With the current global warming crisis and contemporary concerns for sustainability, the
transport industry is develo** and implementing novel solutions to reduce greenhouse …

When the state-of-the-art supercritical CO 2 cycle is applied to the marines, priority should
be given to the feasibility of its component size. In this study, a thermodynamic model of the …

With the diesel engine test data of the flue gas as the initial conditions and the boundaries,
the arrangement of the S-CO 2 recompression Brayton cycle (SCRBC) was established and …

The regenerative supercritical CO 2 Brayton cycle (RSCBC) has great potential to improve
the energy utilization efficiency and reduce greenhouse gas emissions. The leakage of …

This paper investigates waste heat (WH) valorisation on maritime vessels from a systemic
perspective. It aims to demonstrate how a set of innovative waste heat recovery (WHR) …

This paper analyzes the contribution of different turbomachinery loss mechanisms to the
overall efficiency of a simple recuperated supercritical carbon dioxide (s-CO2) Brayton cycle …

The closed Brayton cycle is promising as a power generation system owing to its output
flexibility and compactness. In this study, a small closed Brayton cycle device was …

When a substance exists at temperatures and pressures higher than the critical point, ie, in
supercritical conditions, its thermal and fluidic behaviors deviate from those of normal solid …

This study aims to improve existing fossil gas turbine power plants by waste heat recovery.
These power plants function with an air simple cycle (ASC) and are implemented where …

In this article, a novel quadruple cycle for power generation is presented. It consists of a gas
turbine cycle, a Brayton cycle of supercritical carbon dioxide, a Rankin organic cycle with a …