Supercritical CO2 power cycles have been deeply investigated in recent years. However,
their potential in waste heat recovery is still largely unexplored. This paper presents a critical …

Owing to its excellent physical properties, CO 2 has been extensively used as a working
fluid in power cycle and refrigeration cycle. To improve energy conversion efficiency, various …

In an attempt to recover waste heat from a system composed of a solid oxide fuel cell and
gas turbine, a novel multi-generation system is proposed utilizing five different subsystems …

It is well known that the energy efficiency of the supercritical carbon dioxide recompression
Brayton cycle (sCO 2 RBC) can be improved by employing the bottoming cycles to recover …

Waste-to-energy conversion technologies have been attracted extensive attentions due to
the promising contribution not only to the municipal waste disposal but also to the electricity …

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 …

A novel cascade system, in which the exhaust CO 2 residual heat from a partial heating
supercritical CO 2 (SCO 2) power cycle is reclaimed by a transcritical CO 2 (TCO 2) power …

Abstract Supercritical CO 2 Brayton cycle (SCBC) is widely used in high-temperature waste
heat recovery combined systems with sequential or cascade configurations due to its …

Current solutions for waste heat recovery from data centers are mainly district heating and
refrigeration. However, intermittent demand for space heating and cooling resulted from …

In this study, the investigation on the performance improvement of the recompression
supercritical carbon dioxide (sCO 2) power cycle by integrating with two novel absorption …