Electrochemical techniques were employed to evaluate the corrosion behavior of stainless steels (i.e., 3 I 7LM. 654SMO and 254SMO) in an attempt to select proper lining materials used in the flue gas desulfurization (FGD) system of a fossil power plant. A direct current polarization technique and alternating current impedance spectroscopy were conducted in a corrosive medium of green solution to measure the corrosion rate and compare the corrosion resistance of the specimens. The results indicated that it was faster to form a passive film on the surface of 3l7LM than on those of 654SMO and 254SMO although the corrosion resistance of the film on 317LM was relatively poor. In contrast, 654SMO and 254SMO exhibited higher resistance to corrosion, especially at elevated temperatures where the passive film of 654SMO remained very stable. In the green solution, a passive film tended to grow on 254SMO but the growth rate decreased with increasing temperature. The passive film was subject to degradation at higher temperatures. Among the tested materials, 654SMO showed the best corrosion resistance in the system.