Publication

Mechanical reliability and durability of SOFC stacks. Part I: Modelling of the effect of operating conditions and design alternatives on the reliability

Daniel Favrat, Jan Van Herle, Arata Nakajo
2012
Journal paper

Abstract

Electrochemical and mechanical aspects in solid oxide fuel cell stack must be understood to meet the reliability targets for market implementation. This study presents a stack modelling framework that combines thermo-electrochemical models, including degradation and a contact finite-element thermo-mechanical model. It considers rate-independent plasticity and creep of the component materials and proposes periodic boundary conditions to model the stacking of repeating units. This Part I focuses on the effects of the operating conditions and design alternatives.

Official source

https://infoscience.epfl.ch/record/178764?ln=en

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Ontological neighbourhood

Energy engineering

Fuel power: Hydrogen fuel

Related concepts (17)

Related publications (46)

Related MOOCs (2)

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Mechanical reliability and durability of SOFC stacks. Part I: Modelling of the effect of operating conditions and design alternatives on the reliability

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Organic Rankine Cycle as the Waste Heat Recovery Unit of Solid Oxide Fuel Cell: A Novel System Design for the Electric Vehicle Charging Stations Using Batteries as a Backup/Storage Unit

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Degradation study of a reversible solid oxide cell (rSOC) short stack using distribution of relaxation times (DRT) analysis