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Control of iron oxide deposits by using specific polymers is key to maintaining clean heat transfer surfaces and generating passive films within an industrial boiler.
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Several studies have focused in the past on the precipitation mechanism of iron carbonate (FeCO3), which is the dominant corrosion product in CO2 environments observed in the oil and gas industry. The dissolved CO2 species undergo a series of chemical reactions and react with the oxidized iron ions forming FeCO3 as the primary corrosion product. In the past, the thermodynamics of each of these reactions have been thoroughly studied and modified by incorporating the effects of temperature and non-ideality.