In light of the movement toward sustainable development and environmental protection, this
work proposes a novel cogeneration system using geothermal and natural gas dual …

High reliance on conventional fuels and existing freshwater resources is unviable in the long
run. A multi-generation system primed with a parabolic trough solar collector and a wind …

The increasing power demand in the world's energy basket and the focus on reducing
carbon emission, in tandem with upgrade constraints on conventional grids, has elicited the …

Harnessing combustion gases is paramount to reducing the environmental impacts caused
by burning fossil fuels. In this study, an innovative solar-natural gas-driven polygeneration …

Integrating biomass energy into existing fossil fuel power plants is a practical way to solve
the current energy shortages and environmental problems considering system feasibility …

In a world grappling with escalating energy needs, environmental concerns, and economic
constraints, the transition to renewable energy becomes critical. This study delves into …

Previously, a set of optimistic studies have been published to show the efficiency of
chemically recuperated gas turbines (CRGT) based on steam methane reforming. The …

The hybridization of solar and biomass energy systems is a promising technology for
mitigating the issues of energy generation-related greenhouse gas emissions and high …

This paper proposes a novel hybridization of a flash-binary geothermal cycle, a gas turbine
cycle, an organic flash cycle, and a multi-effect desalination subsystem to reach efficient …

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 …