Understanding cryogenic frost point hygrometer measurements after contamination by mixed-phase clouds

Jorge, Teresa; Dirksen, Ruud; Brunamonti, Simone; Luo, Bei P.; Wienhold, Frank G.; Körner, Susanne; Fadnavis, Suvarna; Oelsner, Peter; Naja, Manish; Sing, Bhupendra B.; Peter, Thomas; Poltera, Yann; Hanumanthu, Sreeharsha

doi:10.5194/amt-2020-176

Journal Article

FZJ-2020-03305

Understanding cryogenic frost point hygrometer measurements after contamination by mixed-phase clouds

Jorge, T. (Corresponding author)Extern* ; Brunamonti, S. ; Poltera, Y.Extern* ; Wienhold, F. G. ; Luo, B. P. ; Oelsner, P. ; Hanumanthu, S.FZJ* ; Sing, B. B. ; Körner, S. ; Dirksen, R. ; Naja, M. ; Fadnavis, S. ; Peter, T.

2020
Copernicus Katlenburg-Lindau

Atmospheric measurement techniques -, - (2020) [10.5194/amt-2020-176]

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Please use a persistent id in citations: http://hdl.handle.net/2128/25814 doi:10.5194/amt-2020-176

Abstract: Abstract. Balloon-borne water vapour measurements in the (sub)tropical upper troposphere and lower stratosphere (UTLS) by means of frost point hygrometers provide important information on air chemistry and climate. However, the risk of contamination from sublimating hydrometeors collected by the intake tube may render these measurements difficult, particularly after crossing low clouds containing supercooled droplets. A large set of measurements during the 2016–2017 StratoClim balloon campaigns at the southern slopes of the Himalayas allows us to perform an in-depth analysis of this type of contamination. We investigate the efficiency of wall-contact and freezing of supercooled droplets in the intake tube and the subsequent sublimation in the UTLS using Computational Fluid Dynamics (CFD). We find that the airflow can enter the intake tube with impingement angles up to 60°, owing to the pendulum motion of the payload. Supercooled droplets with radii > 70 μm, as they frequently occur in mid-tropospheric clouds, typically undergo contact freezing when entering the intake tube, whereas only about 50 % of droplets with 10 μm radius freeze, and droplets 100 ppmv) in the stratosphere. Furthermore, we use CFD to differentiate between stratospheric water vapour contamination by an icy intake tube and contamination caused by outgassing from the balloon and payload, revealing that the latter starts playing a role only at high altitudes (p

Classification:

ddc:550

Contributing Institute(s):

Stratosphäre (IEK-7)

Research Program(s):

244 - Composition and dynamics of the upper troposphere and middle atmosphere (POF3-244) (POF3-244)

Appears in the scientific report 2020

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Record created 2020-10-02, last modified 2024-07-12

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