Kari Paakkinen scite author profile

in Wiley Online Library (wileyonlinelibrary.com) Ferric sulfate is used as an additive in biomass combustion to convert the released potassium chloride to the less harmful potassium sulfate. The decomposition of ferric sulfate is studied in a fast heating rate thermogravimetric analyzer and a volumetric reaction model is proposed to describe the process. The yields of sulfur oxides from ferric sulfate decomposition under boiler conditions are investigated experimentally, revealing a distribution of approximately 40% SO 3 and 60% SO 2 . The ferric sulfate decomposition model is combined with a detailed kinetic model of gas-phase KCl sulfation and a model of K 2 SO 4 condensation to simulate the sulfation of KCl by ferric sulfate addition. The simulation results show good agreements with experiments conducted in a biomass grate-firing reactor. The results indicate that the SO 3 released from ferric sulfate decomposition is the main contributor to KCl sulfation and that the effectiveness of ferric sulfate addition is sensitive to the applied temperature conditions. V C 2013 American Institute of Chemical Engineers AIChE J, 59: [4314][4315][4316][4317][4318][4319][4320][4321][4322][4323][4324] 2013

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Kari Paakkinen

Release of K, Cl, and S during combustion and co-combustion with wood of high-chlorine biomass in bench and pilot scale fuel beds

Destruction of alkali chlorides using sulphur and ferric sulphate during grate combustion of corn stover and wood chip blends

The effects of pressure, oxygen partial pressure, and temperature on the formation of N2O, NO, and NO2 from pulverized coal

Quality of deposits during grate combustion of corn stover and wood chip blends

Modeling of ferric sulfate decomposition and sulfation of potassium chloride during grate‐firing of biomass

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