Atmospheric Measurement Techniques (Jan 2024)

Development of a continuous UAV-mounted air sampler and application to the quantification of CO<sub>2</sub> and CH<sub>4</sub> emissions from a major coking plant

  • T. Han,
  • C. Xie,
  • Y. Liu,
  • Y. Yang,
  • Y. Zhang,
  • Y. Huang,
  • X. Gao,
  • X. Zhang,
  • F. Bao,
  • S.-M. Li

DOI
https://doi.org/10.5194/amt-17-677-2024
Journal volume & issue
Vol. 17
pp. 677 – 691

Abstract

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The development in uncrewed aerial vehicle (UAV) technologies over the past decade has led to a plethora of platforms that can potentially enable greenhouse gas emission quantification. Here, we report the development of a new air sampler, consisting of a pumped stainless coiled tube of 150 m in length with controlled time stamping, and its deployment from an industrial UAV to quantify CO2 and CH4 emissions from the main coking plant stacks of a major steel maker in eastern China. Laboratory tests show that the time series of CO2 and CH4 measured using the sampling system is smoothed when compared to online measurement by the cavity ring-down spectrometer (CRDS) analyzer. Further analyses show that the smoothing is akin to a convolution of the true time series signals with a heavy-tailed digital filter. For field testing, the air sampler was mounted on the UAV and flown in virtual boxes around two stacks in the coking plant of the Shagang Group (steel producer). Mixing ratios of CO2 and CH4 in air and meteorological parameters were measured from the UAV during the test flight. A mass-balance computational algorithm was used on the data to estimate the CO2 and CH4 emission rates from the stacks. Using this algorithm, the emission rates for the two stacks from the coking plant were calculated to be 0.12±0.014 t h−1 for CH4 and 110±18 t h−1 for CO2, the latter being in excellent agreement with material-balance-based estimates. A Gaussian plume inversion approach was also used to derive the emission rates, and the results were compared with those derived using the mass-balance algorithm, showing a good agreement between the two methods.