Abstract The supercritical CO 2 (S-CO 2) Brayton cycle has drawn much attention in the field
of thermal cycles due to its merits of high efficiency, simple layout and compact …

The small modular fluorid-salt-cooled high temperature reactor has a higher core outlet
temperature, and the Rankine cycle cannot meet the design requirements of this type …

The objective of the present work is the investigation of a regenerative supercritical Brayton
cycle (SBC) and its combination with an organic Rankine cycle (ORC). The study includes …

A cogeneration system is proposed for power and fresh water production in which the waste
heat from a supercritical CO 2 recompression Brayton cycle is utilized to power a …

The supercritical CO 2 Brayton power cycle is considered as a promising primary mover of
the combined cooling, heating, and power system to potentially provide higher efficiency …

The waste heat from a supercritical Brayton cycle has a great potential to be recovered.
However, there is a lack of research regarding the utilization of these cycles in multi …

Multi-effect desalination (MED) systems are highly promising for high salinity seawaters at
large scales, and hence are used broadly in desalination plants. Despite the fact that the …

This work analyses the integration of concentrated solar power plants based on innovative
sCO 2 cycles and transcritical CO 2-based mixtures cycles with thermal desalination plants …

This study analyzes the energy and exergy of a novel arrangement of a solar driven organic
Rankine cycle (ORC), two reverse osmosis (RO) desalination systems, and a multi-effect …

A superstructure-based method is applied to optimize the design of supercritical carbon
dioxide cycle for concentrated solar power systems. A superstructure is designed for the …