The NO<sub>2</sub> camera based on gas correlation spectroscopy

Abstract: Abstract. Spectroscopic methods have proven to be reliable and of high selectivity by utilizing the characteristic spectral absorption signature of trace gases such as NO2. However, they typically lack the spatiotemporal resolution required for real-time imaging measurements of NO2 emissions. We propose imaging measurements of NO2 in the visible spectral range using a novel instrument, an NO2 camera based on the principle of gas correlation spectroscopy (GCS). For this purpose two gas cells (cuvettes) are plac… Show more

“…For the quantification of point source emissions, the focus of this study is set to the horizontal transport close to the point source, where spatial gradients are largest. As shown in Kuhn et al (2022), power plant emissions at 200 m stack height quickly rise to about 500 m within the first hundred meters. Brunner et al (2019) investigated the effective height of CO 2 emissions for atmospheric transport simulations.…”

Improved catalog of NO_x point source emissions (version 2)

“…For the quantification of point source emissions, the focus of this study is set to the horizontal transport close to the point source, where spatial gradients are largest. As shown in Kuhn et al (2022), power plant emissions at 200 m stack height quickly rise to about 500 m within the first hundred meters. Brunner et al (2019) investigated the effective height of CO 2 emissions for atmospheric transport simulations.…”

Improved catalog of NO_x point source emissions (version 2)

Imaging trace gas concentrations with a compact snapshot device that converts their spectral features into a polarization signal