In order to accelerate the commercialization of solid oxide fuel cells, optimal process
parameters for reliable and efficient electricity generation are of the highest interest. To …

Flow field optimization has an evident effect on the performance improvement of solid oxide
electrolysis cells (SOEC). In this study, a novel flow field based on porous material is …

A novel solar-driven high-temperature co-electrolysis system is proposed, which consists of
a solar photovoltaics module, a parabolic trough collector module, an ammonia-based …

Solid Oxide Fuel Cells (SOFCs) have emerged as an attractive alternative for efficient
cogeneration of electricity and heat with reduced emissions during operation. High working …

Enhancing efficiency, meeting environmental standards, and preserving fuel resources are
highly important objectives in power generation systems, at a time where world is …

This paper proposes a novel hybrid fuel cell power generation system with high efficiency.
The thermo-economic modeling of the MWe-scale systems using different fuels is conducted …

Patterned electrolyte surfaces are considered an effective strategy to enhance the cell
performance of solid oxide fuel cells by increasing the contact area between the electrode …

Although solid oxide fuel cell (SOFC) stacks are generally considered promising devices
due to their many unique advantages, there are very few experiments and reports on anode …

Abstract Design of a gas distributor to distribute gas flow into parallel channels for Solid
Oxide Cells (SOC) is optimized, with respect to flow distribution, using Computational Fluid …

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 …