2015
DOI: 10.5194/amt-8-69-2015
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An airborne perfluorocarbon tracer system and its first application for a Lagrangian experiment

Abstract: Abstract.A perfluorocarbon tracer system (PERTRAS), specifically designed for Lagrangian aircraft experiments, has been developed by the Deutsches Zentrum für Luft-und Raumfahrt (German Aerospace Center, DLR). It consists of three main parts: a tracer release unit (RU), an adsorption tube sampler (ATS), and a tracer analytical system. The RU was designed for airborne tracer release experiments; meanwhile, it can be used on various platforms for different experimental purposes (here research vessel). PERTRAS wa… Show more

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Cited by 6 publications
(4 citation statements)
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“…8) display air mass transport from east to west over the 24 h preceding each measurement. Note that FLEXPART trajectories west of Borneo (south of 4 • N, not shown here) agree well with HYSPLIT trajectories used for an airborne tracer experiment conducted during the SHIVA campaign (Ren et al, 2015). For better visibility, we split the trajectories into five different groups according to slightly different transport patterns.…”
Section: Horizontal Ovoc Transportmentioning
confidence: 54%
See 1 more Smart Citation
“…8) display air mass transport from east to west over the 24 h preceding each measurement. Note that FLEXPART trajectories west of Borneo (south of 4 • N, not shown here) agree well with HYSPLIT trajectories used for an airborne tracer experiment conducted during the SHIVA campaign (Ren et al, 2015). For better visibility, we split the trajectories into five different groups according to slightly different transport patterns.…”
Section: Horizontal Ovoc Transportmentioning
confidence: 54%
“…FLEXPART calculates transport, dispersion and convection of the air parcels from the horizontal and vertical wind fields, temperature, specific humidity, convective and large-scale precipitation. The chemical decay of the OVOCs was prescribed by their atmospheric lifetime, which was set to 14 h for butanal (Calvert, 2011), 15 h for propanal (Rosado-Reyes and Francisco, 2007), 1 day for acetaldehyde (Millet et al, 2010), 10 days for butanone (Calvert, 2011) and 18 days for acetone (Khan et al, 2015). A second set of simulations was conducted to analyze possible sources of the observed atmospheric mixing ratios.…”
Section: Ovoc Atmospheric Transport Modelingmentioning
confidence: 99%
“…Establishing a connection between the timing and location of the inflow area and the corresponding outflow of a convective system is the most critical aspect of this type of study, since Lagrangian experiments are practically not possible. One way to establish an unambiguous connection between in-and outflow would be through the use of an artificial tracer released in the inflow area (Ren et al, 2015), ideally from a second airplane. Here we have to rely on sequential measurement, first in the outflow and later in the potential inflow area.…”
Section: Discussionmentioning
confidence: 99%
“…The approach in our study is, for the first time, to specifically focus on studying the transport along a WCB by the release and re-sampling of a synthetic inert tracer (Ren et al, 2015). For completeness, we briefly note that Lagrangian matches have also been applied in research on stratospheric chemistry, for instance, by Rex et al (1998) to infer ozone loss rates in the Arctic stratosphere from ozonesonde measurements and by Fueglistaler et al (2002) to study the Lagrangian evolution of polar stratospheric clouds from consecutive airborne lidar observations. Since the majority of the WCBs occur over ocean (e.g.…”
Section: Introductionmentioning
confidence: 99%