Numerical study of mixed working ﬂuid in an original oxy-fuel power plant utilizing liquefied natural gas cold energy

Authors: Yixiao Han, Lei Cai, Yanlei Xiang, Yanwen Guan, Wenbin Liu, Lu Yu, Ying Liang

Journal: International Journal of Greenhouse Gas Control

DOI: https://doi.org/10.1016/j.ijggc.2018.09.013

Abstract: Oxy-fuel combustion is considered one of the most promising technologies for carbon capture and storage (CCS) in power plant. The working ﬂuid, which is composed of CO2 and H2O, is obligatory to moderate the combustion temperature in oxy-fuel systems. The content of H2O in the working ﬂuid has a significant inﬂuence on system performance. An original oxy-fuel power plant with the utilization of liquefied natural gas (LNG) cold energy is proposed, and the H2O content in the working ﬂuid is adjustable in the work. The results reveal that when the H2O mass fraction is less than 0.3, the system efficiency increases with the increase of the H2O content in the working ﬂuid. When the H2O mass fraction in the working ﬂuid rises over 0.3, the system efficiency decreases with the increase of H2O content due to the decrease of the recycling heat carried by H2O. The optimum heat transfer eﬀect of the recirculating H2O is obtained when the H2O mass fraction is 0.3, and the optimal thermal efficiency is 58.3%. Compared to dry cycle, the thermal efficiency of the proposed system is increased by 17.3% under the optimum condition.

Keywords: Oxy-fuel combustion, CO2 capture, LNG, Working ﬂuid, H2O content