Failure analysis and modeling of super heater tubes of a waste heat boiler thermally coupled in ammonia oxidation reactor

Repeated failures have been observed in the outlet region of a few super heater tubes made of 1Cr–0.5Mo steel integrated in a waste heat boiler thermally coupled in an ammonia oxidation reactor. A case study of a failed tube running at around 37,440 h was presented. The bulging of some parts of super heater tubes were observed while the tubes were under normal operational temperature of 480 °C and internal pressure of 44 bar. The tube hardness measurements were carried out on the selected super heater tubes including those of ruptured, unruptured and headers. The relatively high value of hardness, 260 HV, of ruptured part compared to other parts indicates that some phase transformation probably occurred for such a low-alloy 1Cr–0.5Mo steel which led to lower thermal resistance. The dynamic modeling including conservation of energy has been developed in order to show the tube overheating. The main root cause of repeated failures of the super heater tubes was short-term overheating following rapid cooling of the tubes due to sudden stoppage of steam flow inside connecting tubes in the event of unit shut down which reduced the thermal resistance of the tubes over time.

Graphical abstractHgdjkhhfsjaFigure optionsDownload full-size imageDownload as PowerPoint slideHighlights► Failure analysis was carried out on the super heater tubes of WHB. ► Short-term overheating following rapid cooling led to tube phase transformation. ► The dynamic mathematical modeling was developed in the event of shut down. ► Overheating was due to stoppage of steam flow inside the super heater tubes.