Comparison of Electrochemical Impedance Measurements between Pressurized Anode-Supported and Electrolyte-Supported Planar Solid Oxide Fuel Cells

Shy, S.S.; Hsieh, Yu-Lin; Huang, Chun‐Kai; Chan, Yu-Chang

doi:10.1149/2.0041503jes

Cited by 11 publications

(6 citation statements)

References 16 publications

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“…The reader is directed to Refs. (12,15) for a detail description of such model. In the Nyquist plots as shown in Fig.…”

Section: Resultsmentioning

confidence: 99%

“…Thus, we choose planar full ESC and ASC as benchmark cells to measure the effect of pressurization on these cells with different supported components. Preliminary results at a fixed operating temperature (T = 850 o C) were recently reported in (12), where experiments were carried out in a high-pressure, hightemperature SOFC test facility (13). In this work new modifications of such highpressure, high-temperature SOFC test facility will be reported.…”

Section: Introductionmentioning

confidence: 95%

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The Impact of Pressurization on Anode-Supported and Electrolyte-Supported Planar Solid Oxide Fuel Cells at 750^oC ~ 850^oC

Shy¹,

Hsieh²,

Liang³

2015

ECS Trans.

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The impact of pressurization on anode and electrolyte-supported cells (ASC/ESC) is measured in a high-pressure SOFC test facility using the same single-cell stack setup, a planar fuel cell with rib-channel flow distributors, under the same experimental conditions (i.e. same flow rate, temperature, pressure). Results show that at T= 850°C and 0.7 V, power densities of ASC/ESC increase from 309/193 mW cm-2 to 476/250 mW cm-2, as p increases from 1 atm to 5 atm. As T increases from 750°C to 850°C at 0.7 V, power densities of ASC/ESC increase from 175/97 mW cm-2 to 309/193mW cm-2 at p = 1 atm, while at p = 5 atm, the corresponding increases of power densities are 281/137 mW cm-2 to 476/250 mWcm-2. It is found that ASC is more sensitive to pressurization than ESC, while the latter is more temperature-sensitive. Corresponding electrochemical impedance spectra explain these results.

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“…The reader is directed to Refs. (12,15) for a detail description of such model. In the Nyquist plots as shown in Fig.…”

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 95%

The Impact of Pressurization on Anode-Supported and Electrolyte-Supported Planar Solid Oxide Fuel Cells at 750^oC ~ 850^oC

Shy¹,

Hsieh²,

Liang³

2015

ECS Trans.

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show abstract

“…This hypothesis will be discussed and checked hereafter. Finally, the ohmic losses related to intrinsic properties of solid materials are assumed to not be impacted by the pressure (17,8).…”

Section: Electrochemical Modulementioning

confidence: 99%

Assessment of Pressure Effects on High Temperature Steam Electrolysis Based on Solid Oxide Technology

et al. 2015

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To manage the grid with renewable electrical sources, hydrogen chains have to be considered. However, hydrogen must be pressurized before being used or stored. Why not performing the High Temperature Steam Electrolysis (HTSE) step directly under pressure? An experimental and modelling approach has been adopted in order to better understand the basic underlying mechanisms of pressurized steam electrolysis operation. Experiments were carried on two different single commercial cathode-supported Solid Oxide Electrolysis Cells (SOEC) at 800°C in the pressure range of 1 to 10 bars. According to the i-V curves, the Open Cell Voltage increases with increasing the pressure. Nevertheless, the limiting current density increases because of a better gas diffusion in through the thick porous cermet support, meaning that the hydrogen production can be improved depending on the voltage. The model, which has been calibrated on the experimental i-V curves recorded at the atmospheric conditions, has been validated for the pressurized operation.

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“…Detail descriptions of ECM have been reported and the reader is directed to Refs. (8,19,20). Further, values of L/D eff at different p T can be estimated from Eq.…”

Section: Calculation Of Anodic Concentration Overvoltagementioning

confidence: 99%

A Simple Pressurized SOFC Test Rig for Measurements of Cell Performance, Impedance, and Various Overvoltages

Liang

Hong

et al. 2015

ECS Trans.

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This paper reports a newly designed high-pressure full button cell test platform for measurements of various effects on pressurized solid oxide fuel cells (PSOFC). The test platform has several parts, from inside out including two especially thread-designed housing carriers for the full button cell, a serpentine heating pipe system for uniform heating of the supplied fuel and air gases, a temperaturecontrolled furnace, and a large high-pressure vessel together with measuring devices and their associates. Hence, current-voltage curves and AC impedance spectra of any full button cell can be conveniently measured. In this study, we present power-generating characteristics and electrochemical impedance spectra (EIS) data of an anode-supported full button cell over a range of pressures (p = 1~5 atm) at a temperature T = 800 o C. Analyses of activation and concentration overvoltages using the Butler-Volmer equation and the related concentration overvoltage equation based on a 1D diffusion model are also discussed.

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Comparison of Electrochemical Impedance Measurements between Pressurized Anode-Supported and Electrolyte-Supported Planar Solid Oxide Fuel Cells

Cited by 11 publications

References 16 publications

The Impact of Pressurization on Anode-Supported and Electrolyte-Supported Planar Solid Oxide Fuel Cells at 750^oC ~ 850^oC

The Impact of Pressurization on Anode-Supported and Electrolyte-Supported Planar Solid Oxide Fuel Cells at 750^oC ~ 850^oC

Assessment of Pressure Effects on High Temperature Steam Electrolysis Based on Solid Oxide Technology

A Simple Pressurized SOFC Test Rig for Measurements of Cell Performance, Impedance, and Various Overvoltages

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Comparison of Electrochemical Impedance Measurements between Pressurized Anode-Supported and Electrolyte-Supported Planar Solid Oxide Fuel Cells

Cited by 11 publications

References 16 publications

The Impact of Pressurization on Anode-Supported and Electrolyte-Supported Planar Solid Oxide Fuel Cells at 750oC ~ 850oC

The Impact of Pressurization on Anode-Supported and Electrolyte-Supported Planar Solid Oxide Fuel Cells at 750oC ~ 850oC

Assessment of Pressure Effects on High Temperature Steam Electrolysis Based on Solid Oxide Technology

A Simple Pressurized SOFC Test Rig for Measurements of Cell Performance, Impedance, and Various Overvoltages

Contact Info

Product

Resources

About

The Impact of Pressurization on Anode-Supported and Electrolyte-Supported Planar Solid Oxide Fuel Cells at 750^oC ~ 850^oC

The Impact of Pressurization on Anode-Supported and Electrolyte-Supported Planar Solid Oxide Fuel Cells at 750^oC ~ 850^oC