TY - JOUR
T1 - Results of the 'carbon conference' international aerosol carbon round robin test stage I
AU - Schmid, Heidrun
AU - Laskus, Lothar
AU - Abraham, Hans Jürgen
AU - Baltensperger, Urs
AU - Lavanchy, Vincent
AU - Bizjak, Mirko
AU - Burba, Peter
AU - Cachier, Helene
AU - Crow, Dale
AU - Chow, Judith
AU - Gnauk, Thomas
AU - Even, Arja
AU - ten Brink, Harry M.
AU - Giesen, Klaus-Peter
AU - Hitzenberger, Regina
AU - Hueglin, Christoph
AU - Maenhaut, Willy
AU - Pio, Casimiro
AU - Carvalho, Abel
AU - Putaud, Jean Philippe
AU - Toom-Sauntry, Desiree
AU - Puxbaum, Hans
N1 - DOI: 10.1016/S1352-2310(00)00493-3
Coden: AENVE
Affiliations: Institute for Analytical Chemistry, Vienna University of Technology, Getreidemarkt 9/151, A-1060 Vienna, Austria; Umweltbundesamt, Institute for Water, Soil and Air Hygiene, Corrensplatz 1, D-14195 Berlin, Germany; Ministry of Urban Development, Abt. VIIIA2, Brückenstraße 6, D-10173 Berlin, Germany; Laboratory for Radiochemistry and Environmental Chemistry, University of Bern, Paul Scherrer Institut, CH-5232 Villigen, CH-3012 Bern, Switzerland; National Institute of Chemistry, Hajdrihova 19, SI-1000 Ljubljana, Slovenia; Institut Für Spektrochemie und Angewandte Spektroskopie, Bunsen-Kirchhoff-Str. 11, D-44139 Dortmund, Germany; Laboratoire Des Sciences Du Climat Et De l'Environment, Ave de la Terrasse, 91 198-Gif sur Yvette Cedex, France; Desert Research Institute, 2215 Raggio Parkway, Reno, NV 89512, United States; Institute for Tropospheric Research, Permoserstr. 15, D-04303 Leipzig, Germany; ECN - Energy Research Foundation, P.O. Box 1, 1755 ZG Petten, Netherlands; Niedersächsisches Landesamt Für Ökologie, Göttinger Straße 14, D-30449 Hannover, Germany; Institut Für Experimentalphysik, Bolzmanngasse 5, A-1090 Vienna, Austria; Abt. Luftfremdstoffe/Umwelttechnik, EMPA, Ueberlandstr. 129, CH-8600 Dübendorf, Switzerland; Institute for Nuclear Sciences, University of Gent, Proeftuinstraat 86, B-9000 Gent, Belgium; Department of Environment and Planning, University of Aveiro, 3810 Aveiro, Portugal; Joint Research Centre Ispra, Environment Institute, Atmospheric Process Unit, TP 460, I-21020 Ispra (Va), Italy; Remote Regions Atmospheric Chemistry Laboratory, Environment Canada, Atmospheric Environment Service, 4905 Dufferin Street, Downsview, Ont. M3H 5T4, Canada
Adressen: Puxbaum, H.; Institute for Analytical Chemistry; Vienna University of Technology; Getreidemarkt 9/151 A-1060 Vienna, Austria; email: [email protected]
Source-File: ExpPhysScopus.csv
Import aus Scopus: 2-s2.0-0035116148
Importdatum: 14.02.2007 17:35:20
07.11.2007: Datenanforderung 1968 (Import Sachbearbeiter)
PY - 2001
Y1 - 2001
N2 - An international round robin test on the analysis of carbonaceous aerosols on quartz fiber filters sampled at an urban site was organized by the Vienna University of Technology. Seventeen laboratories participated using nine different thermal and optical methods. For the analysis of total carbon (TC), a good agreement of the values obtained by all laboratories was found (7 and 9% r.s.d.) with only two outliers in the complete data set. In contrast the results of the determination of elemental carbon (EC) in two not pre-extracted samples were highly variable ranging over more than one order of magnitude and the relative standard deviations (r.s.d.) of the means were 36.6 and 45.5%. The laboratories that obtained similar results by using methods which reduce the charring artifact were put together to a new data set in order to approach a 'real EC' value. The new data set consisting of the results of 10 laboratories using seven different methods showed 16 and 24% lower