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577 results on '"Maenhaut, W."'

101. Thermal-optical analysis for the measurement of elemental carbon (EC) and organic carbon (OC) in ambient air a literature review.

Author

Karanasiou, A., Minguillón, M. C., Viana, M., Alastuey, A., Putaud, J.-P., Maenhaut, W., Panteliadis, P., Močnik, G., Favez, O., and Kuhlbusch, T. A. J.

Subjects
THERMAL analysis, PYROLYSIS, CARBON compounds
Abstract

Thermal-optical analysis is currently under consideration by the European standardization body (CEN) as the reference method to quantitatively determine organic carbon (OC) and elemental carbon (EC) in ambient air. This paper presents an overview of the critical parameters related to the thermal-optical analysis including thermal protocols, critical factors and interferences of the methods examined, method inter-comparisons, inter-laboratory exercises, biases and artifacts, and reference materials. The most commonly used thermal protocols include NIOSH-like, IMPROVE_A and EUSAAR_2 protocols either with light transmittance or reflectance correction for charring. All thermal evolution protocols are comparable for total carbon (TC) concentrations but the results vary significantly concerning OC and especially EC concentrations. Thermal protocols with a rather low peak temperature in the inert mode like IMPROVE_A and EUSAAR_2 tend to classify more carbon as EC compared to NIOSH-like protocols, while charring correction based on transmittance usually leads to smaller EC values compared to re flectance. The difference between reflectance and transmittance correction tends to be larger than the difference between different thermal protocols. Nevertheless, thermal protocols seem to correlate better when reflectance is used as charring correction method. The difference between EC values as determined by the different protocols is not only dependent on the optical pyrolysis correction method, but also on the chemical properties of the samples due to different contributions from various sources. The overall conclusion from this literature review is that it is not possible to identify the "best" thermal-optical protocol based on literature data only, although differences attributed to the methods have been quantified when possible. [ABSTRACT FROM AUTHOR]

Published
2015
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102. An intercomparison study of analytical methods used for quantification of levoglucosan in ambient aerosol filter samples.

Author

Yttri, K. E., Schnelle-Kreiss, J., Maenhaut, W., Alves, C., Bossi, R., Bjerke, A., Claeys, M., Dye, C., Evtyugina, M., García-Gacio, D., Gülcin, A., Hillamo, R., Hoffer, A., Hyder, M., Iinuma, Y., Jaffrezo, J. L., Kasper-Giebl, A., Kiss, G., López-Mahia, P. L., and Pio, C.

Subjects
HIGH performance liquid chromatography, PYROLYSIS, CELLULOSE, GALACTANS, AEROSOL sampling, HEPA filters
Abstract

The monosaccharide anhydrides (MAs) levoglucosan, galactosan and mannosan are products of incomplete combustion and pyrolysis of cellulose and hemicelluloses, and are found to be major constituents of biomass burning aerosol particles. Hence, am-bient aerosol particle concentrations of levoglucosan are commonly used to study the influence of residential wood burning, agricultural waste burning and wild fire emissions on ambient air quality. A European-wide intercomparison on the analysis of the three monosaccharide anhydrides was conducted based on ambient aerosol quartz fiber filter samples collected at a Norwegian urban background site during winter. Thus, the samples' content of MAs is representative for biomass burning particles originating from residential wood burning. The purpose of the intercomparison was to examine the comparability of the great diversity of analytical methods used for analysis of levoglucosan, mannosan and galactosan in ambient aerosol filter samples. Thirteen laboratories participated, of which three applied High-Performance Anion-Exchange Chromatography (HPAEC), four used High-Performance Liquid Chromatography (HPLC) or Ultra-Performance Liquid Chromatography (UPLC), and six resorted to Gas Chromatography (GC). The analytical methods used were of such diversity that they should be considered as thirteen different analytical methods. All of the thirteen laboratories reported levels of levoglucosan, whereas nine reported data for mannosan and/or galactosan. Eight of the thirteen laboratories reported levels for all three isomers. The accuracy for levoglucosan, presented as the mean percentage error (PE) for each participating laboratory, varied from -63 to 23 %; however, for 62% of the laboratories the mean PE was within ±10 %, and for 85% the mean PE was within ±20 %. For mannosan, the corresponding range was -60 to 69 %, but as for levoglucosan, the range was substantially smaller for a subselection of the laboratories; i.e., for 33% of the laboratories the mean PE was within ±10 %. For galactosan, the mean PE for the participating laboratories ranged from -84 to 593 %, and as for mannosan 33% of the laboratories reported a mean PE within ±10 %. [ABSTRACT FROM AUTHOR]

Published
2014
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106. Characterization of the organic composition of aerosols from Rondônia, Brazil, during the LBA-SMOCC 2002 experiment and its representation through model compounds

