An Assessment Model for Occupational Health and Safety Risk of Street Lighting Poles Fabrication

Authors

  • Kirana Rukmayuninda Ririh Industrial Engineering, Faculty of Engineering, Universitas Pancasila, Jl. Raya Lenteng Agung No.56-80, Jakarta, Indonesia
  • Nur Yulianti Hidayah Industrial Engineering, Faculty of Engineering, Universitas Pancasila, Jl. Raya Lenteng Agung No.56-80, Jakarta, Indonesia
  • Desinta Rahayu Ningtyas Industrial Engineering, Faculty of Engineering, Universitas Pancasila, Jl. Raya Lenteng Agung No.56-80, Jakarta, Indonesia
  • Haris Adi Siswantoro Industrial Engineering, Faculty of Engineering, Universitas Pancasila, Jl. Raya Lenteng Agung No.56-80, Jakarta, Indonesia

DOI:

https://doi.org/10.15282/jmmst.v6i1.6909

Keywords:

Hazards, HIRARC, Kipling Method, Risk Management

Abstract

Engineering, Procurement, and Construcion company is vulnerable to risks of environment and health. There are several techniques for examining occupational safety and health, especially in risk analysis. This study is intended to evaluate environmental safety and health at street lighting poles project in EPC Company, named PT. Duta Hita Jaya. Primary and secondary datas were used. As primary data, observation-questionnaires-and interviews were conducted. Historical data of work accident and other documents related to working procedures was being used as secondary datas. Four respondents involved to answer the questionnaires. HIRARC model was applied to define potential risks that might occur. In addition, 5W1H or Kipling Method was implemented to construct strategies of minimizing the risks. This study reveals that during fabrication, materials transporting-assembling-finishing have high exposures to risks. Particularly, risk of being exposed to sparks is the highest risk with score of 9.

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Published

2022-03-31

How to Cite

Rukmayuninda Ririh, K., Hidayah, N. Y., Rahayu Ningtyas, D., & Adi Siswantoro, H. (2022). An Assessment Model for Occupational Health and Safety Risk of Street Lighting Poles Fabrication. Journal of Modern Manufacturing Systems and Technology, 6(1), 9–22. https://doi.org/10.15282/jmmst.v6i1.6909

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