The root cause of degradation in the waterwall tubes of an oil-fired power plant was investigated by visual inspection and ultrasonic testing and then further confirmed by electron microscopic analysis. metallographic examination, and hardness measurement. Numerous cases of leakage had occurred on the condenser tubes in recent years at this power plant. A minor amount of seawater penetration into the boiler water via the condenser tubes resulted in the dissolution of copper and aluminum in the waterwall tubes. The aluminum ions reacted with the dissolved oxygen in the boiler water and formed an aluminum oxide layer on the inner surface of the tubes. The thick oxide layer reduced the thermal conductivity of the tubes and resulted in an abnormally high temperature locally. The corrosion rate was thereby accelerated, and oxygen pitting caused by dissolved oxygen was observed, in particular. the corrosion rate of the tubes was further accelerated by the galvanic effect of copper deposits that migrated to the inner surfaces of the waterwall tubes. In addition, a prolonged operation of the waterwall tubes often led to differences in data obtained by ultrasonic testing (UT) and by actual morphology analysis, which could he attributed to detecting method and UT setup.