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general:projections:wm-scenario [2025/04/01 20:39] eisoldgeneral:projections:wm-scenario [2025/04/01 20:44] (current) eisold
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 **Reduction in industrial processes through low-dust filter technology in sinter plants:** **Reduction in industrial processes through low-dust filter technology in sinter plants:**
    
-The assumed potential for reducing dust emissions from sinter plants is taken from the final report of the UBA project LUFT 2030 (Jörß et al., 2014)((Jörß, W., Emele, L., Scheffler, M., Cook, V., Theloke, J., Thiruchittampalam, B., Dünnebeil, F., Knörr, W., Heidt, C., Jozwicka, M., Kuenen, J.J.P., Denier van der Gon, H.A.C., Visschedijk, A.J.H., van Gijlswijk, R.N., Osterburg, B., Laggner, B., Stern, R., Handke, V. (2014): Luftqualität 2020/2030: Weiterentwicklung von Prognosen für Luftschadstoffe unter Berücksichtigung von Klimastrategien, on behalf of the German Envrionment Agency (UBA), Project-Nr. 3710 43 219, UBA-Texte 35/2014, https://www.umweltbundesamt.de/publikationen/luftqualitaet-20202030-weiterentwicklung-von)), where measure P 009 results in dust emissions of less than 10 mg/Nm<sup>3</sup> due to better filter technology, which was assumed to correspond to 66.7 g dust per ton sinter. The affected time series are assigned to the NFR sector 2.C.1. According to the LUFT 2030 project, this technology also causes new split factors for the calculation of PM<sub>2.5</sub> and PM<sub>10</sub>+The assumed potential for reducing dust emissions from sinter plants is taken from the final report of the UBA project LUFT 2030 (Jörß et al., 2014)((Jörß, W., Emele, L., Scheffler, M., Cook, V., Theloke, J., Thiruchittampalam, B., Dünnebeil, F., Knörr, W., Heidt, C., Jozwicka, M., Kuenen, J.J.P., Denier van der Gon, H.A.C., Visschedijk, A.J.H., van Gijlswijk, R.N., Osterburg, B., Laggner, B., Stern, R., Handke, V. (2014): Luftqualität 2020/2030: Weiterentwicklung von Prognosen für Luftschadstoffe unter Berücksichtigung von Klimastrategien, on behalf of the German Environment Agency (UBA), Project-Nr. 3710 43 219, UBA-Texte 35/2014, https://www.umweltbundesamt.de/publikationen/luftqualitaet-20202030-weiterentwicklung-von)), where measure P 009 results in dust emissions of less than 10 mg/Nm<sup>3</sup> due to better filter technology, which was assumed to correspond to 66.7 g dust per ton sinter. The affected time series are assigned to the NFR sector 2.C.1. According to the LUFT 2030 project, this technology also causes new split factors for the calculation of PM<sub>2.5</sub> and PM<sub>10</sub>
  
 The emission factor for PM<sub>10</sub> is calculated by dividing the emission factor for dust by the split factor for PM<sub>10</sub> (0.9). Consequently, the emission factor for PM<sub>2.5</sub> is calculated by dividing the emission factor for dust by the split factor for PM<sub>2.5</sub> (0.84). The emission factor for PM<sub>10</sub> is calculated by dividing the emission factor for dust by the split factor for PM<sub>10</sub> (0.9). Consequently, the emission factor for PM<sub>2.5</sub> is calculated by dividing the emission factor for dust by the split factor for PM<sub>2.5</sub> (0.84).