1. Recycling electronic scrap to make molten carbonate fuel cell cathodes.
- Author
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Milewski, Jarosław, Cwieka, Karol, Szczęśniak, Arkadiusz, Szabłowski, Łukasz, Wejrzanowski, Tomasz, Skibinski, Jakub, Dybiński, Olaf, Lysik, Aleksandra, Sienko, Arkadiusz, and Stanger, Pawel
- Subjects
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MOLTEN carbonate fuel cells , *RARE earth metals , *CATHODES , *ELECTRONIC equipment , *PRECIOUS metals - Abstract
The paper aims to examine the possibility of improving the manufacturing process for MCFC cathodes. using noble, semi-precious, and rare earth metals sourced from waste electric and electronic equipment (WEEE). As MCFC components are not particularly sensitive to ceramic and metal impurities. The addition of noble metals recovered from WEEE as catalysts are economically justifiable. The reported experimental research revealed the positive impact of MCFC cathode fabricated with 20% recycled electronic scrap. Especially the cell with powder marked as 4/1 enjoyed much better performance operating at 550 °C than the reference cell. During the operation at a temperature of 650 °C, the cell with powder marked as 4/1 has almost the same performance as the reference cell, i.e., 1.01 V OCV and power density of 0.13 A/cm2. The cell with cathode with 4/2 powder has the worst performance – current density of 0.09 A/cm2 and OCV of 0.97 V. [Display omitted] • Rare earth elements separated by positive charge contains less cerium than separated by negative charge. • The maximum current densities and Open Circuit Values are similar as reference case for maximum gas flows. • The maximum current densities and Oper Circuit Voltages are better with additives for lower operational temperature. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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