Alloy degradation in a co-firing biomass CFB vortex finder application at 880 °C Article Swipe

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Corrosion Degradation (telecommunications) Alloy Materials science Vortex Environmental science Biomass (ecology) Metallurgy Geology Engineering Meteorology Physics Oceanography Electrical engineering

H. Hagman , Dan Boström , Mats Lundberg , Rainer Backman ·

YOU? · · 2019 · Open Access · · DOI: https://doi.org/10.1016/j.corsci.2019.01.038 · OA: W2912660157

Mechanisms of alloy degradation in a fireside N-S-O-C-H-Cl-Na-K atmosphere at 880 degrees C were elucidated using SEM-EDS, chemical equilibrium calculations, and XRD. Alloys 310S, 800H/HT, and 600 were studied after 0, 8000, and 16,000 h exposure in a boiler co-firing biomass waste. For 310S and 800H/HT it was shown that nitrogen formed internal Cr nitrides lowering the Cr activity and inhibiting internal alloy Cr permeation, and that NaCl and Na2SO4 reacted with Cr oxide to form chromate and to accelerate the S and the Cl pickup. Alloy 600 showed no nitride or major chromate formation.