Penilaian Risiko Kebisingan di Area Kerja Industri Farmasi Pasuruan

Article Sidebar

PDF
Published: Mar 8, 2025
Keywords:
Noise, Risk Assessment, Noise Control, Occupational Health, Pharmaceutical Industry

Main Article Content

Revita Dea Sari
Universitas Airlangga
Tri Martiana
Universitas Airlangga
Denny Ardyanto
Universitas Airlangga

Abstract

Noise risks in the work area of the pharmaceutical industry in Pasuruan can have a negative impact on workers' health. The purpose of this study was to measure noise levels, evaluate health risks, and assess the effectiveness of noise control programs. The method used was descriptive analytic with a cross-sectional design, noise measurements were made using a sound level meter to obtain continuous sound pressure levels (Leq). Data were also analyzed using a risk matrix and field observations to identify noise sources. The results showed that the highest noise level in the work area reached 90 dBA, with the main sources coming from the generator and chiller engines, while most of the work area had a relatively low noise risk. Nevertheless, there are several points that exceed the established noise threshold. This study recommends the implementation of technical and administrative controls, including the use of personal protective equipment (PPE) and proper work scheduling, to reduce noise exposure. Periodic monitoring is also recommended to ensure the effectiveness of the applied controls, so as to create a safer working environment for workers.

Downloads

Download data is not yet available.

Article Details

How to Cite
Sari, R. D. ., Martiana, T. ., & Ardyanto, D. . (2025). Penilaian Risiko Kebisingan di Area Kerja Industri Farmasi Pasuruan. CoMPHI Journal: Community Medicine and Public Health of Indonesia Journal, 5(3), 288-297. Retrieved from https://comphi.sinergis.org/comphi/article/view/272
Issue
Vol. 5 No. 3 (2025): Februari
Section
Research Articles
Creative Commons License

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

References

Basner M, Babisch W, Davis A, et al. Auditory and non-auditory effects of noise on health. The Lancet. 2014;383(9925):1325–1332.

Babisch W. Cardiovascular effects of noise on man [Homepage on the Internet]. Acoustical Society of America. 2015;Available from: https://acoustics.org/cardiovascular-effects-of-noise-on-man-wolfgang-babisch/

Peraturan Pemerintah RI. Peraturan Menteri Ketenagakerjaan Republik Indonesia No. 5 Tahun 2018 tentang Keselamatan dan Kesehatan Kerja. 2018;11.

Buksh N, Nargis Y, Yun C, He D, Ghufran M. Occupational Noise Exposure and its Impact on Worker’s Health and Activities. International Journal of Public Health and Clinical Sciences 2018;5(2):180–195.

Pretzsch A, Seidler A, Hegewald J. Health Effects of Occupational Noise. Current Pollution Report [homepage on the Internet] 2021;344–358. Available from: https://doi.org/10.1007/s40726-021-00194-4

Irvani AW, Citrawati M, Nugrohowati N. Gambaran Faktor Risiko Tekanan Darah Sistolik Pada. Majalah Kedokteran Andalas 2020;43(2).

Hardiningtyas D, Sholihah Q, Ciaputra E, Budio SP, Anwar MR. Real-time Noise Risk Assessment as Preventive Action to Occupational Disease in A Pharmaceutical Industry. SHS Web of Conferences [homepage on the Internet] 2024;189:01049. Available from: https://www.shs-conferences.org/10.1051/shsconf/202418901049

ISO 45001. Occupational Health and Safety Management Systems Requirements with Guidance For Use. 2018;

3MTM. 3MTM E-A-RsoftTM Yellow NeonsTM Earplugs 311-1251, Corded, Poly Bag, Large Size, 2000 Pair/Case. 3MTM [Homepage on the Internet]. Available from: https://www.3m.co.id/3M/en_ID/p/d/v000180890/

Setyawan FEB. Prevention of noise induced hearing loss in worker: A literature review. Jurnal Kedokteran dan Kesehatan Indonesia [homepage on the Internet] 2021;Available from: https://journal.uii.ac.id/JKKI/article/view/18128

Satriardi, Puji AA, Meylita A. Analisis Penilaian Risiko Kebisingan Menggunakan Conceptual Model dan Noise Mapping pada Stasiun Engine Romeylit. Jurnal Surya Teknika [homepage on the Internet] 2022;9(1):390–395. Available from: https://ejurnal.umri.ac.id/index.php/JST/article/view/3767

Novia APP. Maintenance of cooling system (chiller) for ventilation and air conditioning system in radioactive waste treatment installation. 2019;

Peraturan Pemerintah RI. Keputusan Menteri Tenaga Kerja Republik Indonesia Nomor: KEP.51/MEN/1999 tentang Nilai Ambang Batas Faktor Fisika di Tempat Kerja. 1999;

Zeinda EM, Hidayat S. Risk Assessment Kecelakaan Kerja pada Pengoperasian Boiler di PT. Indonesia Power Unit Pembangkitan Semarang. The Indonesian Journal of Occupational Safety and Health [homepage on the Internet] 2017;5(2):183. Available from: https://e-journal.unair.ac.id/IJOSH/article/view/4187

Alabdulhadi A, Devey P, Boggess M, Guest M. Personal Noise Exposure Assessment of Kuwaiti Printing Industry Workers. International Journal of Occupational Safety and Ergonomics [homepage on the Internet] 2021;27(2):578–588. Available from: https://www.tandfonline.com/doi/full/10.1080/10803548.2019.1677327

Pangemanan DHC, Engka JNA, Kalesaran AFC. Pengaruh Pajanan Bising terhadap Pendengaran dan Tekanan Darah pada Pekerja Game Center di Kota Manado. Jurnal Biomedik 2012;4(3):133–140.

Rahayu P, Pawenang ET. Faktor yang Berhubungan dengan Gangguan Pendengaran pada Pekerja yang Terpapar Bising di Unit Spinning I PT. Sinar Pantja Djaja Semarang. Unnes Journal of Public Health [homepage on the Internet] 2016;5(2):140. Available from: https://journal.unnes.ac.id/sju/index.php/ujph/article/view/10122

Catur, Asfawi S. Identifikasi Risiko Bahaya Keselamatan dan Kesehatan Kerja (K3) pada Pekerja Meubel UD. Mita Furniture Kalinyamatan Jepara Tahun 2013. Jurnal Kesehatan Visikes 2014;13(1):59–71.