Water Science and Technology (Dec 2023)

Assessing the efficacy and mechanisms of glycol-contaminated water treatment through floating treatment wetlands

  • Tao Lyu,
  • Randy Williams,
  • Benjamin Exton,
  • Robert C. Grabowski

DOI
https://doi.org/10.2166/wst.2023.389
Journal volume & issue
Vol. 88, no. 11
pp. 2751 – 2761

Abstract

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The growing concerns surrounding water pollution and the degradation of ecosystems worldwide have led to an increased use of nature-based solutions (NbSs). This study assessed the feasibility of using floating treatment wetlands (FTWs) as an NbS to treat propylene glycol-contaminated water and quantitatively investigated different removal pathways. With an environmentally relevant concentration of propylene glycol (1,250 mg/L), FTWs containing Acorus calamus and mixed species demonstrated the highest average glycol mass removal efficacy (99%), followed by Carex acutiformis (98%), Juncus effusus (93%), and the control group without plants (10%) after 1 week. Additional mesocosm-scale experiments with varying FTW configurations, including surface coverage to reduce evaporation and photodegradation processes, and the addition of antibiotics to inhibit microbial activity, were conducted to quantify glycol removal pathways. Mass balance analysis results revealed that microbial biodegradation (33.3–39.7%) and plant uptake (37.9–45.2%) were the primary pathways for glycol removal. Only 15.5–19.5% of the glycol removal via evaporation and photodegradation was accounted in this study, which may be attributed to the mesocosm experimental setup (static water and no wind). Aligned with the broader discussion regarding biodiversity improvements and carbon storage capacity, this study demonstrated that FTWs are an environmentally friendly and effective NbS for addressing glycol-contaminated water. HIGHLIGHTS Floating treatment wetland (FTW) can effectively remove organic micropollutants.; Acorus and Carex are more efficient to remove propylene glycol than Juncus.; Microbial biodegradation and plant uptake are the major removal pathways.; Mixed species in FTW can yield high removal efficiency and support biodiversity.;

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