system used in the sewage sludge treatment. Journal of Environmental Chemical Engineering, 5(1), 1261-1268. https://doi.org/10.1016/j.jece.2017.02.006

Adzim, H. I. (2013). Pengertian dan Elemen Sistem Manajemen K3 (Keselamatan dan Kesehatan Kerja). Ahli K3 Umum. Diakses, 2.

Boral, S., Howard, I., Chaturvedi, S. K., McKee, K., & Naikan, V. N. A. (2020). A novel hybrid multi-criteria group decision making approach for failure mode and effect analysis: An essential requirement for sustainable manufacturing. Sustainable Production and Consumption, 21, 14-32. https://doi.org/10.1016/j.spc.2019.10.005

Brody, B., Létourneau, Y., & Poirier, A. (1990). An indirect cost theory of work accident prevention. Journal of Occupational Accidents, 13(4), 255-270. https://doi.org/10.1016/0376-6349(90)90033-R

Chen, T. T., & Leu, S. S. (2014). Fall risk assessment of cantilever bridge projects using Bayesian network. Safety science, 70, 161-171. https://doi.org/10.1016/j.ssci.2014.05.011

Efe, B. (2019). Analysis of operational safety risks in shipbuilding using failure mode and effect analysis approach. Ocean Engineering, 187, 106214. https://doi.org/10.1016/j.oceaneng.2019.106214

Endroyo, B., & Tugino, T. (2009). Analisis faktor-faktor penyebab kecelakaan kerja konstruksi. Jurnal Teknik Sipil dan Perencanaan, 9(1), pp-21.

Gita, M. A. (2015). Analisa Risiko Kecelakaan Kerja Proyek Marvell City Linden Tower Surabaya Menggunakan Metode FMEA (Failure Mode And Effect Analysis) Dan FTA (Fault Tree Analysis) (Doctoral dissertation, Institut Teknology Sepuluh Nopember).

Harms-Ringdahl, L. (2004). Relationships between accident investigations, risk analysis, and safety management. Journal of Hazardous materials, 111(1-3), 13-19. https://doi.org/10.1016/j.jhazmat.2004.02.003

Ismail, H. F. (2018). Statistika untuk penelitian pendidikan dan ilmu-ilmu sosial. Kencana.

Marhavilas, P. K., Koulouriotis, D., & Gemeni, V. (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. https://doi.org/10.1016/j.jlp.2011.03.004

Melchior, C., & Zanini, R. R. (2019). Mortality per work accident: A literature mapping. Safety science, 114, 72-78. https://doi.org/10.1016/j.ssci.2019.01.001

Mutlu, N. G., & Altuntas, S. (2019). Risk analysis for occupational safety and health in the textile industry: Integration of FMEA, FTA, and BIFPET methods. International Journal of Industrial Ergonomics, 72, 222-240. https://doi.org/10.1016/j.ergon.2019.05.013

Rodriguez, A. C. Z., Gamez, M. R., & Faure, L. G. (2018). Design, construction, and energy of sustainable solar dryers in Jipijapa Canton. International Journal of Physical Sciences and Engineering, 2(2), 88-100. https://doi.org/10.29332/ijpse.v2n2.170

Sepang, B. A. W., Tjakra, J., Langi, J. E. C., & Walangitan, D. R. O. (2013). Manajemen risiko keselamatan dan kesehatan kerja (K3) pada proyek pembangunan ruko Orlens Fashion Manado. Jurnal Sipil Statik, 1(4).

Sinaga, Y. Y., Bintang, C. N., & Adi, T. W. (2014). Identifikasi Dan Analisa Risiko Kecelakaan Kerja Dengan Metode FMEA (Failure Mode And Effect Analysis) Dan FTA (Fault Tree Analysis) Di Proyek Jalan Tol Surabaya-Mojokerto. Jurnal Teknik Pomits, 1(1), 1-5.

Sudiarsa, M., Sudiasa, W., & Sutapa, K. (2018). Value engineering approach for construction materials selection of irrigation drainage: Case study on project of DAS irrigation drainage improvement at Cengcengan River in Gianyar. International Journal of Physical Sciences and Engineering, 2(1), 35-46. https://doi.org/10.29332/ijpse.v2n1.89

Suraji, A., & Duff, A. R. (2000, September). Construction management actions: a stimulant of construction accident causation. In Proceedings of the 16th Annual ARCOM Conference (pp. 6-8).

Suraji, A., Duff, A. R., & Peckitt, S. J. (2001). Development of causal model of construction accident causation. Journal of construction engineering and management, 127(4), 337-344.

Zhang, L., Wu, X., Skibniewski, M. J., Zhong, J., & Lu, Y. (2014). Bayesian-network-based safety risk analysis in construction projects. Reliability Engineering & System Safety, 131, 29-39. https://doi.org/10.1016/j.ress.2014.06.006