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An improved index to predict the slagging propensity of woody biomass on high-temperature regions in utility boilers

Nik Nor Aznizam Nik Norizam, Xin Yang, D.B. Ingham, Janos Szuhánszki, Won Yang, J. Rezende, Lin Ma, Mohamed Pourkashanian

2023Journal of the Energy Institute16 citationsDOIOpen Access PDF

Abstract

Ash deposition-related issues adversely affect the thermal transfer and cause corrosion to biomass fired utility boilers. Various models have been proposed to estimate the slagging propensities for firing biomass fuels of different origins. However, there is no reliable general applicable method that is available for assessing biomass fuel slagging propensities without carrying out extensive experimental testing. In addition, empirical correlations developed for coal produce large inaccuracies when applied to biomass. In this paper, a predictive slagging index, In, has been built by analysing the slagging formations of a range of woody biomass fuels, using the thermodynamic equilibrium modelling tool FactSage, together with the partial least squares regression (PLSR) coupled with cross-validation. The new index has been validated and supported by experimental observations from various literatures. The results obtained with the new index showed a substantially greater success rate in predicting the woody biomass ash slagging propensity when compared with the experimental observations from the literature than the other five conventional slagging indices. The predictive index, In, also successfully predicts the slagging propensities with high accuracy when extended to the application of herbaceous biomass and blended fuel between woody biomass and peat.

Topics & Concepts

Biomass (ecology)Environmental scienceCoalEmpirical modellingPeatWaste managementEngineeringEcologySimulationBiologyThermochemical Biomass Conversion ProcessesCoal Combustion and Slurry ProcessingIron and Steelmaking Processes
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