Thermal-power cycles operating with supercritical carbon dioxide (sCO 2) could have a
significant role in future power generation systems with applications including fossil fuel …

The excellent thermo-physical and chemical properties of CO 2 suggest its employment as a
working fluid in power sectors owing to several benefits over the steam cycle. The present …

Against the backdrop of energy conservation and emission reduction, the development of
power generation technology has always been focusing on higher efficiency with lower cost …

Abstract Supercritical CO 2 (S–CO 2) Brayton cycle has been applied to various heat
sources in recent decades, owing to the characteristics of compact structure and high …

A multi-generation system including an absorption chiller, an organic flash cycle, a
concentrated photovoltaic module, a reverse osmosis unit, and thermoelectric modules are …

Exergoeconomic analysis is performed for a novel combined SCRB/ARC (supercritical CO 2
recompression Brayton/absorption refrigeration cycle) in which the waste heat from the …

Supercritical carbon dioxide cycle has been considered as a promising power cycle for
various types of power conversion systems owing to the high thermal efficiency, smaller …

Under the background of carbon reduction, the development of efficient power conversion
system has drawn more important attention. The advantages of high efficiency and …

In the present paper, a thermodynamic simulation platform has been established for
investigating the thermodynamic and exergoeconomic behavior of six SCO 2 Brayton cycle …

Heat transfer fluids play a crucial role in solar thermal power plants. Several novel salt
formulas with higher temperature limit, such as MgCl 2-KCl, have been proposed to serve as …