AEROSOL CHEMICAL CHARACTERIZATION ON BOARD THE DOE G1 AIRCRAFT USING A PARTICLE-INTO-LIQUID-SAMPLER DURING THE TEXAQS 2000 EXPERIMENT

摘要

Knowledge of aerosol chemical composition is key to understanding a number of properties of ambient aerosol particles including sources, sizeumber distribution, chemical evolution, optical properties and human health effects. Although filter based techniques have been widely used to determine aerosol chemical constituents, they generally cannot provide sufficiently fast time resolution needed to investigate sources and chemical evolution that effect aerosol chemical, size and number changes. In order to gain an ability to describe and predict the life cycles of ambient aerosols as a basis for ambient air quality control, fast and sensitive determination of the aerosol chemical composition must be made available. To help to achieve this goal, we deployed a newly developed technique, referred to as PILS (particle-into-liquid-sampler), on the DOE G1 aircraft during the 2000 Texas Air Quality Study (TexAQS 2000) to characterize the major ionic species of aerosol particles with aerodynamic size smaller than 2.5 μm (PM 2.5). The results obtained are examined in the context of other simultaneously collected data for insights into the measurement capability of the PILS system.