Tomographic reconstruction of gas plumes using scanning DOAS |
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Authors: | Mattias Johansson Bo Galle Claudia Rivera Yan Zhang |
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Institution: | (1) Department of Radio and Space Science, Chalmers University of Technology, Gothenburg, Sweden |
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Abstract: | This paper presents a method to reconstruct the gas distribution inside a vertical cross section of a gas plume by combining
data from two or more scanning DOAS instruments using a tomographic algorithm. The method can be applied to gas plumes from
any single, elevated point source, such as a volcano or industrial chimney. Such two-dimensional concentration distributions
may prove to be useful for example in plume chemistry, dispersion and environmental impact studies. Here we show the case
with one scanning DOAS instrument located on each side of the plume, which is the easiest and most economic setup as well
as the most useful in routine monitoring of e.g. volcanic gas emissions. The paper investigates the conditions under which
tomographic reconstructions can be performed and discusses limitations of this setup. The proposed method has been studied
theoretically by numerical simulations and has been experimentally tested during two field campaigns, with measurements of
SO2 emissions from a volcano and a power plant. The simulations show that, under good measurement conditions, the algorithm presented
performs well, which is further confirmed by the experimental results. |
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