Fabrication and Performance Evaluation of Solid Oxide Electrolysis Cell Integrated with Metal Interconnect by Joining Process
Autor: | Mihwa Choi, Eui-Hyun Kim, Min-Ah Park, Hyun-Jin Jin, Young-Sung Yoo, Seugran Yang |
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Rok vydání: | 2015 |
Předmět: | |
Zdroj: | ECS Transactions. 68:3475-3480 |
ISSN: | 1938-6737 1938-5862 |
DOI: | 10.1149/06801.3475ecst |
Popis: | Metal-supported solid oxide electrolysis cell integrated with metal interconnect by joining process (so-called, with fuel electrode(cathode)-supported electrolysis cell) was fabricated and its electrical performance are investigated under both operation mode of fuel cell(hydrogen) and co-electrolysis(steam and CO2) mode at the intermediate temperature of 750 oC~850 oC. The fuel(or steam) electrode layers are prepared using NiO and YSZ(8 mol% Y2O3-doped ZrO2) at the ratio of 1:1. In order to obtain pores in the cathode, graphite powders of 24 volume % with average particle size of 44 mm are added. In the case of a metal-supported solid oxide electrolysis cell(SOEC) with heat-treated cathode support, 10 mol % Sm2O3-doped CeO2 (SDC) paste is screen-printed on the surface of YSZ and subsequently (La0.6Sr0.4) (Co0.2Fe0.8)O3 (LSCF) paste mixed with SDC at 1:1 weight ratio as anode(air electrode) is screen-printed on the SDC layer and heat-treated for desirable adhesion. The single electrolysis cell performances are compared by analyzing AC impedance spectra and product gas composition by GC(gas chromatography)of metal-supported electrolysis cell integrated with metal interconnect and cathode-supported electrolysis cell, and the current-voltage characteristics and cross-sectional microstructure of cathode-supported cell integrated with metal interconnect are tested. The stable long-term performance with co-electrolysis of carbon dioxide (CO2)and steam(H2O) is shown for about 800 h at 800 oC under the constant current density of 300 mA/cm2, 600 mA/cm2, 800 mA/cm2, and 1000 mA/cm2. In the fuel cell mode operation of metal-supported SOEC cell, the maximum power density of 0.8W/cm2 is indicated with hydrogen fuel. The microstructures are analyzed using optical microscope for observing a diffusion of metal ions at the cathode, adhesion layer and metal support(ferritic stainless steel, STS430) with EDAX analysis. In the present work, we have investigated the performance and microstructures of metal-supported SOEC for the co-electrolysis of CO2 and H2O steam. The exemplary works with AC impedance and the composition of product gas are analyzed in the operation of metal-supported co-electrolysis cell. |
Databáze: | OpenAIRE |
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