Effect of secondary and tertiary wastewater treatment methods on opioids and the subsequent environmental impact of effluent and biosolids

• Published in: Chemosphere (Oxford) Vol. 364; p. 143307
• Main Authors: Simpson, Jamie, Simpson, Bradley Scott, Gerber, Cobus
• Format: Journal Article
• Language: English
• Published: England Elsevier Ltd 01.09.2024
• Subjects: Biosolid; Chlorination; Fentanyl; Tapentadol; Tramadol; WWTP; UV; Chlorination; WWTP; Tramadol; Fentanyl; Tapentadol; Biosolid; biosolid; fentanyl; tramadol; chlorination
• ISSN: 0045-6535; 1879-1298; 1879-1298
• DOI: 10.1016/j.chemosphere.2024.143307

Opioids are widely distributed, potent prescription analgesics that are known to be diverted for illicit use. Their prevalence of use is reflected by high concentrations of parent compounds and/or metabolites found in samples collected from wastewater treatment plants. Given that treatment byproducts enter the environment through several routes, the consequences of insufficient removal by treatment methods include unwanted environmental exposure and potential to disrupt ecosystems. Activated sludge treatment has been widely investigated for a large suite of prescription opioids but the same cannot be said for UV and chlorination. Additionally, the biosolid cycle of opioids has been overlooked previously. This study aimed to determine the extent to which secondary and tertiary wastewater treatment methods remove opioids from influent, and the associated environmental exposure for those persistent, as well as the fate of opioids in biosolids. Membrane bioreactor treatment proved effective for natural and semi-synthetic opioids while the effect of UV treatment was negligible. Chlorination was the most effective treatment method resulting in effluent with concentrations below theoretical predicted no-effect concentration. Biosolids are not subjected to any additional biological or chemical treatment after membrane bioreactor treatment and the levels detected in biosolid used as fertiliser had several opioids at potentially hazardous concentrations, indicated by a QSAR theoretical model. This data indicates a potential issue regarding the treatment process of biosolids and reliance on chlorination for effluent treatment that should be investigated in other treatment plants. [Display omitted] •The fate of opioids in wastewater treatment plant influent and biosolids was assessed.•MBR quantitatively removed two natural and four semi-synthetic opioids.•Chlorination was necessary for synthetic opioids to approach 100% removal.•Tramadol had a HQ > 1 in biosolids and had the highest concentration in effluent.