Methane reforming in solid oxide fuel cells: Challenges and strategies
Methane, mainly derived from fossil fuels, coal and natural gas, is a widely used industrial
resource for hydrogen production via the reforming process. However, due to their …
resource for hydrogen production via the reforming process. However, due to their …
Advances on methane reforming in solid oxide fuel cells
With the demand for anticipated green hydrogen and power production, novel and upgraded
catalytic processes are desired for more effective utilization of precious natural resources …
catalytic processes are desired for more effective utilization of precious natural resources …
[HTML][HTML] The effects of fuel type and cathode off-gas recirculation on combined heat and power generation of marine SOFC systems
An increasing demand in the marine industry to reduce emissions led to investigations into
more efficient power conversion using fuels with sustainable production pathways. Solid …
more efficient power conversion using fuels with sustainable production pathways. Solid …
Hydrogen production in solid oxide electrolyzers coupled with nuclear reactors
In this study, two types of high temperature electrolyzers (O= SOE and H+ SOE) were
investigated for hydrogen generation in relation to nuclear power plant operations. The …
investigated for hydrogen generation in relation to nuclear power plant operations. The …
[HTML][HTML] Integration of solid oxide fuel cell and internal combustion engine for maritime applications
The current literature on solid oxide fuel cell and internal combustion engine (SOFC-ICE)
integration is focused on the application of advanced combustion technologies operating as …
integration is focused on the application of advanced combustion technologies operating as …
Recycling strategies for solid oxide cells
S Sarner, A Schreiber, NH Menzler… - Advanced Energy …, 2022 - Wiley Online Library
Alongside the generation of renewable power and its storage in batteries, hydrogen
technologies are essential to enable a deep decarbonization of the energy system. These …
technologies are essential to enable a deep decarbonization of the energy system. These …
[HTML][HTML] Thermal management challenges in hybrid-electric propulsion aircraft
M Asli, P König, D Sharma, E Pontika, J Huete… - Progress in Aerospace …, 2024 - Elsevier
The utilization of hybrid electric propulsion concept in aviation offers a viable solution to
address the limitations posed by the relatively low energy density of batteries in fully electric …
address the limitations posed by the relatively low energy density of batteries in fully electric …
[HTML][HTML] Benchmarking solid oxide electrolysis cell-stacks for industrial Power-to-Methane systems via hierarchical multi-scale modelling
L Wehrle, D Schmider, J Dailly, A Banerjee… - Applied Energy, 2022 - Elsevier
Abstract Power-to-Gas (PtG) is prognosticated to realize large capacity increases and create
substantial revenues within the next decade. Due to their inherently high efficiencies, solid …
substantial revenues within the next decade. Due to their inherently high efficiencies, solid …
A review on mathematical modelling of direct internal reforming-solid oxide fuel cells
Abstract The Solid Oxide Fuel Cells (SOFCs) anode materials are catalytically active for
Direct Internal Reforming (DIR) thus avoiding the need of external reformer. However …
Direct Internal Reforming (DIR) thus avoiding the need of external reformer. However …
[HTML][HTML] A comparison of steam reforming concepts in solid oxide fuel cell systems
Various concepts have been proposed to use hydrocarbon fuels in solid oxide fuel cell
(SOFC) systems. A combination of either allothermal or adiabatic pre-reforming and water …
(SOFC) systems. A combination of either allothermal or adiabatic pre-reforming and water …