Probability Analysis of Human Error on Container Crane Operation Using SPAR-H Method

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Deny Dermawan
Alfi Syanantika
Dewi Kurniasih
Haidar Natsir Amrullah

Abstract

Container service company is one of the companies that carry out logistic activities. Where in these activities there are activities with marine terminal facilities which include loading and unloading equipment, warehouse, and dock. The company has container cranes as the main operational tool used for loading and unloading activities at the dock. Container crane operation is the highest accident rate viewed from accident data based on the equipment used. Most accidents are caused by human error. This study aims to analyze the probability of human error in container crane operation. This research is aim to analyze the probability of human error in container crane operation in this study with the Standardized Plant Analysis Risk Human Reliability Analysis Method (SPAR-H). SPAR-H was method used to determine the results of HEP values and dependency factors. The highest HEP value is 0,315 which found in the stage of container crane operation both in loading and unloading activities, containers, gantry movement, and open or close hatches.

Article Details

Section
MASTER 2023

References

V. B. Nguyen, J. Huh, B. K. Meisuh, and Q. H. Tran, “Shake table testing for the seismic response of a container crane with uplift and derailment,” Appl. Ocean Res., vol. 114, no. June, p. 102811, 2021, doi: 10.1016/j.apor.2021.102811.

L. E. Ekasari, “Analisis Faktor Yang Memengaruhi Kecelakaan Kerja Pada Pengoperasian Container Crane Di Pt X Surabaya Tahun 2013– 2015,” Indones. J. Occup. Saf. Heal., vol. 6, no. 1, p. 124, 2017, doi: 10.20473/ijosh.v6i1.2017.124-133.

Suwignyo, D. F. Dhina, and S. T. Rahayu, “Hubungan Faktor Penyebab Kecelakaan Kerja dengan Kejadian Tersayat pada Pembersih Bawang di Pasar Segiri dan Pasar Kedondong Samarinda,” J. Kesmas Uwigama, vol. 4, pp. 79–86, 2018.

R. Darmawan, N. Ummi, and A. Umyati, “Identifikasi Risiko Kecelakaan Kerja dengan Metode Hazard Identification and Risk Assessment (HIRA) di Area Batching Plant PT XYZ,” J. Tek. Ind., vol. 5, no. 3, pp. 308–313, 2017.

M. W. Gati, I. Wahyuni, and E. Ekawati, “Analisis Penyebab Human Error Terhadap Kejadian Kecelakaan Pada Teknisi Di Perusahaan Otomotif X, Semarang,” J. Kesehat. Masy. …, vol. 8, no. September, pp. 665–671, 2020.


N. Sembiring, M. M. Tambunan, and M. Febriani, “Human Error Analysis on Production Process of Door Products with SHERPA and HEART Method,” IOP Conf. Ser. Mater. Sci. Eng., vol. 505, no. 1, 2019, doi: 10.1088/1757-899X/505/1/012025.

M. S. Sanders and E. J. Mccormick, Human Factors in Engineering and Design, Seventh Ed. McGraw-Hili, Inc, 1993.

B. Kirwan, “Human Reliability Assessment Overview of Human Reliability,” Encycl. Quant. Risk Anal. Assess., 2008.

R. Nurhayati, I. Ma’rufi, and R. I. Hartanti, “Penilaian Human Error Probability dengan Metode Human Error Assessment and Reduction Technique (HEART) (Studi di Departemen Finishing PT. Eratex Djaja, Tbk),” e-Jurnal Pustaka Kesehat., vol. 5, no. 3, p. 565, 2017.

F. Rohmawan and D. P. Restuputri, “Penggunaan Metode Heart Dan JSA Sebagai Upaya Pengurangan Human Error Pada Kecelakaan Kerja Di Departemen Produksi,” J. Tek. Ind., vol. 17, no. 1, p. 1, 2017, doi: 10.22219/jtiumm.vol17.no1.1-11.

J. Bell and J. Holroyd, Review of Human Reliability Assessment Methods. Buxton: Health and Safety Laboratory, 2009.

T. D. Riyanti, W. Tambunan, and Y. Sukmono, “Analisis Human Reliability Assessment (HRA) dengan Metode HEART dan SPAR-H (Studi Kasus PT.X),” J. Ind. Manuf. Eng., vol. 5, no. 1, pp. 41–48, 2021.

B. Kirwan, A Guide to Practical Human Reliability Assessment, no. July. British: British Library, 1994.

D. I. Gertman, H. S. Blackman, J. L. Marble, C. Smith, and J. Byers, The SPAR H Human Reliability Analysis method. 2005.

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