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Biomass fly-ash deposition: Dependence of deposition rate on probe/particle temperature in 115–1200 °C range

Roman Weber, Yunus Poyraz, Marco Mancini, Andreas Schwabauer

2021Fuel26 citationsDOIOpen Access PDF

Abstract

Seven biomass fuels were fired to determine the relationship between the ash deposition rate and the probe/ash-particle temperature varied in the 115–1200 °C range. The experiments were carried out at deposition-probe Reynolds number in the 40–60 range and Stokes number in the 0.8–1.9 range. The relationship between the deposition rate and probe/ash-particle temperature was determined to have a U-shape with the largest rates occurring at the largest (in excess of 1100 °C) and the lowest (115 °C) temperatures. When both the flue-gas and probe temperatures were in excess of 1100 °C, inertial impaction was the mechanisms of deposit build up; a correlation between the sticking propensity and (K + Na + Ca)/(Si + Al + Fe) ratio was observed. Thermophoresis was identified as the primary mechanism of deposit build up at 600 °C probe temperatures and 978 °C flue-gas temperature. At probe temperatures around 115 °C, condensation of Potassium salts was substantial, and so was thermophoresis both forming a sticky layer on the deposition surface. Thus, condensation, inertia impaction and thermophoresis have contributed to the deposit build-up at 115 °C probe temperature although in different proportions depending on the fuel combusted.

Topics & Concepts

ThermophoresisDeposition (geology)Analytical Chemistry (journal)ChemistryParticle (ecology)Atmospheric temperature rangeFlue gasCombustionSootCondensationMineralogyMaterials scienceEnvironmental chemistryThermodynamicsNanotechnologyNanoparticlePhysicsBiologyGeologyNanofluidPaleontologyOrganic chemistrySedimentOceanographyThermochemical Biomass Conversion ProcessesCombustion and flame dynamicsParticle Dynamics in Fluid Flows
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