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 …

Carbon capture, utilisation and storage (CCUS) is of unique significance for building a green
and resilient energy system, and it is also a key solution to tackle the climate challenge. The …

Carbon capture and storage is recognized as one of the most promising solutions to mitigate
climate change. Compared to conventional separation technologies, supersonic separation …

The carbon capture technology (CCT) is widely studied to decrease carbon emissions and
improve the global climate. Supersonic separation is becoming a new strategy for …

A cleaning method of removing CO 2 from flue gas by supersonic flow is investigated. A
condensation flow model is developed based on the classical droplet nucleation and growth …

Carbon capture and storage (CCS) is one of the most promising technologies to tackle
climate challenges. The separation of carbon dioxide (CO 2) is the key step to achieve the …

Turbomachinery and heat exchanger are key components of the supercritical carbon dioxide
(CO 2) Brayton cycle system. It is of great necessity to investigate realistic cycle performance …

Compressible two-phase flows of carbon dioxide in supercritical thermodynamic conditions
are encountered in many applications, eg ejectors for refrigeration and compressors for …

The Brayton cycle, with supercritical carbon dioxide (sCO 2) centrifugal compressors at its
core, has received widespread attention for its high efficiency and energy savings …

High ambient conditions and high energy desalination technologies could penalize power
cycle performance and this synergistic integration is proposed as a solution to address this …