4.7 Article

Making precious metals cheap: A sonoelectrochemical - Hydrodynamic cavitation method to recycle platinum group metals from spent automotive catalysts

Journal

ULTRASONICS SONOCHEMISTRY
Volume 72, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.ultsonch.2020.105404

Keywords

Hydrodynamic cavitation; Nanomaterials; Platinum group metals; Cordierite; platinum dissolution

Funding

  1. Romanian Ministry of Research and Innovation within PNCDI III [PN-III-1.2-PCCDI-2017-0185, 76PCCDI/2018, PD 111/2018]
  2. European Union's Horizon 2020 Research and Innovation Programme under the Marie Sklodowska-Curie grant [797781]
  3. Marie Curie Actions (MSCA) [797781] Funding Source: Marie Curie Actions (MSCA)

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The two-step method successfully separated the nanoparticles of Pd and Pt, significantly increasing the concentrations of Pd and Pt. In the absence of hydrodynamic cavitation and using conventional electrochemistry, the recovery rates of Pt and Pd were very low. Cost analysis showed that the method could recover Pd and Pt at a lower price.
Platinum group metals, such as Pd and Pt, found in three-way catalyst converters were recycled in a two-step method: hydrodynamic cavitation followed by sonoelectrochemical dissolution. High shear forces were obtained by using a convergent nozzle with a throat diameter of 0.2 mm, feeded by a plunger pump at a pressure of 60 MPa. Cavitating submerged jets acted locally on the water dispersed waste catalyst. As-obtained samples were analyzed by scanning electron microscopy and transmission electron microscopy. Electron microscopy on the initial sample showed that round shaped Pd and Pt nanoparticles were randomly distributed on the Al2O3 matrix. Cavitated samples show two zones in which Pt and Pd were partially and completely separated from the cordierite. The hydrodynamic cavitation separates the Pd and Pt from the cordierite leading to an apparent increase in Pd and Pt concentrations of 9% and 34% respectively. Conventional electrochemistry showed a dissolution of 20% in 1 h. To further accelerate the dissolution, a sonotrode operating at 20 kHz and 75 W was placed inside an electrochemical cell in order to increase the mass transport and obtain high dissolution rates. Indeed, the results showed that 40% of the available Pd and Pt can be recycled in just 1 h. In the absence of hydrodynamic cavitation and using conventional electrochemistry less than 10% of the available Pt and Pd is recovered in 1 h. The cost analysis showed that Pd and Pt can be recovered at less than 10 EUR per g which is 5 times smaller than their current market price.

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