This work is to develop a simulated flue gas of combustion heavy oil in laboratory, and to investigate the effect of silicon content in a low alloy steel on the corrosion at 250-500°C. Field test was also done. The result indicates that the steel with 0.46 wt%〞Si possesses better corrosion resistance than that with 0.21 wt%Si. X-ray diffraction and EPMA studies reveal that the corrosion resistant mechanism is due to the preferential oxidation of Si over Fe. Iron oxide rich in Si is produced at the scale/base metal interface and retards further diffusion of iron ions or oxygen ions. Furthermore, the Si rich-Iron oxide of the: former steel is thicker than that of the latter steel and may promote the path of the retardation of ions. The corrosion rate is thus reduced.