草坪和花园设备的声音特征:一项社区试点研究

E. Walker, Jamie L Banks
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引用次数: 4

摘要

在美国,超过1100万台气体驱动的叶片鼓风机(GLB)运行。大多数由效率低下的两冲程发动机提供动力。噪音对一些人来说是无法忍受的,许多社区颁布了限制使用噪音的法令。这项试点研究旨在表征远距离商业级GLB的低频、中频和高频声音成分,评估A加权分贝(dB[A])是否足以描述这种声音,并讨论GLB声音在社区环境中的影响。在使用2台吹叶机和软管真空的现场实验中,在距离操作点(质心)800英尺的间隔处评估时间平均a加权dB(a)(LAEQ)和非加权dB(LEQ)指标,以及低频、中频和高频GLB声音分量。每个GLB在50英尺处的声级与制造商的评级一致。质心处LEQ和LAEQ的2个GLB和软管真空的声音均超过100分贝。在所有距离间隔下,LEQ比LAEQ高11.2-12.5分贝。除高频dB外,该设备发出的所有声音指标均超过世界卫生组织室外白天标准(55 dB),距离质心800英尺。低频分量在距离上的优势表明,与基于dB(a)的度量相比,基于dB的度量更适合描述这种声音。GLB声音在操作点的响度尤其关系到工人和其他经常暴露在附近的人的听觉和非听觉健康。这种声音,特别是其低频成分,能够长距离传播,这表明GLB声音对周围社区有着广泛的影响,并引发了人们对其不利健康影响的担忧。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Characteristics of Lawn and Garden Equipment Sound: A Community Pilot Study
More than 11 million gas powered leaf blowers (GLB) operate in the US. Most are powered by inefficient 2-stroke engines. The noise is intolerable to some and many communities have enacted ordinances restricting their use. This pilot study aimed to characterize the low, medium, and high frequency sound components from commercial grade GLBs over distance, evaluate the adequacy of the A-weighted decibel (dB [A]) to describe this sound, and discuss the impact of GLB sound in a community setting. In a field experiment with 2 leaf blowers and a hose vacuum, the time averaged A-weighted dB(A) (LAEQ) and un-weighted dB (LEQ) metrics, and low, mid, and high frequency GLB sound components were evaluated at intervals out to 800 feet from point of operation (centroid). Sound levels at 50 feet for each GLB were consistent with manufacturer ratings. The sound from the 2 GLBs and hose vacuum exceeded 100 decibels for both LEQ and LAEQ at the centroid. At all distance intervals, LEQ was 11.2–12.5 decibels higher compared with LAEQ. With the exception of the high frequency dB, all sound metrics emitted from this equipment were found to exceed WHO outdoor daytime standards (55 dB) up to 800 feet away from the centroid. The dominance of the low frequency component over distance indicates that a dB-based metric is a more appropriate descriptor of this sound compared with a dB(A)-based metric. The loudness of GLB sound at point of operation is especially concerning for the auditory and non-auditory health of workers and others regularly exposed in close proximity. The ability of this sound - in particular its lower frequency components - to travel over long distances suggests that GLB sound has a wide ranging impact on surrounding communities and raises concerns over its adverse health impacts.
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