High Temperature Oxidation Behavior of 2.25%Cr-1%Mo Steel Boiler Tubes in Long-Term Exposure to Superheated Steam

Abstract

The ferritic 2.25%Cr-1%Mo steel tube (JIS STBA 24), which is extensively used for superheaters and reheaters in fossil fuel-fired power plant boilers, was subjected to long-term steam oxidation tests of up to 3.6 x 10 7 s (10000 h) to clarify its oxidation behavior in high-temperature steam atmosphere. An equation was also derived to estimate the oxidation temperature of the material from the scale thickness. The validity of this equation was tested with a 2.25%Cr-1%Mo steel reheater tube used in an actual boiler for 3.6x x 10 8 s (100000 h). The results of this study are as follows: (1) It was revealed that the scale which formed on the 2.25%Cr-1%Mo steel tube exposed in steam at 823 to 898 K for 1.08 x 10 6 to 3.6 x 10 7 s comprises two distinctively characterized layers: the outer scale composed of Fe 3 O 4 (including a slight amount of Fe 2 O 3 ) and the inner scale composed of (Fe, Cr) 3 O 4 , each having almost identical thickness. It was also found that the outer scale grows as a result of the outward diffusion of Fe ions and the inner scale as a result of the inward diffusion of O ions. (2) The metal temperature of boiler steel tube, T (K), can be expressed as a function of the scale thickness d (m) and the cumulative service time t (s) by the following equation: ...formule math.... where R is the gas constant (8.314 J.mol -1 .K -1 ). The estimated temperature of the 2.25%Cr-1%Mo steel tube, which had been used in an actual boiler for 3.6 x10 8 s (100000 h), agreed well with the service temperature of the steel tube measured with a thermocouple.