Experimental study of high temperature corrosion behavior of water-wall tube material in the near-wall reducing atmosphere of NH3-H2S-O2-CO-N2 under pulverized coal-ammonia cofiring condition
- Release Time:2025-10-16
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Date:
2025-10-16Title of Paper:
Experimental study of high temperature corrosion behavior of water-wall tube material in the near-wall reducing atmosphere of NH3-H2S-O2-CO-N2 under pulverized coal-ammonia cofiring conditionJournal:
CORROSION SCIENCESummary:
This study aimed to clarify the corrosion behavior of water-wall tube material (12Cr1MoV) at 400/500℃ in a near-wall reducing atmosphere of H2S-NH3-O2-CO-N2 bal. after exposure time of 168 h, which is closely associated with the conditions of pulverized coal boilers cofiring with ammonia. Corrosion of specimens at 500℃ was more severe than that at 400℃ in the reducing atmosphere with a same NH3 concentration of 5 %. The sulfidation reaction of iron oxide with low valence states due to ammonia reduction was highly promoted by elevating temperature. With the NH3 concentration increasing from 0.5 % to 5 % in the reducing atmosphere, the final mass gain of specimens at 400/500℃ after exposed time of 168 h was obviously increased. Oxidation reaction of iron and its sulfides was dominated during corrosion process at 400℃ in the exposure atmosphere with low NH3 concentration. Higher NH3 concentration of 10 % at low temperature could promote the penetration of N and S elements into base metal more deeply than O element. The penetrated NH3 could directly react with iron matrix to generate Fe4N, which is thermodynamically favored. The periodical alternation of NH3 presence and absence per 24 h in exposure atmosphere accelerated the corrosion of specimens at 400℃. While the O2 concentration increased from 0.1 % to 0.5 % in the reducing atmosphere, the corrosion rate of specimens at 400℃ could be slightly inhibited. The reduction pathway of corroded product Fe2O3 by ammonia follows a same step: Fe2O3→ Fe3O4→ Fe →Fe4N at 400/500℃.Co-author:
Liu Yanjie, Cui Liming, Zhang Yong, Liu Ping, Li Chi, Wang Yibin, Tan HouzhangVolume:
253Translation or Not:
NoDate of Publication:
2025-08-15