The energy crises caused by the rapidly increasing population density around the world and
the economic, environmental and health threats, that have reached significant dimensions …

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 this study, energy, exergy and environmental-based design and multiobjective
optimization of a novel solar-driven gas turbine-based multi-generation system is performed …

Employing suitable subsystems to reach high efficiency and low cost in renewable-based
power plants is more crucial. The geothermal energy heat source is located in many …

In this study, a novel triple power cycle is proposed where waste heat from a gas turbine
cycle is utilized to drive a supercritical carbon dioxide (s-CO 2) recompression cycle and a …

This paper presents a comprehensive and in-depth exploration of the energy and exergy
efficiency of a hybrid refrigeration system, combining an Ejector Expansion Transcritical CO …

In this study, optimal design of combined cooling, heating and power and freshwater
(CCHPW) generation system using multi-effect evaporation with thermal vapor compression …

The limitations of the single-flash cycle (SFC) include low efficiency, limited power output,
and the inability to produce multiple products simultaneously. Additionally, the SFC requires …

Generator-absorber heat exchange (GAX) systems represent a promising alternative to
substitute environmentally harmful refrigeration devices based on conventional vapor …

Growing energy shortages severely restricting the sustainable development of human
beings, improving energy efficiency has become an urgent issue. To improve energy …