Calcium looping with supercritical CO2 cycle for decarbonisation of coal-fired power plant
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Abstract
State-of-the-art integration scenarios of calcium looping (CaL), which is an emerging CO capture technology, assume that excess heat is used to raise steam for the steam cycle and result in a net efficiency penalty of 6.0-8.0% points. In this study, a concept using the supercritical CO cycle (s-CO) instead of the conventional steam cycle is proposed. Retrofit of CaL with recompression s-CO cycle to the 580 MW coal-fired power plant was found to result in a net efficiency penalty of 6.9% points. This is 1% point lower than that for the same system linked with the steam cycle having the same turbine inlet conditions (593.3 °C/242.3 bar). A further reduction of the net efficiency penalty to 5.8% points was achieved through considering a pump instead of a first CO compression stage and increasing the turbine inlet temperature to 620 °C and pressure to 300 bar. As the s-CO cycle's specific capital cost is up to 27% lower than that of the equivalent steam cycle, CaL with s-CO cycle is a viable option for the coal-fired power plant decarbonisation. Moreover, it can be expected that this cycle can be successfully implemented in other high-temperature looping cycles, such as chemical looping combustion.