Publications

Measurements of particles in urban areas around the world. A comparison of levels and causes. NILU F

Sivertsen, B.

Measurements of PANs in the Gulf of Maine region during NEAQS/ICARTT 2004.

Roberts, J.M.; Williams, E.J.; Lerner, B.M.; Murphy, P.; Parrish, D.; Goldstein, A.; Millet, D.; Stohl, A.

Measurements of ozone precursors (non-methane hydrocarbons) in Abu Dhabi. Deliverable 3.1 and 3.2 – data report from the 2016 and 2017 campaigns.

Solberg, Sverre; Schmidbauer, Norbert

NILU

Measurements of non-methane hydrocarbons (NMHC) in Abu Dhabi. Final assessment report.

Solberg, Sverre; Hak, Claudia; Schmidbauer, Norbert; Gopinath, Vinod; Bartonova, Alena

NILU

Measurements of J(NO2) at Ny-Ålesund, Svalbard.

Beine, H J.; Dahlback, A.; Ørbæk, J B.

Measurements of emissions and dispersion calculations for solvents at Weifa AS. NILU OR

Tønnesen, D.

Measurements of dust and ammonia around Aluscan NILU OR

Gram, F.

Monthly values of dustfall is measured at three places around Aluscan and daily values of TSP (PM10 and PM2.5) at two places in 2001-2002. In addition weekly values of NH3 is measured at three places in i 2002.

Measurements of concentrations and fluxes of VOCs by PTR-MS / PTR-ToF-MS: principles, examples and technical challenges. NILU F

Wisthaler, A.

Measurements of CECs under the Norwegian air monitoring program

Halvorsen, Helene Lunder

Measurements of atmospheric mercury species at Zeppelin mountain, spring 2003. NILU PP

Aspmo, K.; Berg, T.

Measurements of air quality near Hydro Aluminium Sunndal, 2002. NILU OR

Hagen, L.O.

Measurements of air quality in Vossevangen, winter season 2005. NILU OR

Hagen, L.O.

Measurements of air quality and corrosion risk at the Railway Museum in Warsaw. NILU OR

Grøntoft, T.

Measurements of the concentration of SO2, of aerosol concentration in air and of the composition and mass of water soluble cations and anions were performed during four seasons, spring, summer, autumn and winter, at two locations of the Railway Museum in Warsaw: Central Warsaw and Sochazew, which is located 50 km west of Warsaw. The time of wetness was calculated from precipitation data available from the Warsaw Targowek meteorological station. The measurements indicated a low to medium corrosivity for the atmospheres, which is typical for northern European inland environments with low chloride concentrations and relatively low SO2 concentration. The measurements indicated that sulphur dioxide SO2 was the main pollutant which gave increased corrosion at the sites, especially in Sochaczew, and that the presence of chloride, Cl-, and sulphate, SO42-, in the aerosol at significant levels contributed to the corrosion. Higher levels of Cl-, SO42- and H+ were measured in Sochaczew than in central Warsaw. The ISO 9223 corrosion category for SO2 and Cl- was 0 in central Warsaw and 1 in Sochaczew, indicating a significant contribution to the corrosion from anthropogenic sources in Sochaczew. The values for SO2 are slightly higher, but the PM10 values are lower, than tolerable levels for immovable (i.e. outdoor) cultural heritage given in a European wide assessment performed for CAFÉ (EU programme: Clean Air For Europe). The main factor that increases the corrosion to a higher ISO category (2-3) at the locations is the relatively humid climate. A further reduction of air pollutants should further reduce the corrosion, but the largest potential protection effect would be from measures to shelter the objects form rain and reduce the humidity in the air around the objects, e.g. by moving vulnerable smaller objects or particularly valuable objects to the indoor or applying other options for sheltering.