1 / 15

P. D. Hien, V. T. Bac, N. T. H. Thinh Vietnam Atomic Energy Commission

P. D. Hien, V. T. Bac, N. T. H. Thinh Vietnam Atomic Energy Commission. Observations & Approach. Mean PM 10 = 89 gm -3 , mean PM 2.2 = 37 gm -3 24-h PM 10 > 150 gm -3 on 70-80 days/year,

shamus
Download Presentation

P. D. Hien, V. T. Bac, N. T. H. Thinh Vietnam Atomic Energy Commission

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. P. D. Hien, V. T. Bac, N. T. H. ThinhVietnam Atomic Energy Commission

  2. Observations & Approach • Mean PM10 = 89 gm-3, mean PM2.2 = 37 gm-3 • 24-h PM10 > 150 gm-3 on 70-80 days/year, • Preliminary source characterization showed mineral dust and long-range transport sulfate are dominant in the coarse and fine fraction, • Comparative study on urban and rural pollution would provide significant information on properties and sources of coarse and fine PM10, • For that purpose, coarse and fine PM10 samples were analyzed for elements (Al, Ca, Cl, Fe, K, Mg, Mn, Pb, Si, Ti, V, Zn) by PIXE and water soluble ions (Ca2+, Mg2+, K+, Na+, NH4+, Cl-, SO42-, NO3-) by IC Dionex 600

  3. Hanoi Lucnam

  4. Hanoi-to-Lucnam concentration ratios

  5. Urban vs. rural PM10 ·Coarse mass is 2 times higher in urban • But, fine mass is similar, about 31 gm-3 • Fine SO4, K, K+, BC are similar • Ca2+ (construction), Pb and Zn (vehicle) are from 3-5 times more abundant in urban, ·NH4+ more abundant in rural,

  6. Similar sources of PM10 at two sites • Coarse: Soil-nitrate, soil-sulphate, distant and local coal fly ash, sea salt, ammonium sulphate, • Fine: Long-range transport, soil dust, distant and local coal fly ash, Cl-depleted marine aerosols, biomass burning, But • Vehicle derived dust (coarse and fine) found only at the urban site.

  7. Findings (coarse) • Soil-derived dust 3 times more abundant at urban site, • But coal fly ash is little more abundant at rural site, • Common distant coal burning sources affects both sites • Mineral dust (MD) provides sites for nitrate and sulfate formation by reactions with nitrogen and sulfur gases. • Nitrate bound mainly to Ca-richest soil dust, • Sulfate formed on soil dust (with higher Ca/Si ratio) rather than coal fly ash, • Coarse ammonium sulfate found on soil organic matter fraction

  8. Findings (fine) • The loadings of LRT aerosols are similar (~11 gm-3) and largest at both sites – Trans-boundary pollution. • LRT aerosols are soot particles (containing EC and K) incorporating SO4 & NH4 during atmospheric transport of air masses, • Coal fly ash – largest source at rural and second largest source at Hanoi site, • Vehicles contribute 3 times less than coal burning at Hanoi and insignificant at rural areas. • Biomass burning: 2 times weaker in Hanoi.

  9. Summary

  10. Implications on AQ management · It is a mistake that air quality in rural areas is not “a matter of concern”. In fact, PM2.5 is not less abundant in rural than urban areas, · Coal fly ash and soil dust are major components of PM10 in northern Vietnam that should be adequately addressed to improve air quality, • Toxic nitrogen and sulfur gases are absorbed on soil and soot particles and transformed into nitrate and sulfate, • LRT accounts for ~20% of PM10 mass in both rural and urban areas indicating the importance of transboundary pollition in the region.

More Related