文摘
Corrosion tests of carbon steel at six typical positions in a CO2 capture pilot plant using amine-based solvent were conducted with simulated flue gas (12 vol % CO2, 18 vol % O2 and 214 ppm SO2). A weight-loss method was used to determine the corrosion rates for about 400 h of experiment. Scanning electron microscopy and energy dispersive X-ray spectroscopy were used to analyze the morphology and compositions of the coupon surface and cross section. The corrosion products on the sample's surface and cross section were analyzed with X-ray diffraction and Raman spectroscopy, respectively. Experimental and theoretical analyses show that the higher corrosion rates among these positions were present at the bottom of the absorber and rich liquid outlet of the rich-lean heat exchanger. The double-layer structure of the corrosion products with different colors was obviously observed on the cross sectional surface of the coupons at the absorber bottom and the stripper inlet. The corrosion products in the inner layer are mainly composed of hematite (伪-Fe2O3) and magnetite (Fe3O4) with traces of goethite (伪-FeOOH), while the outer layer mainly consists of siderite (FeCO3). The inner corrosion products, including 伪-Fe2O3, Fe3O4, and 伪-FeOOH, may come from the decomposition of FeCO3 in the amine-H2O鈥揅O2鈥揙2鈥揝O2 system. An addition of SO2 yields large amounts of hydrogen ion and dissolved oxygen which may induce a higher corrosion rate.