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  "notes": "The slide illustrates the technical advantage of MCFC in power generation and CO2 concentration.",
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      "text": "CO2 is concentrated by a fuel cell process as a side reaction of power generation.",
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      "text": "Conventional cycle gas turbine produces power from methane combustion. Exhausted gases are cleaned from 90% of their CO2 by the molten carbonate fuel cell. The molten carbonate fuel cell produces additional decarbonized power.",
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      "text": "CO2 is concentrated by a fuel cell process as a side reaction of power generation. For example, a 500 MW plant would produce an additional 120 MW using MCFC instead of consuming 50 MW for conventional capture.",
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      "kind": "source-note",
      "text": "Sources: CCUS Talks: The Technology Cost Curve, GCCSI, 2020; Molten Carbonate Fuel Cell Performance for CO2 Capture from Natural Gas Combined-Cycle Flue Gas, Journal of the Electrochemical Society, 2020; Exxon Mobil Advanced Carbonate Fuel Cell Technology",
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      "text": "Carbonate fuel cell is a promising technology innovation in the power sector that produces electricity while increasing the concentration of CO2 in the flue gas",
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