Reversible solid oxide fuel cell (RSOC) has gained widespread attention due to their
potential for high efficiency in implementing multi‐energy distributed systems. When high …

Commercialization of solid oxide fuel cell (SOFC) systems requires improved SOFC
performance and durability, which is highly dependent on the coupling of the SOFC stack …

The pursuit of higher power density and compact structure presents a critical challenge to
the thermal management of solid oxide fuel cell. In this study, a novel in-tube reformer is …

Protonic ceramic electrolysis cells (PCECs) offer significant potential for large-scale green
hydrogen production. The performance of conventional PCEC stacks is notably limited due …

Understanding mechanical performance evolution and failure mechanism of solid oxide fuel
cell stack (SOFCs) during long-term operation period are essential to prolong operation life …

To enhance the performance of solid oxide electrolysis cell (SOEC), two biomimetic flow
fields are designed based on the vein structures of ginkgo and clover leaves in this study. A …

This paper investigates the creep behavior, damage evolution, and failure probability of a
solid oxide fuel cell (SOFC) with three different flow channel geometries—rectangular, round …

This study analyzed the influence of channel resistance, inlet flow rate, manifold depth and
other related parameters on the gas distribution uniformity and pressure drop in an external …

In present paper, a strain-based creep damage and failure probability model is constructed
to conduct time dependent mechanical performance analysis of solid oxide fuel cell (SOFC) …

As energy scarcity and greenhouse gas emissions become increasingly pressing concerns,
electrochemical gas production technologies have emerged as vital solutions. Solid oxide …