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 …

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 …

In this perspective paper, the research and development of S-CO 2 cycles are analyzed from
two aspects:(i) the system design and analysis and (ii) energy transfer/conversion …

Power tower concentrating solar plants with thermal energy storage will play a key role in
the transition to a low carbon scenario, thanks to be a dispatchable renewable energy …

For coal fired power plant, the supercritical carbon dioxide Brayton cycle (S-CO 2) is difficult
to absorb flue gas heat in a wide temperature range of 120–1500° C. Here, novel methods …

A global transition towards more sustainable production and consumption systems is
underway. This transition processes particularly visible in energy systems, where modern …

The solar power tower (SPT) system integrated with supercritical CO 2 (S–CO 2) Brayton
cycle is a potential flexible power output station to balance supply and demand in the future …

The solar tower power plant technology offers a promising potential for large scale power
generation, amongst various solar-based systems. To decrease the produced electricity cost …

This work presents an innovative indirect supercritical CO 2–air driven concentrated solar
power plant with a packed bed thermal energy storage. High supercritical CO 2 turbine inlet …

The employment of a Printed Circuit Heat Exchanger (PCHE) as a Precooler in an indirect
cooling system of a supercritical CO 2 (sCO 2) power block is the prevailing trend in …