averages and r.s.d. of 14 and 24% for the two not pre-extracted samples. Taking the current filters as 'equivalents' for urban aerosol samples we conclude that the following methods can be used for the analysis of EC in carbonaceous aerosols: thermal methods with an optical feature to correct for charring during pyrolysis, two-step thermal procedures reducing charring during pyrolysis, the VDI 2465/1 method (removal of OC by solvent extraction and thermodesorption in nitrogen) and the VDI 2465/2 method (combustion of OC and EC at different temperatures) with an additional pre-extraction with a dimethyl formamide (DMF)/toluene mixture. Only thermal methods without any correction for charring during pyrolysis and the VDI 2465/2 method were outside the range of twice the standard deviation of the new data set. For a filter sample pre-extracted with the DMF/toluene mixture the average and r.s.d. from all laboratories (20.7œgC; 24.4% r.s.d.) was very similar as for the laboratory set reduced to 10 laboratories (20.6œgC; 19% r.s.d.). Thus DMF pre-extraction appears to improve the performance of the thermal methods without charring during pyrolysis control, e.g. the VDI 2465/2 methods. Copyright Œ 2001 Elsevier Science Ltd.
AB - An international round robin test on the analysis of carbonaceous aerosols on quartz fiber filters sampled at an urban site was organized by the Vienna University of Technology. Seventeen laboratories participated using nine different thermal and optical methods. For the analysis of total carbon (TC), a good agreement of the values obtained by all laboratories was found (7 and 9% r.s.d.) with only two outliers in the complete data set. In contrast the results of the determination of elemental carbon (EC) in two not pre-extracted samples were highly variable ranging over more than one order of magnitude and the relative standard deviations (r.s.d.) of the means were 36.6 and 45.5%. The laboratories that obtained similar results by using methods which reduce the charring artifact were put together to a new data set in order to approach a 'real EC' value. The new data set consisting of the results of 10 laboratories using seven different methods showed 16 and 24% lower averages and r.s.d. of 14 and 24% for the two not pre-extracted samples. Taking the current filters as 'equivalents' for urban aerosol samples we conclude that the following methods can be used for the analysis of EC in carbonaceous aerosols: thermal methods with an optical feature to correct for charring during pyrolysis, two-step thermal procedures reducing charring during pyrolysis, the VDI 2465/1 method (removal of OC by solvent extraction and thermodesorption in nitrogen) and the VDI 2465/2 method (combustion of OC and EC at different temperatures) with an additional pre-extraction with a dimethyl formamide (DMF)/toluene mixture. Only thermal methods without any correction for charring during pyrolysis and the VDI 2465/2 method were outside the range of twice the standard deviation of the new data set. For a filter sample pre-extracted with the DMF/toluene mixture the average and r.s.d. from all laboratories (20.7œgC; 24.4% r.s.d.) was very similar as for the laboratory set reduced to 10 laboratories (20.6œgC; 19% r.s.d.). Thus DMF pre-extraction appears to improve the performance of the thermal methods without charring during pyrolysis control, e.g. the VDI 2465/2 methods. Copyright Œ 2001 Elsevier Science Ltd.
U2 - 10.1016/S1352-2310(00)00493-3
DO - 10.1016/S1352-2310(00)00493-3
M3 - Article
SN - 1352-2310
VL - 35
SP - 2111
EP - 2121
JO - Atmospheric Environment
JF - Atmospheric Environment
IS - 12
ER -