Measurements of gaseous H>sub<2>/subsub<4>/sub< by AP-ID-CIMS during CAREBeijing 2008 Campaign Academic Article uri icon

abstract

  • Abstract. As part of the 2008 Campaign of Air Quality Research in Beijing and Surrounding Regions (CAREBeijing 2008), measurements of gaseous sulfuric acid (H2SO4) have been conducted at an urban site in Beijing, China from 7 July to 25 September 2008 using atmospheric pressure ion drift chemical ionization mass spectrometry (AP-ID-CIMS). This represents the first gaseous H2SO4 measurements in China. Diurnal profile of sulfuric acid is strongly dependent on the actinic flux, reaching a daily maximum around noontime and with an hourly average concentration of 5 106 molecules cm3. Simulation of sulfuric acid on the basis of the measured sulfur dioxide concentration, photolysis rates of ozone and nitrogen dioxide, and aerosol surface areas captures the trend of the measured H2SO4 diurnal variation within the uncertainties, indicating that photochemical production and condensation onto preexisting particle surface dominate the observed diurnal H2SO4 profile. The frequency of the peak H2SO4 concentration exceeding 5 106 molecules cm3 increases by 16 % during the period of the summer Olympic Games (824 August 2008), because of the implementation of air quality control regulations. Using a multivariate statistical method, the critical nucleus during nucleation events is inferred, containing two H2SO4 molecules (R2 = 0.85). The calculated condensation rate of H2SO4 can only account for 1025 % of PM1 sulfate formation, indicating that either much stronger sulfate production exists at the SO2 source region or other sulfate production mechanisms are responsible for the sulfate production.

published proceedings

  • Atmospheric Chemistry and Physics

author list (cited authors)

  • Zheng, J., Hu, M., Zhang, R., Yue, D., Wang, Z., Guo, S., ... Zhu, T.

citation count

  • 51

complete list of authors

  • Zheng, J||Hu, M||Zhang, R||Yue, D||Wang, Z||Guo, S||Li, X||Bohn, B||Shao, M||He, L||Huang, X||Wiedensohler, A||Zhu, T

publication date

  • August 2011