Carbon dioxide separation from high temperature fuel cell power plants

摘要

High temperature fuel cell technologies, solid oxide fuel cells (SOFCs) and molten carbonate fuel cells (MCFCs), are considered for their potential application to carbon dioxide emission control. Both technologies feature electrochemical oxidisation of natural gas reformed fuels, avoiding the mixture of air and fuel flows and dilution with nitrogen and oxygen of the oxidised products; a preliminary analysis shows how the different mechanism of ion transport attributes each technology a specific advantage for the application to CO_2 separation. The paper then compares in the first part the most promising cycle configurations based on high efficiency integrated SOFC/gas turbine "hybrid" cycles, where CO_2 is separated with absorption systems or with the eventual adoption of a second SOFC module acting as an "afterburner". The second part of the paper discusses how a MCFC plant could be "retrofitted" to a conventional fossil-fuel power station, giving the possibility of draining the majority of CO_2 from the stack exhaust while keeping the overall cycle electrical efficiency approximately unchanged.