Cohesive zone model for the thermomechanical deformation of a high temperature tubular solid oxide electrolysis cell.

Kurushina, Victoria; Prathuru, Anil; Soman, Ajith; Hossain, Mamdud; Cai, Qiong; Horri, Bahman Amini; Faisal, Nadimul Haque

doi:10.1016/j.engfracmech.2025.110987

All Outputs (2)

Modelling metasurface patterned anode for enhanced performance of solid oxide electrolyser. (2025)
Journal Article
KURUSHINA, V., HOSSAIN, M., HASBI, S., SOMAN, A., PRATHURU, A., CAI, Q., HORRI, B.A. and FAISAL, N.H. 2025. Modelling metasurface patterned anode for enhanced performance of solid oxide electrolyser. Journal of power sources [online], 648, article number 237436. Available from: https://doi.org/10.1016/j.jpowsour.2025.237436

Solid oxide electrolysers (SOE) are a promising type of technology of hydrogen production with the potential to be a part of the sustainable future of the energy sector. Advantageous efficiency of these devices is coming from the combined use of the... Read More about Modelling metasurface patterned anode for enhanced performance of solid oxide electrolyser..

Cohesive zone model for the thermomechanical deformation of a high temperature tubular solid oxide electrolysis cell. (2025)
Journal Article
KURUSHINA, V., PRATHURU, A., SOMAN, A., HOSSAIN, M., CAI, Q., HORRI, B.A. and FAISAL, N.H. 2025. Cohesive zone model for the thermomechanical deformation of a high temperature tubular solid oxide electrolysis cell. Engineering fracture mechanics [online], 318, article number 110987. Available from: https://doi.org/10.1016/j.engfracmech.2025.110987

High-temperature processes for hydrogen production unlock the potential for high energy efficiency combined with a relatively low environmental impact. However, structural integrity should be carefully considered. Solid oxide electrolysis cells (SOEC... Read More about Cohesive zone model for the thermomechanical deformation of a high temperature tubular solid oxide electrolysis cell..