There has been a growing demand to develop new energy conversion devices with high
efficiency and very low emissions for both power and propulsion applications in response to …

Thermal energy storage promises to be cheaper, with significantly lesser environmental
encroachment, compared to electrical energy storage in batteries. Among all thermal energy …

An SOFC-Engine hybrid power generation system is evaluated using exergetic and
exergoeconomic analysis methods to determine measures for improving its efficiency and …

In this study a numerical analysis of hydrogen production via an autothermal reforming
reactor is presented. The endothermic reaction of steam methane reforming and the …

The integrated solid oxide fuel cell (SOFC)-internal combustion engine (ICE) hybrid system
has attracted more and more attention due to its advantages of high efficiency and good …

Exergetic and exergoeconomic evaluations have been carried out for a 100 kW-class solid-
oxide fuel-cell-based combined heat and power generation system, to find out the measures …

Novel hybrid system composed of solid oxide fuel cell (SOFC) and engine has been
presented by our previous study. The fuel contents remained in the anode tail gas from the …

One of the most effective ways to improve the electrical efficiency of a solid oxide fuel cell
system is to maximize the fuel utilization of the system. As a method to increase fuel …

Thermal stress-induced mechanical failure is a critical issue for practical application of solid
oxide fuel cells (SOFCs). Due to the lack of study on the thermo-mechanical behavior of …

The environmental impact associated with a SOFC (solid-oxide fuel-cell) power generation
system has been assessed using a LCA (life cycle assessment) method. LCA is a technique …