Abstract

Monitoring atmospheric deposition fluxes (dry and wet deposition) is of great importance in tracing the environmental fate and behavior of PCDD/Fs. To further understand the characteristics of both dry and wet PCDD/F deposition in Northern China, two cities, namely Harbin and Shijiazhuang were investigated. During 2014, in Harbin, the monthly dry deposition fluxes of total-PCDD/Fs-WHO2005-TEQ ranged between 308 and 1290 pg WHO2005-TEQ m–2 month–1, with an annual flux of 8240 pg WHO2005-TEQ m–2 year–1; however, in Shijiazhuang, the dry deposition fluxes ranged from 699 to 2230 pg WHO2005-TEQ m–2 month–1, with an annual 15400 pg WHO2005-TEQ m–2 year–1. Monthly dry deposition velocities of particle phase total-PCDD/Fs-WHO2005-TEQ are similar, ranging between 0.42 and 0.94 cm s–1 (average 0.59 cm s–1) and between 0.42 and 0.92 cm s–1 (average 0.6 cm s–1) in Harbin and Shijiazhuang, respectively. Due to the low level of rainfall in Northern China, the monthly wet deposition fluxes were in the range of 3–79.9 (369 pg WHO2005-TEQ m–2 year–1) and 0–140 pg WHO2005-TEQ m–2 month–1 (622 pg WHO2005-TEQ m–2 year–1) in Harbin and Shijiazhuang, respectively. In addition, the average scavenging ratios of total-PCDD/Fs-WHO2005-TEQ were 31900 and 30700 in Harbin and Shijiazhuang, respectively. Combined with dry and wet deposition, the annual total (dry + wet) deposition flux in Shijiazhuang (16100 pg WHO2005-TEQ m–2 year–1) is 1.9 times of magnitude higher than that in Harbin (8610 pg WHO2005-TEQ m–2 year–1). The results indicated that the dry deposition flux was the major mechanism for removal of PCDD/Fs from the atmosphere in Northern China. By examining both the PM2.5 level and total-PCDD/Fs-WHO2005-TEQ deposition in Northern China, and comparing the values with those found in other places, it is clear that there is an urgent need to control the particulate emissions in this area.

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.