Your search keyword '"Bejan, I."' showing total 2 results

1. Development of a new LOPAP instrument for the detection of O3 in the atmosphere

Author

Peters, S., Bejan, I., Kurtenbach, R., Liedtke, S., Villena, G., Wiesen, P., and Kleffmann, J.

Subjects

*ATMOSPHERIC ozone, *PHOTOMETERS, *ABSORPTION, *ATMOSPHERIC nitrogen dioxide, *ULTRAVIOLET radiation, *CHEMICAL reactions

Abstract

Abstract: A simple O3-LOPAP (Long Path Absorption Photometer) instrument for the selective detection of O3 in the atmosphere is presented, which is mainly intended to be used as an extension of a recently developed NO2-LOPAP. O3 is sampled in a stripping coil by a selective chemical reaction with the highly absorbing Indigo dye. The reduction of the optical absorption of the dye is detected in a liquid core waveguide. The instrument has a detection limit of 0.4 ppbv, an accuracy of 10%, a precision of 2% for 6 min time resolution and allows the absolute quantification of O3 according to Lambert–Beer''s law. Interferences towards nitrogen oxides (NO and NO2), N2O5, H2O2 and several VOCs were quantified in the laboratory and found to be negligible for atmospheric conditions. The new instrument was successfully validated against a commercial UV-absorption instrument during an urban field campaign and against the FTIR technique in a smog chamber under complex photosmog conditions. For the UV-absorption instrument significant positive interferences towards aromatic species were observed in the smog chamber. [Copyright &y& Elsevier]

Published

2013

2. Interferences of commercial NO2 instruments in the urban atmosphere and in a smog chamber.

Author

Villena, G., Bejan, I., Kurtenbach, R., Wiesen, P., and Kleffmann, J.

Subjects

*ATMOSPHERIC nitrogen dioxide, *CHEMILUMINESCENCE, *MOLYBDENUM, *SPECTRUM analysis, *FOURIER transform spectroscopy

Abstract

The article presents a study which compares the performances of different commercial nitrogen dioxide (NO2) instruments and a NO2-LOPAP in the urban atmosphere and in a smog chamber in Santiago de Chile. A field experiment was conducted wherein chemiluminescence instruments with molybdenum or photolytic converters were compared to NO2-LOPAP with spectroscopic techniques to detect interferences. Results show strong interferences and agreements in all instruments.

Published

2011