J Air Waste Manag Assoc. 2014 Sep;64(9):1054-61. doi: 10.1080/10962247.2014.923350.
In this study, variations of particulate matter (PM) concentrations in subway trains following installation of platform screen doors (PSDs) in the Seoul subway system were investigated. PM samples were collected in the trains on subway lines 1-8 before and after installation of PSDs. It was found that the mean PM10 concentration in the trains after PSDs installation increased significantly by 29.9% compared to that before installation. In particular, the increase of PM10 in line 6 was the highest at 103%. When the relationship between PM10 and PM2.5 was compared, coefficients of determination (r2) before and after PSDs installations were 0.696 and 0.169, respectively. This suggests that air mixing between the platform and the tunnel after PSDs installation was extremely restricted. In addition, the indoor/outdoor PM10 ratio following PSDs installation increased from 1.32 to 2.97 relative to the period with no installed PSDs. Furthermore, this study revealed that PM levels in subway trains increased significantly after all underground PSDs were put in use. Several potential factors were examined that could result in this PM increase, such as train ventilation systems, operational conditions, passenger volume, subway depth, and the length of underground segments. Implications: PM10 concentrations inside the subway trains increased after PSDs installation. This indicates that air quality in trains was very seriously impacted by PSDs. PM10 levels were also influenced by the tunnel depth and length of the underground segments. To prevent the adverse effect on human health by PM10 emitted from the tunnel, an applicable ventilation system to reduce PM10 is required inside trains and tunnels.
本研究调查了首尔地铁系统安装屏蔽门后列车内颗粒物(PM)浓度的变化。在安装屏蔽门之前和之后,在地铁 1-8 号线的列车上采集了 PM 样本。结果发现,与安装屏蔽门之前相比,安装屏蔽门后列车内 PM10 浓度平均增加了 29.9%。特别是,6 号线 PM10 的增加最高,为 103%。当比较 PM10 和 PM2.5 之间的关系时,安装屏蔽门前后的决定系数(r2)分别为 0.696 和 0.169。这表明安装屏蔽门后,站台和隧道之间的空气混合受到了极大的限制。此外,安装屏蔽门后,室内/外 PM10 比值从 1.32 增加到 2.97,与未安装屏蔽门的时期相比。此外,本研究还揭示了所有地下屏蔽门投入使用后,地铁列车内的 PM 水平显著增加。研究检查了几个可能导致 PM 增加的潜在因素,例如列车通风系统、运行条件、客流量、地铁深度和地下段长度。意义:安装屏蔽门后,地铁列车内的 PM10 浓度增加。这表明屏蔽门对列车内空气质量产生了非常严重的影响。PM10 水平还受到隧道深度和地下段长度的影响。为了防止隧道内 PM10 排放对人体健康造成不利影响,需要在列车和隧道内安装适用的通风系统以减少 PM10。
