Enhancing Palladium Recovery Rates in Industrial Residual Solutions through Electrodialysis

Zimmermann, Pauline; Tekinalp, Önder; Wilhelmsen, Øivind; Deng, Liyuan; Burheim, Odne Stokke

doi:10.3390/membranes13110859

Membranes

2023

DOI: 10.3390/membranes13110859

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Enhancing Palladium Recovery Rates in Industrial Residual Solutions through Electrodialysis

Pauline Zimmermann,

Önder Tekinalp,

Øivind Wilhelmsen

et al.

Abstract: Palladium is a vital commodity in the industry. To guarantee a stable supply in the future, it is imperative to adopt more effective recycling practices. In this proof-of-concept study, we explore the potential of electrodialysis to enhance the palladium concentration in a residual solution of palladium recycling, thus promoting higher recovery rates. Experiments were conducted using an industrial hydrochloric acid solution containing around 1000 mg/L of palladium, with a pH below 1. Two sets of membranes, Sel… Show more

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2024

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Cited by 2 publications

References 55 publications

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Enhancing chloride/fluoride selectivity with hydrophobic side-chain anion exchange membranes in electrodialysis

Tekinalp,

Zimmermann,

Burheim

et al. 2024

Desalination

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Enhancing chloride/fluoride selectivity with hydrophobic side-chain anion exchange membranes in electrodialysis

Tekinalp,

Zimmermann,

Burheim

et al. 2024

Desalination

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Hybrid Materials—Mg3Al-LDH/Ionic Liquids/Chitosan Used in the Recovery Process of Pd Ions from Aqueous Solutions

Milos,

Cocheci,

Popa

et al. 2024

Molecules

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The recovery of palladium from aqueous solutions is important due to its critical role in various industrial applications and the growing demand for sustainable resource management. This study investigates the potential of hybrid materials composed of Mg3Al layered double hydroxides (LDHs), chitosan, and ionic liquids (methyl trialchil ammonium chloride) for the efficient adsorption of palladium ions from low-concentration aqueous solutions. Comprehensive characterization techniques, including X-ray diffraction (RX), Fourier transform infrared spectroscopy (FTIR), scanning electron microscopy (SEM), energy-dispersive X-ray spectroscopy (EDX), and thermogravimetric analysis (TG), were employed to elucidate the structural and compositional properties of the hybrid materials. The results of the batch adsorption experiments demonstrate that each component contributes synergistically to the adsorption process, significantly enhancing the overall efficacy of palladium recovery. Furthermore, the method of preparing the adsorbent material was found to impact the effectiveness of palladium recovery. Among the materials tested, the chitosan/Mg3Al/IL hybrid exhibited the highest adsorption capacity (qmax = 98 mg/g), suggesting that the ionic liquid functionalization is most beneficial when applied during the hybrid material synthesis, rather than during the LDH synthesis process. This research underscores the viability of hybrid materials as a sustainable approach to palladium recovery, contributing to advancements in environmental remediation technologies.

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Enhancing Palladium Recovery Rates in Industrial Residual Solutions through Electrodialysis

Cited by 2 publications

References 55 publications

Enhancing chloride/fluoride selectivity with hydrophobic side-chain anion exchange membranes in electrodialysis

Enhancing chloride/fluoride selectivity with hydrophobic side-chain anion exchange membranes in electrodialysis

Hybrid Materials—Mg3Al-LDH/Ionic Liquids/Chitosan Used in the Recovery Process of Pd Ions from Aqueous Solutions

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