Development and performance assessment of a novel combined power system integrating a supercritical carbon dioxide Brayton cycle with an absorption heat transformer

• A combined system based on the sCO 2 cycle is proposed for power generation. • An absorption heat transformer is employed to upgrade the sCO 2 cycle waste heat. • The regenerative effect of the sCO 2 cycle is enhanced in the proposed system. • The proposed system can improve thermodynamics and economy by 4.96% and 3.66%. This study aims to investigate the system performance enhancement brought by an absorption heat transformer (AHT) on the supercritical carbon dioxide (sCO 2 ) Brayton cycle. In the proposed sCO 2 /AHT system, the AHT cycle serves as a bottoming cycle to upgrade the energy level of the waste heat in the sCO 2 system, producing high-quality thermal energy output to preheat the CO 2 at the main compressor outlet. System performance is evaluated through the established and validated model. The variation trends of system performance with four key parameters are determined from the parametric analysis. Moreover, optimization and comparative analysis are performed for the sCO 2 system, sCO 2 /ORC system and sCO 2 /AHT system. The results suggest that the sCO 2 /AHT system shows the best system performance. The exergy efficiency of the proposed system is 64.013%, which is 4.96% and 1.87% higher than that of the sCO 2 system, sCO 2 /ORC system. The total product unit cost of the proposed system is 18.903$/GJ, which is 3.66% and 2.24% lower than that of the other two systems. Exergy analysis indicates that compared with the sCO 2 system, the proposed system can effectively reduce the exergy destructions in the pre-cooler (4.97 MW to 1.32 MW) and get a strengthened regeneration effect for the sCO 2 cycle.