Under the background of carbon reduction, the development of efficient power conversion
system has drawn more important attention. The advantages of high efficiency and …

In this paper, an extensive overview of unconventional waste heat recovery power cycles is
presented. The three-unconventional waste heat recovery bottoming cycles discussed in this …

Two phase flow boiling and condensation heat transfer in mini channels are promising
technologies in handling the challenges of modern thermal management in various fields. In …

For coal fired power plant, the supercritical carbon dioxide Brayton cycle (S-CO 2) is difficult
to absorb flue gas heat in a wide temperature range of 120–1500° C. Here, novel methods …

Due to its resistance to high pressure, high efficiency and compactness, printed circuit heat
exchangers have gained much attention as a potential pre-cooler for the supercritical CO 2 …

The printed circuit heat exchanger (PCHE) shows promise for applications in the
supercritical carbon dioxide (S-CO 2) Brayton cycle due to its great resistance to high …

Despite the emerging interest in applying the supercritical CO 2 (S-CO 2) Brayton cycle to
solar power towers (SPTs), its unique characteristics necessitates a specific …

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 …

In the current study, a multi-layered approach, combining 3D Reynolds Averaged Navier–
Stokes (RANS) model, Artificial Neural Network (ANN), and in-house precooler design and …

Supercritical CO 2 flowing in tubes has been researched intensively to confirm their potential
applications in energy conversion systems. However its performance prediction is always …