New Fabrication Techniques for Micro-Tubular Hollow Fiber Solid Oxide Fuel Cells

Abstract: A novel combination of phase inversion and electrophoretic deposition was used in the fabrication of anode supported micro tubular (hollow fiber) solid oxide fuel cells (MT-HF-SOFCs). The phase inversion process was used to produce ca. 240 μm thick, highly porous 60 wt. % NiO-40 wt. % yttria-stabilised zirconia (YSZ) hollow fiber anode precursors. The electrophoretic deposition process was then used to apply ca. 40 μm thick, particulate YSZ electrolyte layers onto the unsintered NiO-YSZ HFs from an ethanol sus… Show more

“…This report details the experimental strategy, which was used to achieve successful application of electrolyte material onto anode hollow fiber precursors by electrophoretic deposition, leading to competitive performance of the micro-tubular hollow fiber SOFCs; details of previous unsuccessful strategies are available in. 19 The cell performance was studied experimentally and characterized subsequently using a numerical lumped parameter model.…”

Phase Inversion and Electrophoretic Deposition Processes for Fabrication of Micro-Tubular Hollow Fiber SOFCs

“…This report details the experimental strategy, which was used to achieve successful application of electrolyte material onto anode hollow fiber precursors by electrophoretic deposition, leading to competitive performance of the micro-tubular hollow fiber SOFCs; details of previous unsuccessful strategies are available in. 19 The cell performance was studied experimentally and characterized subsequently using a numerical lumped parameter model.…”

Phase Inversion and Electrophoretic Deposition Processes for Fabrication of Micro-Tubular Hollow Fiber SOFCs