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 …

This paper presents an extensive overview of unconventional waste heat recovery
bottoming cycles including air bottoming cycle, Carbon dioxide-based power cycles and …

This research attempts to present a polygeneration system with five various products to
recover waste heat of an externally-fired gas turbine cycle driven by biomass fuel. First, the …

In this study, a novel power generation cycle is presented which is a combination of the
modified Kalina Cycle and the Gas Turbine-Module Helium Reactor system. The rejected …

Using the organic flash cycle (OFC) instead of the organic Rankine cycle can mitigate some
loss associated with the heat transfer process in the heating heat exchanger. On the other …

To improve the penetration level of renewable energies can give strong support to the
development of low-carbon society. Energy storage technologies with excellent performance …

Compressed carbon dioxide energy storage systems have attracted much attention due to
their high energy storage density and no geographical restrictions. This paper proposes a …

Geothermal systems have a low carbon footprint and are eco-friendly. Therefore, the present
study lays bare the fact that the waste heat from a geothermal-driven double-flash cycle can …

In the present study, a novel combined power cycle for solar power tower (SPT) system
consisting of helium Brayton cycle (HBC) and transcritical CO2 (TCO2) for waste heat …

A new integrated cycle based on different real temperatures and pressures on Sabalan
geothermal power plant, located in Iran, has been proposed and thermodynamic and …