Corrosion of carbon steel and alloys in ammonium chloride salt

The corrosion behavior and the hygroscopic properties of solid ammonium chloride (NH₄Cl) salt are investigated. This study was conducted to determine the root cause of aggressive corrosion due to wet NH₄Cl salt deposition in reactor effluent streams in hydroprocessing units. In addition, the corrosion resistance and behavior of carbon steel and alloys in high-concentration NH₄Cl solutions were investigated.

Corrosion and water-absorption tests were performed under various relative humidity (RH) conditions with solid NH₄Cl salts using a temperature-and humidity-controlled chamber. Eight types of materials commonly used in refineries were examined. UNS K02702 (carbon steel)was corroded above 20% RH. Its highest corrosion rate was observed at 60% RH and 80 °C. It was suggested that the corrosion of NH₄Cl is the most severe around a critical RH, above which water absorption becomes significant.

Immersion tests were performed in boiling 20 wt% and 40 wt% NH₄Cl solutions with eighteen materials. The corrosion rates of carbon steel were as high as 25.4 mm/y and 60.4 mm/y in 20 wt% and 40 wt% NH₄Cl solutions, respectively. Pitting was observed in UNS S41000, UNS S40500, UNS S32100, UNS S30403, UNS S31603 and UNS N08800. The maximum pit depth had a close relationship with the Pitting Resistant Equivalent Number (PREN). Neither general corrosion nor pitting was observed in titanium alloys and alloys with a PREN of 40 and higher. The corrosion rate of UNS K02702 increased with increasing temperature, and the increase was especially rapid in the higher temperature range.