Research Article
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Recent Engineering Applications for Noise Reduction in an Automotive Industry

Year 2024, , 207 - 217, 15.03.2024
https://doi.org/10.28979/jarnas.1386648

Abstract

Industrialization harms as it results in the emission of noise into the surroundings and employees. Especially noise is one of the most common causes of hearing disorders and one of the most common occupational diseases in the industry. Reducing the main noise sources has become increasingly urgent since the effect on employee health was negative. Although noise reduction is an important issue in the industry, previous research has not addressed it adequately, particularly in the automotive industry. This paper presented a detailed case study on the reduction of noise in a pilot area of an automotive assembly line. The paper aimed to improve the quality of the working environment by reducing the use of Personal Protective Equipment (PPE) and noise reduction. For this purpose, noise measure tools were used: a Svantec-type noise dosimeter and a sound level meter. In the course of studies, it was creating noise maps (before/after), in order to verify whether the proposed measures will be sufficient. Once the proposed measures have been implemented, a 14.2% reduction in noise levels helped ensure employees’ safety by reducing the need for mandatory PPE. Meanwhile, the noise reduction percentage for AGV is the highest among the five noise sources, at 20.9%. Results showed that the sound pressure levels dropped from 110 dBA to 87 dBA and reduced on average for AGV. Reducing reliance on PPE and implementing noise reduction measures enhances pilot area safety and contributes to a more ergonomic and sustainable work environment. The implementation of this case, the application of the suggested measures, and the subsequent verification approved a considerable reduction in the noise levels in the influenced pilot area, and the measures applied were assessed as highly effective with result rates.

References

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  • T. Y. Chang, C. S. Liu, K. H. Huang, R. Y. Chen, J. S. Lai, B. Y. Bao, High-frequency hearing loss, occupational noise exposure, and hypertension: A cross-sectional study in male workers, Environmental Health 10 (2011) Article Number 35 8 pages.
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  • E. E. Van Kempen, H. Kruize, H. C. Boshuizen, C. B. Ameling, B. A. Staatsen, A. E. De Hollander. The association between noise exposure and blood pressure and ischemic heart disease: A meta-analysis, Environmental Health Perspectives 110 (2002) 307–317.
  • M. Moravec, M. Badida, N. Mikušová, L. Sobotová, J. Švajlenka, T. Dzuro, Proposed options for noise reduction from a wastewater treatment plant: Case study, Sustainability 13 (4) (2021) 2409–2431.
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  • T. S. Bozkurt, S. Y. Demirkale, The field study and numerical simulation of industrial noise mapping, Journal of Building Engineering 9 (2017) 60–75.
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Year 2024, , 207 - 217, 15.03.2024
https://doi.org/10.28979/jarnas.1386648

