Multi-stage chemical looping combustion (CLC) for combined cycles with CO 2 capture

Abstract

This paper presents application of the chemical looping combustion (CLC) method in natural gas-fired combined cycles for power generation with CO 2 capture. A CLC combined cycle consisting of single CLC-reactor system, an air turbine, a CO 2-turbine and a steam cycle has been designated as the base-case cycle. The base-case cycle can achieve net plant efficiency of about 52% at an oxidation temperature of 1200 °C. In order to achieve a reasonable efficiency at lower oxidation temperatures, reheat is introduced into the air turbine by employing multi CLC-reactors. The results show that the single reheat CLC-combined cycle can achieve net plant efficiency of above 51% at oxidation temperature of 1000 °C and above 53% at the oxidation temperature of 1200 °C including CO 2 compression to 110 bar. The double reheat cycle results in marginal efficiency improvement as compared to the single reheat cycle. The CLC-cycles are also compared with a conventional combined cycle with and without post-combustion capture in amine solution. All the CLC-cycles show higher net plant efficiencies with close to 100% CO 2 capture as compared to a conventional combined cycle with post-combustion capture, which is very promising.