This study substantiates that the waste heat of a combined regenerative gas turbine cycle
(GTC) and recompression supercritical CO 2 Brayton cycle (SCBC) driven by a hybrid solar …

This study aims to recover the waste heat from a previously introduced regenerative gas
turbine cycle (GTC) when it is driven by a hybrid heat source composed of solar power tower …

In an attempt to recover waste heat from a system composed of a solid oxide fuel cell and
gas turbine, a novel multi-generation system is proposed utilizing five different subsystems …

A tri-generation layout is proposed in the paper, which is composed of a novel cascade
power generation system, a transcritical CO 2 compression refrigeration system (CCRS) with …

Due to the intermittent feature of renewable energies, their combination with energy storage
systems seems efficient and profitable. In this regard, a wind turbine system is coupled with …

A novel multi-generation system is introduced based on the combination of biomass gasifier-
fired steam Rankine cycle (SRC) and compressed air energy storage (CAES) system. The …

The present study aims at utilizing the waste energy from a regenerative gas turbine cycle
(GTC) for the production of hydrogen in a proton exchange membrane electrolysis unit …

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 …

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 …

The waste heat from a supercritical Brayton cycle has a great potential to be recovered.
However, there is a lack of research regarding the utilization of these cycles in multi …