Author

Decesari, S., primary, Fuzzi, S., additional, Facchini, M. C., additional, Mircea, M., additional, Emblico, L., additional, Cavalli, F., additional, Maenhaut, W., additional, Chi, X., additional, Schkolnik, G., additional, Falkovich, A., additional, Rudich, Y., additional, Claeys, M., additional, Pashynska, V., additional, Vas, G., additional, Kourtchev, I., additional, Vermeylen, R., additional, Hoffer, A., additional, Andreae, M. O., additional, Tagliavini, E., additional, Moretti, F., additional, and Artaxo, P., additional

Published
2006
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108. Importance of the organic aerosol fraction for modeling aerosol hygroscopic growth and activation: a case study in the Amazon Basin

Author

Mircea, M., primary, Facchini, M. C., additional, Decesari, S., additional, Cavalli, F., additional, Emblico, L., additional, Fuzzi, S., additional, Vestin, A., additional, Rissler, J., additional, Swietlicki, E., additional, Frank, G., additional, Andreae, M. O., additional, Maenhaut, W., additional, Rudich, Y., additional, and Artaxo, P., additional

Published
2005
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112. Characterization of the organic composition of aerosols from Rondônia, Brazil, during the LBA-SMOCC 2002 experiment and its representation through model compounds

Author

Decesari, S., primary, Fuzzi, S., additional, Facchini, M. C., additional, Mircea, M., additional, Emblico, L., additional, Cavalli, F., additional, Maenhaut, W., additional, Chi, X., additional, Schkolnik, G., additional, Falkovich, A., additional, Rudich, Y., additional, Claeys, M., additional, Pashynska, V., additional, Vas, G., additional, Kourtchev, I., additional, Vermeylen, R., additional, Hoffer, A., additional, Andreae, M. O., additional, Tagliavini, E., additional, Moretti, F., additional, and Artaxo, P., additional

Published
2005
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116. Artefacts in the sampling of nitrate studied in the “INTERCOMP” campaigns of EUROTRAC-AEROSOL

Author

Schaap, M., primary, Spindler, G., additional, Schulz, M., additional, Acker, K., additional, Maenhaut, W., additional, Berner, A., additional, Wieprecht, W., additional, Streit, N., additional, Müller, K., additional, Brüggemann, E., additional, Chi, X., additional, Putaud, J.-P., additional, Hitzenberger, R., additional, Puxbaum, H., additional, Baltensperger, U., additional, and ten Brink, H., additional

Published
2004
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117. Intercomparison of methods to measure the mass concentration of the atmospheric aerosol during INTERCOMP2000—influence of instrumentation and size cuts

Author

Hitzenberger, R., primary, Berner, A., additional, Galambos, Z., additional, Maenhaut, W., additional, Cafmeyer, J., additional, Schwarz, J., additional, Müller, K., additional, Spindler, G., additional, Wieprecht, W., additional, Acker, K., additional, Hillamo, R., additional, and Mäkelä, T., additional

Published
2004
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121. Inorganic bromine in the marine boundary layer: a critical review

Author

Sander, R., primary, Keene, W. C., additional, Pszenny, A. A. P., additional, Arimoto, R., additional, Ayers, G. P., additional, Baboukas, E., additional, Cainey, J. M., additional, Crutzen, P. J., additional, Duce, R. A., additional, Hönninger, G., additional, Huebert, B. J., additional, Maenhaut, W., additional, Mihalopoulos, N., additional, Turekian, V. C., additional, and Van Dingenen, R., additional

Published
2003
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129. FIELD COMPARISON OF MEASUREMENT METHODS FOR CARBONACEOUS AEROSOL IN MELPITZ

Author

EVEN, A., primary, MUELLER, K., additional, SPINDLER, G., additional, GNAUK, T., additional, TURSIC, J., additional, PUTAUD, J.-P., additional, FACCHINI, M.C., additional, CHI, X., additional, MAENHAUT, W., additional, HITZENBERGER, R., additional, BERNER, A., additional, BAUER, H., additional, PUXBAUM, H., additional, and BRINK, H.M. TEN, additional

Published
2001
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132. Aerosol optical properties and large-scale transport of air masses: Observations at a coastal and a semiarid site in the eastern Mediterranean during summer 1998

Author

Formenti, P., primary, Andreae, M. O., additional, Andreae, T. W., additional, Galani, E., additional, Vasaras, A., additional, Zerefos, C., additional, Amiridis, V., additional, Orlovsky, L., additional, Karnieli, A., additional, Wendisch, M., additional, Wex, H., additional, Holben, B. N., additional, Maenhaut, W., additional, and Lelieveld, J., additional

Published
2001
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