Department of Environmental Engineering, Dokuz Eylul University, Tinaztepe Campus, Buca, Izmir 35160, Turkey.
Environ Sci Technol. 2021 Apr 20;55(8):4522-4531. doi: 10.1021/acs.est.1c00227. Epub 2021 Mar 26.
A new passive sampling method was developed and characterized to measure atmospheric volatile methyl siloxanes (VMS). The infrastructure of a commercial passive air sampler (PAS) was used along with XAD-2 resin as the adsorbent. Experimental sampling rates (SR) determined using collocated active and passive samplers ranged between 0.0363 (L5) and 0.0561 (D3) m/day and agreed well with the theoretical ones. VMS uptake was highly linear for eight weeks. The precision of the method was very good (<10%). Compared to the other PASs used for VMS, the new method has several advantages (i.e., the sampler is much smaller, it has commercially available components, and the solvent requirement, equipment needed for extraction, and steps for sample preparation are minimal) while achieving similar or lower method detection limits. The developed method was applied to investigate the spatial distribution and possible sources of atmospheric VMS in the Izmir region. Field sampling covered 42 sites representing different source and land use areas. ΣVMS concentrations ranged between 41.4 and 981 ng/m. The dominant VMS was D5 followed by D3 and D4. Spatial distributions indicated that the main VMS sources in the area were urban areas, wastewater treatment plants, and landfills where the VMS-containing products are used and disposed.
开发并表征了一种新的被动采样方法来测量大气挥发性甲基硅氧烷(VMS)。使用商业被动空气采样器(PAS)的基础设施和 XAD-2 树脂作为吸附剂。使用同时采集的主动和被动采样器确定的实验采样率(SR)在 0.0363(L5)和 0.0561(D3)m/天之间,与理论值吻合良好。VMS 的吸收率在八周内呈高度线性。该方法的精密度非常好(<10%)。与用于 VMS 的其他 PAS 相比,新方法具有几个优点(即采样器小得多,它具有商业上可用的组件,并且溶剂要求、萃取所需的设备和样品制备步骤最小),同时实现了类似或更低的方法检测限。所开发的方法用于研究伊兹密尔地区大气 VMS 的空间分布和可能来源。现场采样覆盖了代表不同源和土地利用区的 42 个地点。ΣVMS 浓度在 41.4 和 981 ng/m 之间。主要的 VMS 是 D5,其次是 D3 和 D4。空间分布表明,该地区的主要 VMS 来源是城市地区、污水处理厂和垃圾填埋场,这些地方使用和处置含有 VMS 的产品。
