National Research Centre for the Working Environment (NRCWE), DK-2100 Copenhagen, Denmark.
Finnish Institute of Occupational Health, FI-00032 Työterveyslaitos, Finland.
Int J Environ Res Public Health. 2021 Jan 7;18(2):418. doi: 10.3390/ijerph18020418.
Pulmonary exposure to micro- and nanoscaled particles has been widely linked to adverse health effects and high concentrations of respirable particles are expected to occur within and around many industrial settings. In this study, a field-measurement campaign was performed at an industrial manufacturer, during the production of paints. Spatial and personal measurements were conducted and results were used to estimate the mass flows in the facility and the airborne particle release to the outdoor environment. Airborne particle number concentration (1 × 10-1.0 × 10 cm), respirable mass (0.06-0.6 mg m), and PM (0.3-6.5 mg m) were measured during pouring activities. In overall; emissions from pouring activities were found to be dominated by coarser particles >300 nm. Even though the raw materials were not identified as nanomaterials by the manufacturers, handling of TiO and clays resulted in release of nanometric particles to both workplace air and outdoor environment, which was confirmed by TEM analysis of indoor and stack emission samples. During the measurement period, none of the existing exposure limits in force were exceeded. Particle release to the outdoor environment varied from 6 to 20 g ton at concentrations between 0.6 and 9.7 mg m of total suspended dust depending on the powder. The estimated release of TiO to outdoors was 0.9 kg per year. Particle release to the environment is not expected to cause any major impact due to atmospheric dilution.
肺部暴露于微米和纳米级粒子已被广泛认为与不良健康影响有关,并且在许多工业环境中,预计会在内部和周围出现高浓度可吸入粒子。在这项研究中,在一家工业制造商生产油漆期间进行了现场测量活动。进行了空间和个人测量,并利用结果估算了设施中的质量流量和向室外环境的空气传播粒子释放。在浇注活动期间,测量到空气传播粒子数浓度(1×10-1.0×10 cm)、可吸入质量(0.06-0.6 mg m)和 PM(0.3-6.5 mg m)。总体而言,浇注活动的排放主要由>300nm 的粗颗粒主导。尽管制造商未将原材料鉴定为纳米材料,但处理 TiO 和粘土会导致纳米级颗粒释放到工作场所空气和室外环境中,这通过室内和烟囱排放样品的 TEM 分析得到证实。在测量期间,未超过现行的任何暴露限制。根据总悬浮粉尘浓度在 0.6 至 9.7mg m 之间的不同,粉末向室外环境的释放量在 6 至 20g 吨之间变化。估计每年向室外释放的 TiO 为 0.9kg。由于大气稀释,预计向环境释放的粒子不会造成任何重大影响。
