2018, Größ, Johannes, Hamed, Amar, Sonntag, André, Spindler, Gerald, Manninen, Hanna Elina, Nieminen, Tuomo, Kulmala, Markku, Hõrrak, Urmas, Plass-Dülmer, Christian, Wiedensohler, Alfred, Birmili, Wolfram

This paper revisits the atmospheric new particle formation (NPF) process in the polluted Central European troposphere, focusing on the connection with gas-phase precursors and meteorological parameters. Observations were made at the research station Melpitz (former East Germany) between 2008 and 2011 involving a neutral cluster and air ion spectrometer (NAIS). Particle formation events were classified by a new automated method based on the convolution integral of particle number concentration in the diameter interval 2-20 nm. To study the relevance of gaseous sulfuric acid as a precursor for nucleation, a proxy was derived on the basis of direct measurements during a 1-month campaign in May 2008. As a major result, the number concentration of freshly produced particles correlated significantly with the concentration of sulfur dioxide as the main precursor of sulfuric acid. The condensation sink, a factor potentially inhibiting NPF events, played a subordinate role only. The same held for experimentally determined ammonia concentrations. The analysis of meteorological parameters confirmed the absolute need for solar radiation to induce NPF events and demonstrated the presence of significant turbulence during those events. Due to its tight correlation with solar radiation, however, an independent effect of turbulence for NPF could not be established. Based on the diurnal evolution of aerosol, gas-phase, and meteorological parameters near the ground, we further conclude that the particle formation process is likely to start in elevated parts of the boundary layer rather than near ground level.

2017, Schröder, Kerstin, Rothhardt, Manfred, Ecke, Wolfgang, Richter, Uwe, Sonntag, André, Bartelt, Hartmut

Fibre optic sensors are excellent tools to use for monitoring high-voltage current collectors. Because of their small cross section and electrical neutrality, they are easily integrated into the current collector strip and are well specialized for detection of high-speed load events. The conventional contact force measurement with four force sensors below the collector strips can also be simplified by using fibre optic force and acceleration sensors.

2016, Birmili, Wolfram, Weinhold, Kay, Rasch, Fabian, Sonntag, André, Sun, Jia, Merkel, Maik, Wiedensohler, Alfred, Bastian, Susanne, Schladitz, Alexander, Löschau, Gunter, Cyrys, Josef, Pitz, Mike, Gu, Jianwei, Kusch, Thomas, Flentje, Harald, Quass, Ulrich, Kaminski, Heinz, Kuhlbusch, Thomas A.J., Meinhardt, Frank, Schwerin, Andreas, Bath, Olaf, Ries, Ludwig, Gerwig, Holger, Wirtz, Klaus, Fiebig, Markus

The German Ultrafine Aerosol Network (GUAN) is a cooperative atmospheric observation network, which aims at improving the scientific understanding of aerosol-related effects in the troposphere. The network addresses research questions dedicated to both climate- and health-related effects. GUAN's core activity has been the continuous collection of tropospheric particle number size distributions and black carbon mass concentrations at 17 observation sites in Germany. These sites cover various environmental settings including urban traffic, urban background, rural background, and Alpine mountains. In association with partner projects, GUAN has implemented a high degree of harmonisation of instrumentation, operating procedures, and data evaluation procedures. The quality of the measurement data is assured by laboratory intercomparisons as well as on-site comparisons with reference instruments. This paper describes the measurement sites, instrumentation, quality assurance, and data evaluation procedures in the network as well as the EBAS repository, where the data sets can be obtained (doi:10.5072/guan).