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  • 1.
    Vasilatou, K.
    et al.
    METAS, Switzerland.
    Wälchli, C.
    METAS, Switzerland.
    Iida, K.
    NMIJ, Japan.
    Horender, S.
    METAS, Switzerland.
    Tritscher, T.
    TSI GmbH, Germany.
    Hammer, T.
    METAS, Switzerland.
    Rissler, Jenny
    RISE Research Institutes of Sweden, Bioekonomi och hälsa, Material- och ytdesign. Lund University, Sweden.
    Gaie-Levrel, F.
    LNE, France.
    Auderset, K.
    METAS, Switzerland.
    Extending traceability in airborne particle size distribution measurements beyond 10 µm: Counting efficiency and unit-to-unit variability of four aerodynamic particle size spectrometers2023Ingår i: Aerosol Science and Technology, ISSN 0278-6826, E-ISSN 1521-7388, Vol. 57, nr 1, s. 24-34Artikel i tidskrift (Refereegranskat)
    Abstract [en]

    The aim of this study was to establish traceable number concentration measurements of airborne particles beyond 10 μm in particle size. To this end, the primary standards for particle number concentration at the National Metrology Institutes of Switzerland and Japan were further developed to extend their measurement capabilities. Details on the upgraded setup are provided. An inter-comparison of the two primary standards using an optical particle counter as transfer standard showed that these agree well within the stated uncertainties at polystyrene (PS) equivalent optical diameter of 15 µm. Subsequently, four Model 3321 (TSI Inc., USA) aerodynamic particle size spectrometers (APS) were calibrated against the primary standard of Switzerland using size-certified PS spheres with optical/aerodynamic diameter up to 20 µm as test aerosols. The counting efficiency profile and unit-to-unit variability of the APS units were determined. The results presented here can be useful for the analysis and interpretation of data collected by the different atmospheric aerosol networks worldwide. The outlined methodology can also be applied in the calibration of automated bio-aerosol monitors. © 2022 The Author(s).

  • 2.
    Weiland, Fredrik
    et al.
    RISE., SP – Sveriges Tekniska Forskningsinstitut, SP Energy Technology Center. Luleå University of Technology, Sweden.
    Nilsson, Patrik T.
    Lund University, Sweden.
    Wiinikka, Henrik
    RISE., SP – Sveriges Tekniska Forskningsinstitut, SP Energy Technology Center. Luleå University of Technology, Sweden.
    Gebart, Rikard
    RISE., SP – Sveriges Tekniska Forskningsinstitut, SP Energy Technology Center. Luleå University of Technology, Sweden.
    Gudmundsson, Anders
    Lund University, Sweden.
    Sanati, Mehri
    Lund University, Sweden.
    Online characterization of syngas particulates using aerosol mass spectrometry in entrained-flow biomass gasification2014Ingår i: Aerosol Science and Technology, ISSN 0278-6826, E-ISSN 1521-7388, Vol. 48, nr 11, s. 1145-1155Artikel i tidskrift (Refereegranskat)
    Abstract [en]

    Entrained flow gasification is a promising technique where biomass is converted to a synthesis gas (syngas) under fuel-rich conditions. In contrast to combustion, where the fuel is converted to heat, CO2, and H2O, the syngas from gasification is rich in energetic gases such as CO and H2. These compounds (CO and H2) represent the building blocks for further catalytic synthesis to chemicals or biofuels. Impurities in the syngas, such as particulates, need to be reduced to different levels depending on the syngas application. The objective of this work was to evaluate the amount of particulates; the particle size distribution and the particle composition from entrained flow gasification of pine stem wood at different operating conditions of the gasifier. For this purpose, online time resolved measurements were performed with a soot particle aerosol mass spectrometer (SP-AMS) and a scanning mobility particle sizer (SMPS). The main advantage of SP-AMS compared to other techniques is that the particle composition (soot, PAH, organics, and ash forming elements) can be obtained with high time resolution and thus studied as a direct effect of the gasifier-operating conditions. The results suggest that syngas particulates were essentially composed of soot at these tested process temperatures in the reactor (1200-1400°C). Furthermore, the AMS analysis showed a clear correlation between the amounts of polycyclic aromatic hydrocarbons (PAH) and soot in the raw syngas. Minimization of soot and PAH yields from entrained flow gasification of wood proved to be possible by further increasing the O2 addition.

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