Failure analysis of air preheater tubes in a circulating fluidized bed boiler

A tubular air preheater (APH) is located at the cold end in the back pass region of a circulating fluidized bed (CFB) boiler. After five years of operation, a significant number of tubes at the air inlet section of the tube were found to have a leak. Some samples were taken from the site for laboratory analysis. Optical microscopy, scanning electron microscopy-energy dispersive spectroscopy, and other standard laboratory tests were used to analyze the samples. A computational fluid dynamics (CFD) simulation was performed to simulate the temperature distribution in the APH using typical operating parameters of the circulating fluidized bed boiler. Chemical analysis of the tube shows high phosphorus content in the steel above that allowable by the standard. Analytical calculation of the acid dew point temperature indicates that sulfuric acid condenses at 143 ?C. The CFD analysis showed that the tube surface temperature has a skin temperature of less than 143 ?C. This low skin temperature combined with high sulfur content in the coal triggers high condensation of sulfuric acid, which led to severe corrosion and leaks. The high phosphorus content of the steel amplifies the corrosion rate under sulfuric acid deposition. The present work shows how a high phosphorous content in steel accelerates corrosion by sulfuric acid in power plant equipment.

Automated summary

A significant number of tubes in the tubular air preheater (APH) at the cold end of the back pass region of a circulating fluidized bed (CFB) boiler were found to have leaks after five years of operation. Laboratory analysis revealed that the high phosphorus content in the steel and sulfuric acid deposition were the main causes of severe corrosion, leading to the leaks. This study demonstrates how high phosphorus content in steel accelerates corrosion by sulfuric acid in power plant equipment.