<  Retour au portail Polytechnique Montréal

Washing machine filters to mitigate microplastics release: citizen science study to estimate microfibers capture potential and assess their social acceptability

Mohammed Abourich, Ambroise Bellamy, Abdellah Ajji et Dominique Claveau-Mallet

Article de revue (2024)

Document en libre accès dans PolyPublie et chez l'éditeur officiel
[img]
Affichage préliminaire
Libre accès au plein texte de ce document
Version officielle de l'éditeur
Conditions d'utilisation: Creative Commons: Attribution-Pas d'utilisation commerciale (CC BY-NC)
Télécharger (8MB)
[img]
Affichage préliminaire
Libre accès au plein texte de ce document
Matériel supplémentaire
Conditions d'utilisation: Creative Commons: Attribution-Pas d'utilisation commerciale (CC BY-NC)
Télécharger (1MB)
Afficher le résumé
Cacher le résumé

Abstract

The accumulation of microplastics in the environment, particularly due to the significant contribution of synthetic clothing washing water, leads to a need for developing source-based retention solutions. The project's objective is to assess the capability of washing machine filters to capture microfibers from domestic wastewater under real laundry conditions. This involves developing a protocol for quantifying microfibers tailored to washing machine lint samples, estimating the potential microfiber capture by washing machine filters, and evaluating the social acceptability of using such filters in households. Volunteers were recruited and they used their washing machines normally, collecting lint in the filter over a 6-month period and documenting information for each load. Various reagents were tested using plastic controls and lint samples to select the most efficient one for removing organic matter without affecting microplastics. Microscopic visual alterations, chemical signatures via FTIR, and the efficacy of the digestion protocol were assessed through mass balance and visual counting. After discarding digestion protocols affecting plastic integrity, those ensuring the most efficient mass loss of organic matter were identified as H2O2 30 % for 5 days at room temperature (RT), NaOCl 3 % for 24 h at RT, and H2O2 30 % at 40 °C for 24 h. Polyester, acrylic, and polyamide controls were tested with NaOCl 3 % for 24 h and H2O2 30 % for 5 days, showing no changes in SEM images. The FTIR successfully recognized the chemical signature. More significant alterations on positive samples (cotton and cellulose) were observed after NaOCl exposure. The mean mass of microfibers remaining after digestion was estimated at 4.62 mg per liter of washing water or 61 mg/kg of washed garment. The survey revealed that 67.8 % of volunteer participants found the filter installation challenging, and 21.4 % had to hire a plumber, highlighting potential challenges associated with implementing washing machine filters on a large scale.

Mots clés

microplastics; microfiber; citizen science; domestic laundry; washing machine filter; social acceptability

Sujet(s): 1500 Génie de l'environnement > 1500 Génie de l'environnement
Département: Département des génies civil, géologique et des mines
Centre de recherche: CREPEC - Centre de recherche sur les systèmes polymères et composites à haute performance
Organismes subventionnaires: Recyc-Québec, Mitacs
Numéro de subvention: IT26794
URL de PolyPublie: https://publications.polymtl.ca/59139/
Titre de la revue: Environmental Challenges (vol. 16)
Maison d'édition: Elsevier
DOI: 10.1016/j.envc.2024.100984
URL officielle: https://doi.org/10.1016/j.envc.2024.100984
Date du dépôt: 18 sept. 2024 13:34
Dernière modification: 29 déc. 2024 23:10
Citer en APA 7: Abourich, M., Bellamy, A., Ajji, A., & Claveau-Mallet, D. (2024). Washing machine filters to mitigate microplastics release: citizen science study to estimate microfibers capture potential and assess their social acceptability. Environmental Challenges, 16, 100984 (11 pages). https://doi.org/10.1016/j.envc.2024.100984

Statistiques

Total des téléchargements à partir de PolyPublie

Téléchargements par année

Provenance des téléchargements

Dimensions

Actions réservées au personnel

Afficher document Afficher document