Excessive emission of CO 2 may jeopardize the environment and livelihood of mankind. To
achieve a sustainable future, solid oxide electrolysis cells (SOECs) are increasingly …

The widespread use of fossil fuels within the current energy infrastructure is considered as
one of the largest sources of CO2 emissions, which is argued to cause global warming and …

Electrochemical cells and systems play a key role in a wide range of industry sectors. These
devices are critical enabling technologies for renewable energy; energy management …

The electrochemical reduction of CO 2 has emerged as a promising alternative to traditional
fossil-based technologies for the synthesis of chemicals. Its industrial implementation could …

Power-to-methane technologies have been regarded as a promising alternative to offer
small-or large-scale, long-timescale (daily/weekly/seasonal) energy storage as well as the …

The integration of solid oxide electrolysis cells (SOEC) and methanation as a power-to-gas
system is a promising technology for renewable energy storage and CO 2 utilization. SOEC …

High temperature co-electrolysis of H 2 O and CO 2 offers a promising route for syngas (H 2,
CO) production via efficient use of heat and electricity. The performance of a SOEC during …

This paper studies the Solid Oxide Electrolyzer Cell as a promising system in the
sustainable development for the hydrogen economy and energy systems as a robust …

A hierarchical multi-physics continuum model is used to investigate syngas (H 2+ CO)
production in a solid oxide button cell, single repeating unit and cell stack. A novel cluster …

This paper presents a model-based investigation to handle the fundamental issues for the
design of co-electrolysis based power-to-methane at the levels of both the stack and system …