The growing volume of municipal solid waste (MSW) generated worldwide often undergoes
open dumping, landfilling, or uncontrolled burning, releasing massive pollutants and …

Waste production is constantly increasing worldwide and constitutes a problem that is
expected to deteriorate in the future. In parallel, ensuring access to affordable and …

Integrated biomass gasification combined cycles can be advantageous for providing
multiple products simultaneously. A new electricity and freshwater generation system is …

Due to the environmental concerns caused by fossil fuels, renewable energy systems came
into consideration. In this study, a renewable hybrid system based on ocean thermal, solar …

A novel cogeneration system based on a combination of a gas turbine cycle, a supercritical
CO 2 cycle, and a Kalina cycle is devised for heating and power generation. Energy, exergy …

In this study, a novel configuration consisting of a biomass-based anode/cathode recycling
solid oxide fuel cell integrated with a gas turbine and solid oxide electrolyzer cell is …

The aim of this work is focused on design of a sustainable tri-generation system driven by a
biomass (MSW: municipal solid waste) externally-fired gas turbine cycle and utilizing a …

In this study, a biomass-based solid oxide fuel cell integrated with a gas turbine, a reverse
osmosis desalination unit, and double-effect absorption chiller is proposed for power …

In the present study, a comparative optimization analysis of a hydrogen-based proton
exchange membrane (PEM) fuel cell integrated with an organic Rankine cycle (ORC) using …

The aim of this study is to enhance the performance of a geothermal-based organic Rankine
cycle by proposing two novel systems in which some part of the waste heat is recovered …