This paper focuses on the use of the CO 2+ SO 2 binary mixture as innovative working fluid
for closed transcritical power cycles with a minimum temperature above 50° C. Starting from …

The recovery of waste heat is important for energy saving and carbon reduction in China.
Although numerous technologies for waste heat recovery in China have been analyzed …

This study addresses major research gaps related to supercritical carbon dioxide (sCO 2)
power cycles including the shortcomings due to adding extra components, the high …

Recently, the combined power and cooling (CPC) cycle has attracted more and more
attention due to its higher overall efficiency and diversified energy output. However, the …

Solid oxide fuel cell-gas turbine/waste heat recovery system based on supercritical carbon
dioxide cycle has attracted widespread attention due to the high efficiency and reliability …

Concentrating solar power (CSP) applications can benefit from the superior thermophysical
and chemical properties of supercritical CO 2 (sCO 2), which offers greater cycle efficiency in …

Renewable energy-sourced integrated plants are among the novel and interesting
technologies for production of the clean and effective beneficial multiple commodities. Also …

Transcritical and supercritical CO 2 cycles are simple, low-cost, environmentally friendly,
and compact solutions for harnessing a wide range of thermal energy sources such as …

An improved self-condensing transcritical CO 2 Rankine cycle (TCRC) with two-stage
ejector on the basis of the preliminarily designed one with an ejector is proposed in this …

CO 2 transcritical Rankine cycle (CO 2-TRC) has a great potential for many applications like
concentrating solar power (CSP) and waste heat recovery due to advantages of using low-or …