Hollow Fibre Solid Oxide Fuel Cells
Lead Research Organisation:
Imperial College London
Department Name: Chemical Engineering
Abstract
Solid Oxide Fuel Cells (SOFCs), known for their high (up to 80%) chemical to electrical/thermal conversion efficiencies, their versatility in fuel intake (hydrogen, natural gas, methanol and other petroleum products etc.) and their relatively environmentally benign operation, have a high market potential, but are not yet mass produced, because of outstanding technological and economic issues.This proposed project aims to address these problems by establishing the feasibility of, and developing, a novel design of SOFC, fabricated using hollow fibres, thereby increasing the specific surface area of electrodes, increasing the power output per unit volume/mass, facilitating sealing at high temperatures, and decreasing costs. The electrolyte in the hollow fibre configuration will be fabricated firstly by a combined phase inversion/sintering technique and consists of a thin dense layer, with integrated porous sub-layers on both sides. The porous sub-layers will then be deposited with anode and cathode materials, to produce a single hollow fibre SOFC, bundles of which will be assembled subsequently into a SOFC stack. The performance of both single cells and SOFC stacks will be investigated as a function of the fabrication and operational parameters. Initially, yttrium-stabilised zirconia (YSZ) will be used as the electrolyte, as the feasibility of producing this in fibre form has already been established, though not yet at the targeted electrolyte thickness of < 10 micron and with the required structure; to decrease operating temperatures from ca. 900 to 500-750 C, Ce0.9Gd0.1O1.95 (CGO) electrolyte will be used subsequently. As this proposal is concerned with establishing feasibility of the reactor design concept, hydrogen will be used as a model fuel at Ni anodes, coupled to oxygen reduction at La0.6Sr0.4Co0.2Fe0.8O3 (LSCF) cathodes; reactor performance with other fuels would be part of a subsequent project proposal.
Organisations
Publications
Droushiotis N
(2010)
Fabrication by Co-extrusion and electrochemical characterization of micro-tubular hollow fibre solid oxide fuel cells
in Electrochemistry Communications
Droushiotis N
(2009)
Novel co-extruded electrolyte-anode hollow fibres for solid oxide fuel cells
in Electrochemistry Communications
Droushiotis N
(2013)
New Fabrication Techniques for Micro-Tubular Hollow Fiber Solid Oxide Fuel Cells
in ECS Transactions
Li T
(2015)
High-efficiency, nickel-ceramic composite anode current collector for micro-tubular solid oxide fuel cells
in Journal of Power Sources
Othman M
(2010)
Morphological studies of macrostructure of Ni-CGO anode hollow fibres for intermediate temperature solid oxide fuel cells
in Journal of Membrane Science
Othman M
(2010)
Electrolyte thickness control and its effect on electrolyte/anode dual-layer hollow fibres for micro-tubular solid oxide fuel cells
in Journal of Membrane Science
Othman M
(2010)
Single-step fabrication and characterisations of electrolyte/anode dual-layer hollow fibres for micro-tubular solid oxide fuel cells
in Journal of Membrane Science
Description | Developed hollow fibr solid oxide fuel cells |
Exploitation Route | Further exploitation by industries for possible development in portable devices |
Sectors | Chemicals Energy |
URL | https://www.imperial.ac.uk/people/kang.li/publications.html |