The application of energy supply systems based on fuel cells contributes to meeting the
requirement of sustainable development, and developing high-efficiency, low-pollution, and …

Studies focusing on the optimization of waste-to-energy systems using metaheuristic particle
swarm optimization (PSO) are crucial in our pursuit of sustainable and renewable energy …

Developing highly efficient thermodynamic cycles is of great importance in the area of
distributed energy system, there are still many non-negligible problems on feasibility …

This study comprehensively assesses two gas turbine-based combined cooling, heating,
and power (CCHP) systems, employing exergoeconomic and environmental evaluations …

High-temperature fuel cells (HT-FCs) indeed hold significant promise for enhancing energy
systems' efficiency and environmental sustainability. Consequently, there is growing interest …

Combined cooling, heating, and power (CCHP) systems have been developed for providing
different grades of energy products by energy cascade utilization. Compared with traditional …

Exergy-based analysis has been widely applied in performance evaluation of different kinds
of energy systems, and the degree of irreversibility in the specific energy conversion process …

LNG-powered ships have gradually become the mainstream of green shipping because of
the high efficiency and emissions reduction, but cannot realize zero-carbon emissions …

The pressing demand for efficient energy use and lower environmental impact has led to
increased interest in multi-generation systems that produce multiple outputs from a single …

Metal-supported solid oxide fuel cell (MS-SOFC) is an emerging technology suitable for
vehicular applications. Utilizing the off-gas from MS-SOFC to realize methane steam …