Abstract
Abstract. A growing number of space-borne instruments measures nitrogen dioxide (NO2) concentrations in the troposphere, but validation of these instruments is hampered by the lack of ground-based and in situ profile measurements. The Royal Netherlands Meteorological Institute (KNMI) has developed a working NO2 sonde. The sonde is attached to a small meteorological balloon and measures a tropospheric NO2 profile. The NO2 sonde has a vertical resolution of 5 m and a measurement range between 1 and 100 ppbv. The instrument is light in weight (0.7 kg), cheap (disposable), energy efficient and not harmful to the environment or the person who finds the package after use. The sonde uses the chemiluminescent reaction of NO2 in an aqueous luminol solution. The NO2-luminol reaction produces faint blue/purple light (at about 425 nm), which is detected by an array of silicon photodiodes. The luminol solution is optimised to be specific to NO2. An on-ground comparison with measurements from a Photolytic Analyser of The National Institute for Public Health and the Environment (RIVM) shows that both instruments measure similar NO2 variations in ambient air. During the Cabauw Intercomparison campaign of Nitrogen Dioxide measuring instruments (CINDI) in June/July 2009, six vertical profiles of NO2 from the ground to a 5 km altitude were measured, which clearly show that the largest amount of NO2 is measured in the boundary layer. The measured boundary layer heights of the NO2 sonde are in good agreement with boundary layer heights determined by a LD40 Ceilometer at Cabauw.
Highlights
Nitrogen dioxide (NO2) is an important pollutant in the atmosphere, because it is toxic for living species, it forms photochemical ozone (O3) and acid rain in the form of nitric acid (HNO3)
A growing number of space-borne instruments measures nitrogen dioxide concentrations in the atmosphere, but validation of these instruments is hampered by lack of groundbased and in situ profile measurements of NO2
This was one of the conclusions from the Atmospheric Composition Change the European Network of Excellence – Accent Troposat-2 (ACCENT-AT2) supported workshop on “Tropospheric NO2 measured by satellites”, at KNMI, De Bilt, The Netherlands from 10 to 12 September 20071
Summary
Nitrogen dioxide (NO2) is an important pollutant in the atmosphere, because it is toxic for living species, it forms photochemical ozone (O3) and acid rain in the form of nitric acid (HNO3). The current study is aimed at the development of an instrument that can measure NO2 in situ, which is cheap (disposable), light in weight, energy efficient, can provide profiles up to 30 km altitude and is not harmful for the environment or the finder of the package. Such an instrument can be launched with a normal weather balloon, typically used for ozone sondes. Differential optical absorption spectroscopy (DOAS; Platt and Perner, 1980) requires an energy consuming broad-band light source and a long optical path This technique is not a good candidate to use with a weather balloon.
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