Abstract

References

  • D. I. Nelson, R. Y. Nelson, M. Concha‐Barrientos, M. Fingerhut, The global burden of occupational noise‐induced hearing loss, American Journal of Industrial Medicine 48 (6) (2005) 446–458.
  • W. Passchier-Vermeer, W. F. Passchier, Noise exposure and public health, Environmental Health Perspectives, 108 (2000) 123–131.
  • R. Nagy, D. Simoiu, K. Menyhardt, L. Bereteu, Noise source monitoring in industrial and residential mixed areas, Applied Mechanics and Materials 430 (2013) 262–265.
  • B. Sadler, Environmental assessment in a changing world. In evaluating practice to improve performance – Final report, Canadian Environmental Assessment Agency, Edmonton, 1996.
  • S. Tak, G. M. Calvert, Hearing difficulty attributable to employment by industry and occupation: an analysis of the national health interview survey–United States, 1997 to 2003, Occupational Environment Medicine 50 (2008) 46–56.
  • J. Qiu, X. He, Evaluation of noise reduction in a cigarette factory, China, International Journal of Physical Science 8 (44) (2013) 2035–2039.
  • I. Deryabin, Noise reduction method in vehicle interior, Transportation Research Procedia, 68 (2023) 642–646.
  • S. A. Akmal, G. Bharathiraja, Analysis of engine mount material for automotive vibration and noise reduction, Materials Today Proceedings 62 (2022) 2235–2239.
  • S. Bennouna, T. Matharan, O. Cheriaux, Automotive HVAC noise reduction (Technical Paper), 10th International Styrian Noise, Vibration & Harshness Congress: The European Automotive Noise Conference, 2018.
  • M. Mahadhir, M. M. A. Buang, A. A. Dahlan, M. H. Khairuddin, M. F. M. Said, Simulation of automotive exhaust muffler for tail pipe noise reduction, Jurnal Teknologi 79 (7-4) (2017) 37–45.
  • T. Y. Chang, C. S. Liu, K. H. Huang, R. Y. Chen, J. S. Lai, B. Y. Bao, High-frequency hearing loss, occupational noise exposure, and hypertension: A cross-sectional study in male workers, Environmental Health 10 (2011) Article Number 35 8 pages.
  • W. O. Gan, H. W. Davies, P. A. Demers, Exposure to occupational noise and cardiovascular disease in the United States, Occupational Environment Medicine 68 (2011) 183–190.
  • S. K. Nawaz, S. Hasnain S. Noise-induced hypertension and prehypertension in Pakistan, Bosnian Journal of Basic Medical Sciences 10 (2010) 239–244.
  • E. E. Van Kempen, H. Kruize, H. C. Boshuizen, C. B. Ameling, B. A. Staatsen, A. E. De Hollander. The association between noise exposure and blood pressure and ischemic heart disease: A meta-analysis, Environmental Health Perspectives 110 (2002) 307–317.
  • M. Moravec, M. Badida, N. Mikušová, L. Sobotová, J. Švajlenka, T. Dzuro, Proposed options for noise reduction from a wastewater treatment plant: Case study, Sustainability 13 (4) (2021) 2409–2431.
  • D. Czopek, K. Sochaczewska, J. Wiciak, The soundscape of the Kościeliska Valley in the Tatra National Park – Case study. in: J. Patricio (Ed.), Euronoise, Madeira, 2021, pp. 727–732.
  • T. S. Bozkurt, S. Y. Demirkale, The field study and numerical simulation of industrial noise mapping, Journal of Building Engineering 9 (2017) 60–75.
  • Türkiye - Legal Gazette (T. C. Resmi Gazete), Çalışanların Gürültü ile İlgili Risklerden Korunmalarına Dair Yönetmelik (28 Jul 2013 - 28721), https://www.resmigazete.gov.tr/eskiler/2013/07/20130728-11.htm, Accessed 6 Nov 2023.
  • Occupational Safety and Health Administration (OSHA) Standards, Code of Federal Regulations (29 CFR) (2017), U. S. Government Publishing Office, Washington, https://www.govinfo.gov/content/pkg/CFR-2020-title29-vol8/pdf/CFR-2020-title29-vol8.pdf, Accessed 6 Nov 2023.
  • W. Fiebig, D. Damian, Use of acoustic camera for noise source localization and noise reduction in the industrial plant, Archives of Acoustics 45 (1) (2020) 111–117.
  • B. Kukulski, T. Wszolek, The research on impulsive events in railway noise generated during passage through a railroad switch, Archives of Acoustics 42 (2017) 441–447.
  • C. Tomozei, F. Nedeff, G. Paraschiv, O. Irimia, G. Ardeleanu, A. C. Petrovici, Mathematical modeling of sound pressure level attenuation transmitted by an acoustic screen in industrial environment, Environmental Engineering and Management Journal 13 (2014) 1743–1749.
There are 22 citations in total.

Details

Primary Language English
Subjects Industrial Engineering
Journal Section Research Article
Authors

Ülge Taş 0000-0002-2376-3735

Ender Pak This is me 0000-0003-4309-0811

Berkay Uğur This is me 0009-0002-8400-9872

Early Pub Date March 15, 2024
Publication Date March 15, 2024
Submission Date November 6, 2023
Acceptance Date January 22, 2024
Published in Issue Year 2024

Cite

APA Taş, Ü., Pak, E., & Uğur, B. (2024). Recent Engineering Applications for Noise Reduction in an Automotive Industry. Journal of Advanced Research in Natural and Applied Sciences, 10(1), 207-217. https://doi.org/10.28979/jarnas.1386648
AMA Taş Ü, Pak E, Uğur B. Recent Engineering Applications for Noise Reduction in an Automotive Industry. JARNAS. March 2024;10(1):207-217. doi:10.28979/jarnas.1386648
Chicago Taş, Ülge, Ender Pak, and Berkay Uğur. “Recent Engineering Applications for Noise Reduction in an Automotive Industry”. Journal of Advanced Research in Natural and Applied Sciences 10, no. 1 (March 2024): 207-17. https://doi.org/10.28979/jarnas.1386648.
EndNote Taş Ü, Pak E, Uğur B (March 1, 2024) Recent Engineering Applications for Noise Reduction in an Automotive Industry. Journal of Advanced Research in Natural and Applied Sciences 10 1 207–217.
IEEE Ü. Taş, E. Pak, and B. Uğur, “Recent Engineering Applications for Noise Reduction in an Automotive Industry”, JARNAS, vol. 10, no. 1, pp. 207–217, 2024, doi: 10.28979/jarnas.1386648.
ISNAD Taş, Ülge et al. “Recent Engineering Applications for Noise Reduction in an Automotive Industry”. Journal of Advanced Research in Natural and Applied Sciences 10/1 (March 2024), 207-217. https://doi.org/10.28979/jarnas.1386648.
JAMA Taş Ü, Pak E, Uğur B. Recent Engineering Applications for Noise Reduction in an Automotive Industry. JARNAS. 2024;10:207–217.
MLA Taş, Ülge et al. “Recent Engineering Applications for Noise Reduction in an Automotive Industry”. Journal of Advanced Research in Natural and Applied Sciences, vol. 10, no. 1, 2024, pp. 207-1, doi:10.28979/jarnas.1386648.
Vancouver Taş Ü, Pak E, Uğur B. Recent Engineering Applications for Noise Reduction in an Automotive Industry. JARNAS. 2024;10(1):207-1.


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