Transport and Deposition of Welding Fume Agglomerates in a Realistic Human Nasal Airway.

Annals of Occupational Hygiene Pub Date : 2016-07-01 Epub Date: 2016-04-13 DOI:10.1093/annhyg/mew018
Lin Tian, Kiao Inthavong, Göran Lidén, Yidan Shang, Jiyuan Tu
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引用次数: 29

Abstract

Welding fume is a complex mixture containing ultra-fine particles in the nanometer range. Rather than being in the form of a singular sphere, due to the high particle concentration, welding fume particles agglomerate into long straight chains, branches, or other forms of compact shapes. Understanding the transport and deposition of these nano-agglomerates in human respiratory systems is of great interest as welding fumes are a known health hazard. The neurotoxin manganese (Mn) is a common element in welding fumes. Particulate Mn, either as soluble salts or oxides, that has deposited on the olfactory mucosa in human nasal airway is transported along the olfactory nerve to the olfactory bulb within the brain. If this Mn is further transported to the basal ganglia of the brain, it could accumulate at the part of the brain that is the focal point of its neurotoxicity. Accounting for various dynamic shape factors due to particle agglomeration, the current computational study is focused on the exposure route, the deposition pattern, and the deposition efficiency of the inhaled welding fume particles in a realistic human nasal cavity. Particular attention is given to the deposition pattern and deposition efficiency of inhaled welding fume agglomerates in the nasal olfactory region. For particles in the nanoscale, molecular diffusion is the dominant transport mechanism. Therefore, Brownian diffusion, hydrodynamic drag, Saffman lift force, and gravitational force are included in the model study. The deposition efficiencies for single spherical particles, two kinds of agglomerates of primary particles, two-dimensional planar and straight chains, are investigated for a range of primary particle sizes and a range of number of primary particles per agglomerate. A small fraction of the inhaled welding fume agglomerates is deposited on the olfactory mucosa, approximately in the range 0.1-1%, and depends on particle size and morphology. The strong size dependence of the deposition in olfactory mucosa on particle size implies that the occupation deposition of welding fume manganese can be expected to vary with welding method.

焊接烟尘凝聚体在真实人鼻气道中的传输和沉积。
焊烟是一种含有纳米级超细颗粒的复杂混合物。而不是在一个单一的球体的形式,由于高颗粒浓度,焊接烟尘颗粒凝聚成长直链,分支,或其他形式的紧凑的形状。由于焊接烟雾是一种已知的健康危害,了解这些纳米团块在人体呼吸系统中的运输和沉积具有很大的意义。神经毒素锰(Mn)是焊接烟雾中常见的元素。微粒Mn以可溶性盐或氧化物的形式沉积在人鼻气道的嗅粘膜上,沿嗅神经运输到脑内的嗅球。如果Mn被进一步运输到大脑的基底神经节,它可能会积聚在大脑的部分,这是其神经毒性的焦点。考虑到粒子聚集引起的各种动态形状因素,目前的计算研究主要集中在吸入的焊接烟尘粒子在真实人体鼻腔内的暴露路径、沉积模式和沉积效率。特别注意的是在鼻嗅觉区吸入焊接烟尘聚集物的沉积模式和沉积效率。对于纳米尺度的粒子,分子扩散是主要的运输机制。因此,模型研究中考虑了布朗扩散、流体动力阻力、Saffman升力和重力。在一定的初生颗粒尺寸和每个初生颗粒数目范围内,研究了单球形颗粒、二维平面和直链两种初生颗粒团簇的沉积效率。吸入的一小部分焊接烟尘聚集物沉积在嗅觉粘膜上,大约在0.1-1%的范围内,取决于颗粒大小和形态。嗅觉粘膜中的沉积对颗粒大小有很强的依赖性,这意味着焊接烟雾锰的职业沉积可以随着焊接方法的不同而变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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