尼日利亚西南部锯木厂工人的噪声暴露评估

IF 0.9 Q4 ACOUSTICS
Abiola O. Ajayeoba, Adewoye A. Olanipekun, Wasiu A. Raheem, Oluwaseun O. Ojo, Ayowumi R. Soji–Adekunle
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引用次数: 2

摘要

经济型木材加工使用工业机器进行木材的切割、成型、铣削和锯切,从而产生高水平的噪音。已发表的实证研究数据将噪声归类为具有全球意义的环境危害。此外,不同行业和所有可用的工业机器的噪声暴露限值尚未正式确定,因为它目前存在于世界上的发达国家。因此,本研究评估了尼日利亚西南部锯木厂工人的日常噪音暴露情况。首先在奥松州、奥约州、翁多州、埃基蒂州、拉各斯州和奥贡州进行了侦察调查,以选择全面运营并适合研究的锯木厂。每个州两个城市的两家功能齐全的锯木厂最终被选中进行数据收集,总共有24家锯木厂,而每个锯木厂考虑的机器是圆机(CM),刨床(PM)和带锯机(BM)。每个锯木厂考虑CM、PM和BM各两台机器,使CM、PM和BM各有48台机器。使用Extech 407732声级计在6天内(周一至周六)每天早上7点至晚上7点收集声音数据,并以不同的间隔进行三次稳定测量。收集的数据分为三个不同的时间段:机器无工作期(NPm)、机器空闲期(IPm)和机器工作期(WPm)。在P < 0.05的条件下进行双向方差分析(ANOVA),以确定三台机器在空闲和工作期间休息前后的平均声级是否存在显著差异。这样做也是为了确定三台机器在空闲和工作期间收集的结果的声级平均值之间是否存在显著差异。噪声污染等级(Lnp)分别为83.20 dB (PM) ~ 107.65 dB (BM)和93.42 (CM和PM) ~ 116.00 (BM),其中IPm的噪声污染等级最低为95.79 dB, WPm的噪声污染等级最高为102.88 dB。结果表明,所有机器在工作期间的Lnp值均超过90 dB可接受限值(90 dB推荐值),89.6%的CMs、75%的pm和89.6%的BM在空闲期间的Lnp值分别超过90 dB。IPm、WPm和整体的最小和最大噪声剂量水平分别为0.09 (BM)和2.37 (CM)、0.50 (CM)和4.77 (PM)和0.69 (BM)和6.64 (PM)。研究发现,造成锯木厂高噪音水平的根本因素是机器维护不善、使用陈旧和过时的机器、糟糕的清洁策略、有限的空间、工人的疏忽、缺乏个人防护装备和缺乏职业安全培训。该研究建议在考虑的锯木厂实施适当的工作场所做法,例如使用个人防护设备、新式和现代机器、培训和职业安全计划。本作品采用知识共享署名4.0国际许可协议,允许在任何媒体上不受限制地使用、分发和复制,前提是正确引用原创作品。DOI: 10.32604/sv.2021.011639 ARTICLE ech出版社科学
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessment of Noise Exposure of Sawmill Workers in Southwest, Nigeria
Economic wood processing employs the use of industrial machines for cutting, shaping, milling, and sawing timber, thereby leading to the generation of high levels of noise. Published data from empirical studies have categorized noise as an environmental hazard of global significance. Furthermore, noise exposure limits for different industries and all the industrial machines available has not been formally established as it presently exists in developed nations around the world. Therefore, this study assessed the daily exposure of sawmills workers to noise in Southwestern Nigeria. Reconnaissance surveys were first carried out in Osun, Oyo, Ondo, Ekiti, Lagos, and Ogun States to select sawmills that were fully operational and fit for the study. Two fully functional sawmills in two cities of each State were eventually selected for data collection, making a total of 24 sawmills, while the Circular Machines (CM), Planer Machines (PM), and Band-saw Machines (BM) were the machines in each sawmill considered. Two machines each of CM, PM, and BM were considered in each sawmill, making a total of forty-eight (48) machines each of CM, PM, and BM. Sound data were collected between 7 am and 7 pm each day for six days (between Monday and Saturday) using Extech 407732 sound level meter and all stabilized measurements were taken three times at different intervals. The data collected were in three different periods: Machine No-work Period (NPm), Machine Idle Period (IPm), and Machine Working Period (WPm). A two–way Analysis of Variance (ANOVA) was carried out at P < 0.05 to determine whether there is a significant difference in the sound level average before and after the break, for both the idle and working periods of the three machines considered. This was also done to determine whether there is a significant difference between the sound level average of the results collected during idle and working periods of the three machines. Noise Pollution Levels (Lnp) ranged from 83.20 dB (PM) to 107.65 (BM) and 93.42 (CM and PM) – 116.00 (BM) respectively, while IPm also gave the least noise pollution level of 95.79 dB and WPm gave the highest level of 102.88 dB. The results revealed that all the machines’ Lnp values in the working period are more than the 90 dB acceptable limit the recommendation value of 90 dB while 89.6% of CMs, 75% of PMs, and 89.6% of BM had their Lnp above 90 dB in the idle period respectively. The minimum and the maximum noise dose levels for IPm, WPm and overall are 0.09 (BM) and 2.37 (CM), 0.50 (CM), and 4.77 (PM) and 0.69 (BM) and 6.64 (PM) respectively. The study found out that the fundamental contributing factors to the high noise levels in sawmills are poor machine maintenance, use of old and obsolete machines, poor housekeeping strategy, limited space, workers’ negligence, lack of PPE, and lack of occupational safety training. The study recommends that proper workplace practices such as use of personal protective equipment, new and modern machines, training, and occupational safety programmes be implemented in the considered sawmills. This work is licensed under a Creative Commons Attribution 4.0 International License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. DOI: 10.32604/sv.2021.011639 ARTICLE ech T Press Science
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来源期刊
Sound and Vibration
Sound and Vibration 物理-工程:机械
CiteScore
1.50
自引率
33.30%
发文量
33
审稿时长
>12 weeks
期刊介绍: Sound & Vibration is a journal intended for individuals with broad-based interests in noise and vibration, dynamic measurements, structural analysis, computer-aided engineering, machinery reliability, and dynamic testing. The journal strives to publish referred papers reflecting the interests of research and practical engineering on any aspects of sound and vibration. Of particular interest are papers that report analytical, numerical and experimental methods of more relevance to practical applications. Papers are sought that contribute to the following general topics: -broad-based interests in noise and vibration- dynamic measurements- structural analysis- computer-aided engineering- machinery reliability- dynamic testing
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