In addition to high energy conversion efficiency and considerable fuel flexibility, the
advantage of high-quality exhaust energy of solid oxide fuel cells (SOFC) allows it to be …

The co-electrolysis of CO 2 and H 2 O in high temperature solid oxide electrolysis cells
(SOECs) is a promising energy storage method for intermittent renewable energy sources. In …

Fuel cells can be used to provide power for most electrical or electronic devices designed for
operation from batteries or from conventional utility power sources. In this study, a three …

As an energy conversion and generation device that converts hydrogen energy into
electrical energy, the solid oxide fuel cell is one of the most promising fuel cells. However …

Reversible solid oxide cell (RSOC) has attracted significant attention due to its multi-
functionalities for energy conversion and storage. This device works as a fuel cell (FC) or an …

Solid oxide fuel cells are designed to operate in a wide temperature range (600–1000° C).
Operation at high temperature enhances the cell performance, but retains intrinsic problems …

Alternative designs of planar solid oxide fuel cell stack have been developed over the last
decade. Depending on the application, different geometries, materials and flow …

A new two-dimensional (2D) dynamic model is developed in Fortran to study the mass and
energy transport, the velocity field and the electrochemical phenomena of high-temperature …

Fundamentals of Heat and Fluid Flow in High Temperature Fuel Cells introduces key-
concepts relating to heat, fluid and mass transfer as applied to high temperature fuel cells …

The methane steam reforming reaction is an extremely high endothermic reaction that needs
a high temperature heat source. Various fuel cell hybrid systems have been developed to …