Advancements in electrolyte materials and hybrid integration for enhanced solid oxide fuel cell performance

Kuterbekov, Kairat A.; Kabyshev, Asset M.; Bekmyrza, Kenzhebatyr Zh.; Kubenova, Marzhan M.; Kabdrakhimova, Gaukhar; Abdullayeva, Iroda; Ayalew, Abebe Temesgen

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dc.contributor.author	Kuterbekov, Kairat A.
dc.contributor.author	Kabyshev, Asset M.
dc.contributor.author	Bekmyrza, Kenzhebatyr Zh.
dc.contributor.author	Kubenova, Marzhan M.
dc.contributor.author	Kabdrakhimova, Gaukhar
dc.contributor.author	Abdullayeva, Iroda
dc.contributor.author	Ayalew, Abebe Temesgen
dc.date.accessioned	2026-03-05T09:32:58Z
dc.date.available	2026-03-05T09:32:58Z
dc.date.issued	2025
dc.identifier.issn	1748-1317
dc.identifier.other	doi.org/10.1093/ijlct/ctaf007
dc.identifier.uri	http://repository.enu.kz/handle/enu/29852
dc.description.abstract	Solid oxide fuel cells (SOFCs) offer high efficiency and fuel adaptability but face challenges like high operating temperatures and material degradation. This study focuses on innovative solutions, including doped ceria-based electrolytes with ionic conductivity of 0.1 S/cm at 600◦C, reducing operating temperature by 200◦C and extending lifespan by 29.15%. Composite anodes with hierarchical pores achieved a power density of 1.2 W/cm2 (25% improvement) and maintained stability over 5000 h with <1% degradation per 1000 h. Hybrid integration with micro gas turbines improved efficiency to 69.48% (14.28% increase) and cut CO2 emissions by 21%, advancing SOFC viability as sustainable energy solution.	ru
dc.language.iso	en	ru
dc.publisher	International Journal of Low-Carbon Technologies	ru
dc.relation.ispartofseries	20, 353–367;
dc.subject	electrode design	ru
dc.subject	electrolyte materials	ru
dc.subject	hybrid systems	ru
dc.subject	solid oxide fuel cells	ru
dc.subject	SOFC efficiency	ru
dc.subject	CO2 emission	ru
dc.title	Advancements in electrolyte materials and hybrid integration for enhanced solid oxide fuel cell performance	ru
dc.type	Article	ru