Recycling of Bulk Polyamide 6 by Dissolution-Precipitation in CaCl<sub>2</sub>-EtOH-H<sub>2</sub>O Mixtures

Recycling of Bulk Polyamide 6 by Dissolution-Precipitation in CaCl<sub>2</sub>-EtOH-H<sub>2</sub>O Mixtures

To address the problems of virgin plastic production from fossil resources and the growing amount of plastic waste, a rapid transition to a circular economy is being pursued. The separation of mixed plastics into pure fractions is of paramount importance for promoting recycling and preventing downcy...

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Bibliographic Details
Main Authors: Ruben Goldhahn, Ann-Joelle Minor, Liisa Rihko-Struckmann, Siew-Wan Ohl, Patricia Pfeiffer, Claus-Dieter Ohl, Kai Sundmacher
Format: Article
Language:English
Published: MDPI AG 2025-01-01
Series:Recycling
Subjects:
circular economy
polymer recycling
polyamide 6
dissolution-reprecipitation
process intensification
Online Access:https://www.mdpi.com/2313-4321/10/1/5
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Summary:To address the problems of virgin plastic production from fossil resources and the growing amount of plastic waste, a rapid transition to a circular economy is being pursued. The separation of mixed plastics into pure fractions is of paramount importance for promoting recycling and preventing downcycling. In this study, experimental parameters were determined for the selective bulk dissolution of polyamide 6 (PA 6) filaments (1.75 mm diameter, 1 cm length) in CaCl<sub>2</sub>-EtOH-H<sub>2</sub>O mixtures (CEW) at 75 °C. These parameters included the energy supply mode, dissolution time, CEW composition and CEW:PA mass ratio. Compared with energy supply by microwaves, energy supply by ultrasound improved the yield of dissolved and recovered PA 6 after 5 h from 31% to 52%. In total, the yield of PA 6 after 3 h of bulk dissolution increased from 18% to 69% when the energy supply mode was changed from microwave to ultrasound and the H<sub>2</sub>O:EtOH molar ratio of CEW was increased from 0.40 to 1.33 while maintaining an optimal CEW:PA mass ratio of 8.5. Additionally, master plot analysis suggested that dissolution under microwave energy supply followed a contracting cylinder model, whereas dissolution under ultrasonic energy supply aligned with a 2D diffusion or third-order kinetic model. Microscopic observations suggested that, in the case of ultrasonic energy supply, oscillating bubbles on the particle surface enhanced the dissolution rate of PA 6 filaments in CEW.
ISSN:2313-4321

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