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Analysis of occupational noise for the healthy life according to the job characteristics

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DOI: 10.4236/health.2012.410137    5,711 Downloads   7,696 Views   Citations

ABSTRACT

Noise is known that the physical risk factors defined as any unwanted sound. It can induce the health problems such as hearing loss or annoyance. The objective of this study was to assess the occupational noise exposure of nine groups for twenty peoples according to job characteristics and to compare the noise level by different variables. Personal noise levels were measured for three times using by dosimeters for each participant in Korea. The mean time weighted average noise level (TWA) of total was 73.2 ± 11.5 dBA by American conference of governmental industrial hygienists (ACGIH) standard. Especially, Korean classical music students were highly exposed to 93.2 ± 6.2 dBA but, office workers were 63.2 ± 6.6 dBA. In case of peak sound pressure level (Lpeak), Korean classical music students and firefighters were exposed to the highest level of 151.8 dBC and 145.8 dBC during playing and dispatching, respectively. The analysis of noise level showed that Leq had positive correlations between TWA by ministry of employment and labour (MOEL) (r = 0.98, p < 0.01) and TWA by ACGIH (r = 0.98, p < 0.01). Unlikely other groups, the noise exposure level of the Korean classical music students were exceeded the ACGIH standard. These results suggest that Korean classical music students were exposed high noise level and some solutions are need to reduce the noise exposure level such as using hearing protect device.

Conflicts of Interest

The authors declare no conflicts of interest.

Cite this paper

Lee, L. , Kim, J. , Kim, B. and Kim, J. (2012) Analysis of occupational noise for the healthy life according to the job characteristics. Health, 4, 897-903. doi: 10.4236/health.2012.410137.

References

[1] Wheeler, D., et al. (1950) Noise-induced hearing loss. Archives of Otolaryngology, 51, 344-355. doi:10.1001/archotol.1950.00700020366006
[2] Wickremesinghe, N., et al. (1995) Noise induced hearing loss. Seychelles Medical and Dental Journal, 1, 10-12.
[3] Schmidt, C.W. (2005) Noise that annoys: Regulating unwanted sound. Environmental Health Perspectives, 113, 42-44. doi:10.1289/ehp.113-a42
[4] Ronald, H., et al. (2010) Noise-induced hearing loss in construction workers being assessed for hand-arm vibration syndrome. Canadian Journal of Public Health, 101, 226-229.
[5] Cohen, S. and Weinstein, N. (1981) Non-auditory effects of noise on behavior. Journal of Social Issues, 37, 36-70. doi:10.1111/j.1540-4560.1981.tb01057.x
[6] ?hrstr?m, E. (1995) Effects of low levels of road traffic noise during the night. Journal of Sound and Vibration, 179, 603-615. doi:10.1006/jsvi.1995.0040
[7] Edward, T., et al. (2009) Minimizing sleep disturbance from blast noise producing training activities for residents living near a military installation. The Journal of the Acoustical Society of America, 125, 175-184. doi:10.1121/1.3026325
[8] Mark, B., et al. (2010) A field study of exposure-annoyance relationship of military shooting noise. The Journal of the Acoustical Society of America, 127, 2301-2311. doi:10.1121/1.3337234
[9] Petrick, M.E., Royster, L.H., Royster, J.D. and Reist, P. (1996) Comparison of daily noise exposures in one workplace based on noise criteria recommended by ACGIH and OSHA. American Industrial Hygiene Association Journal, 57, 924-928. doi:10.1080/15428119691014440
[10] Sriwattanatamma, P. and Breysse, P. (2000) Comparison of NIOSH noise criteria and OSHA hearing conservation criteria. American Journal of Industrial Medicine, 37, 334-338. doi:10.1002/(SICI)1097-0274(200004)37:4<334::AID-AJIM2>3.3.CO;2-Q
[11] Chung, I., Chu, I. and Cullen, M.R. (2012) Hearing effects from intermittent and continuous noise exposure in a study of Korean factory workers and firefighters. BMC Public Health, 12, 87. doi:10.1186/1471-2458-12-87
[12] Neitzel, R. and Yost, M. (2002) Task-based assessment of occupational vibration and noise exposures in forestry workers. American Industrial Hygiene Association Journal, 63, 617-627. doi:10.1080/15428110208984748
[13] Kotarbinska, E. and Koziowski, E. (2009) Measurement of effective noise exposure of workers wearing ear-muffs. International Journal of Occupational Safety and Ergonomics, 15, 193-200.
[14] Lee, S.-Y. and Choi, S.-J. (2008) Exposure to noise on railroad operators. Journal of Environmental Health Sciences, 34, 153-160. doi:10.5668/JEHS.2008.34.2.153
[15] Kim, K.-B., et al. (2011) Research on the characteristics and measures of noise exposure on worker wearing acoustic devices. Transactions of the Korean Society for Noise and Vibration Engineering, 21, 615-621. doi:10.5050/KSNVE.2011.21.7.615
[16] Lee, N., et al. (2010) Asymmetrical hearing loss and related factors among the noise exposed male workers. J Kor Soc Occup Environ Hyg, 20, 94-101.
[17] Ahmed, H., et al. (2001) Occupational noise exposure and hearing loss of workers in two plants in eastern Saudi Arabia. The Annals of Occupational Hygiene, 45, 371-380. doi:10.1016/S0003-4878(00)00051-X
[18] Noah, S., et al. (2001) Noise exposure among construction electricians. American Industrial Hygiene Association, 62, 615-621. doi:10.1202/0002-8894(2001)062<0615:NEACE>2.0.CO;2
[19] Fernández, M.D., et al. (2009) Noise exposure of workers of the construction sector. Applied Acoustics, 70, 753-760. doi:10.1016/j.apacoust.2008.07.014
[20] Phillips, S.L. and Mace, S. (2008) Sound level measurements in music practice rooms. Music Performance Research, 2, 36-47.
[21] Miller, V., et al. (2007) Noise exposure levels for student musicians. Medical Problems of Performing Artists, 22, 160.
[22] McBride, D., et al. (1992) Noise and the classical musiscian. British Medical Journal, 305, 19-26.
[23] Reischl, U., et al. (1979) Fire fighter noise exposure. American Industrial Hygiene Association Journal, 40, 482-489. doi:10.1080/15298667991429868
[24] Tubbs, R.L. (1991) Occupational noise exposure and hearing loss in fire fighters assigned to airport fire stations. American Industrial Hygiene Association Journal, 52, 372-378. doi:10.1080/15298669191364893
[25] Lee, L., et al. (2011) Noise exposure according to the time activity pattern and duties of firefighters. Journal of Environmental Health Sciences, 37, 94-101. doi:10.5668/JEHS.2011.37.2.094
[26] Garnither, G.R., et al. (1968) Hazardous exposure impulse noise. The Journal of the Acoustical Society of America, 43, 336-343. doi:10.1121/1.1910785
[27] Melamed, S., et al. (1996) Usefulness of the protection motivation theory in explaining hearing protection device use among male industrial workers. Health Psychology, 15, 209-215. doi:10.1037/0278-6133.15.3.209
[28] Schroeter, J. and Poesselt, C. (1986) The use of acoustical test fixtures for the measurement of hearing protector attenuation. Part II: Modeling the external ear, simulating bone conduction, and comparing test fixture and real-ear data. The Journal of the Acoustical Society of America, 80, 505-527. doi:10.1121/1.394046
[29] Neitzel, R. and Seixas, N. (2005) The effectiveness of hearing protection among construction workers. Journal of Occupational and Environmental Hygiene, 2, 227-238. doi:10.1080/15459620590932154

  
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