Evaluation Of Physical Hazard Potential And Health Risk Assessment Using Integrated HRA with ArcGIS®

Favian Hafiz Zain; Bani Isnain Rochmatan Imannudin; Selly Purwasi; Lucky Yudanto Anggoro; Fauzul Azmi; Agrytia Rut Meiriski Aritonang; Eka Fitriani Ahmad

doi:10.55227/ijhet.v4i6.653

Authors

Favian Hafiz Zain D4 - Occupational Safety and Health Program, Politeknik Ketenagakerjaan, Indonesia
Bani Isnain Rochmatan Imannudin D4 - Occupational Safety and Health Program, Politeknik Ketenagakerjaan, Indonesia
Selly Purwasi D4 - Occupational Safety and Health Program, Politeknik Ketenagakerjaan, Indonesia
Lucky Yudanto Anggoro D4 - Occupational Safety and Health Program, Politeknik Ketenagakerjaan, Indonesia
Fauzul Azmi D4 - Occupational Safety and Health Program, Politeknik Ketenagakerjaan, Indonesia
Agrytia Rut Meiriski Aritonang D4 - Occupational Safety and Health Program, Politeknik Ketenagakerjaan, Indonesia
Eka Fitriani Ahmad D4 - Occupational Safety and Health Program, Politeknik Ketenagakerjaan, Indonesia

DOI:

https://doi.org/10.55227/ijhet.v4i6.653

Keywords:

Arcgis®, Health Risk Assessment, Industrial Hygiene, Physical Hazard, Similar Exposure Group.

Abstract

This study evaluates occupational health risks due to exposure to physical factors in the workshop of PT Wesi Kuning Sukses using a quantitative observational design with a cross- sectional approach. The methodology integrates Similar Exposure Groups (SEG), semi- quantitative Health Risk Assessment (HRA), and ArcGIS® spatial modeling. The measurement procedures are based on national technical standard literature studies, including SNI 8427:2017 (noise), SNI 16-7061-2004 (heat), SNI 7062:2019 (lighting), SNI 7054:2019 (vibration), and SNI 16-7060-2004 (UV radiation). The results show noise (93 dBA) and ultraviolet radiation (0.71 µW/cm²) as high-risk priority threats because they exceed the Threshold Limit Value (TLV). Conversely, the parameters of lighting, heat, and vibration are categorized as medium risk according to Permenaker No. 5 of 2018. Spatial analysis identified critical hazard zones within a radius of 0–9 meters, while areas beyond 15 meters were deemed safe for residential use. Although biological monitoring did not reveal acute complaints, latent risks remain. The integration of SEG, HRA, and ArcGIS® proved effective in developing an accurate industrial hygiene management system for long-term occupational health protection.

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References

Donya, M. A. C., Sasmito, B., & Nugraha, A. L. (2020). Visualisasi peta fasilitas umum Kelurahan Sumurboto dengan ArcGIS Online. Jurnal Geodesi UNDIP.

Edwards, D. J., Martek, I., Ejohwomu, O., Aigbavboa, C., & Hosseini, M. R. (2021). Hand-arm vibration management: an operational health and safety strategy framework. International Journal of Building Pathology and Adaptation, 39(5), 811-830.

Fleischer, J., Schulze, V., Klaiber, M., Bauer, J., Zanger, F., Boev, N., ... & Rothaupt, B. (2016). The influence of tool holder technologies on milling performance. Procedia CIRP, 46, 226-229.

Gupta, S., Jain, R., & Sharma, M. (2021). Understanding the impact of physical, chemical, and biological hazards in the workplace: A case study of industrial environments. Environmental Toxicology and Pharmacology, 79, 103417.

Hashimoto, H., Yamada, K., Hori, H., Kumagai, S., Murata, M., Nagoya, T., Nakahara, H., & Mochida, N. (2018). Guidelines for personal exposure monitoring of chemicals: Part III. Journal of Occupational Health.

Hijah, N. F., Setyaningsih, Y., & Jayanti, S. (2021). Iklim kerja, postur kerja, dan masa kerja terhadap kelelahan kerja pada pekerja bengkel las. Jurnal Penelitian dan Pengembangan Kesehatan Masyarakat Indonesia, 2(1), 11–16.

Indonesia. Peraturan Menteri Ketenagakerjaan Republik Indonesia Nomor 5 Tahun 2018 tentang Keselamatan dan Kesehatan Kerja Lingkungan Kerja. Jakarta.

Putra, I. D. G. D. P., Hartanto, A. R., & Arfiani, N. D. (2024). Analisis regulasi higiene industri lingkungan kerja PT Pertamina Patra Niaga – Soekarno Hatta Fuel Terminal and Hydrant Installation. Jurnal Kesehatan (VISIKES).

Rosia, I., Derta, S., Efriyanti, L., & Okra, R. (2022). Penerapan aplikasi ArcGIS dalam pembuatan peta topografi pada pendidikan navigasi darat MPA Jamarsingsia IAIN Bukittinggi. Jurnal Teknologi Informasi dan Pendidikan, 1(3).

Setyaningrum, I., & Widjasena, B. (2014). Analisa pengendalian kebisingan pada penggerindaan di area fabrikasi perusahaan pertambangan. Jurnal Kesehatan Masyarakat, 2(4), 267- 275.

Utama, A. M., Imron, Anggara, A., & Samat. (2025). Pengukuran dan evaluasi faktor fisika pada pekerjaan di perusahaan industri minyak dan gas. Hexatech: Jurnal Ilmiah Teknik, 4(2), 1–XX.

Yadav, A., Talaviya, D., Bansal, A., & Law, M. (2020). Design of chatter- resistant damped boring bars using a receptance coupling approach. Journal of Manufacturing and Materials Processing, 4(2), 53.

Yousefi, F., Mousavi, S. B., Heris, S. Z., & Naghash-Hamed, S. (2023). UV- shielding properties of a cost- effective hybrid PMMA-based thin film coatings using TiO2 and ZnO nanoparticles: a comprehensive evaluation. Scientific Reports, 13(1), 7116.