A temperature-history based model for the sticking probability of impacting pulverized coal ash particles

A1 Journal article (refereed)


Internal Authors/Editors


Publication Details

List of Authors: Anders Brink, Daniel Lindberg, Mikko Hupa, Marta Escoto de Tejada, Manoj Paneru, Jörg Maier, Günter Scheffknecht, Alessandro Pranzitelli, Mohamed Pourkashanian
Publication year: 2016
Journal: Fuel Processing Technology
Volume number: 141, Part 2
Start page: 210
End page: 215
eISSN: 1873-7188


Abstract

Several investigations have shown that the differences between deposits obtained in oxy-firing and air-firing of coalmainly are due to differences in the flame temperature. Consequently, deposit rate predictions not taking the in-flight history into account are unlikely to be successful. In this paper, a model for predicting the deposit formation propensity of pulverized coal in oxy-fuel and air combustion due to the inertial impaction mechanism is developed and tested. The model builds on the use of viscosity as an indicator of the sticking probability. The composition and amount of the amorphous slag phase in the coal ash are calculated assuming thermodynamic equilibrium. Further, it is assumed that the maximum temperature the ash particle has experienced will control the composition and amount of the amorphous slag phase. As the ash particle impacts the probability to stick is estimated using the viscosity of this melt composition, but with the temperature of particle temperature at the moment of impaction. In the equilibrium calculation no material exchange with the gas phase is assumed. This assumption is based on X-ray diffraction (XRD) investigations of coal ash samples produced in a lab-scale burner simulating oxy-fuel and air combustion. The XRD showed that there was no significant impact on themineralogy of the coal ash caused by the gas atmosphere. The probability of an ash particle to stick as a function of maximum experienced temperature and impact temperaturewas evaluated for three coals. For one of the coals a CFD study on particle deposit is done for a 300 kWth test facility.

Last updated on 2019-18-10 at 04:32