6533b856fe1ef96bd12b3185

RESEARCH PRODUCT

Removal of selected antibiotics and antiretroviral drugs during post‐treatment of municipal wastewater with UV, UV/chlorine and UV/hydrogen peroxide

Anthony GachanjaElijah NgumbaTuula Tuhkanen

subject

advanced oxidation processEnvironmental Engineeringmedicine.drug_classAntibioticslääkeainejäämätchemistry.chemical_elementhydrogen peroxidejätevesiManagement Monitoring Policy and Lawchemistry.chemical_compoundantibiotics antiretroviral drugskloorivetyperoksidimedicineChlorinehapetus-pelkistysreaktioHydrogen peroxidepost‐treatmentwastewaterWater Science and Technologyjäteveden käsittelyAdvanced oxidation processyhdyskuntajätteetlääkeaineetPulp and paper industryPollutionbiohajoaminenUVchemistryWastewaterchlorinePost treatment

description

Active pharmaceutical ingredients (APIs) are only partially removed by convectional wastewater treatment plants. This study aimed at assessing the post‐treatment degradation of selected antibiotics and antiretroviral drugs by direct UV photolysis and advanced oxidation processes (UV/H2O2 and UV/Cl2) using low‐pressure mercury lamp. The rate of degradation largely followed pseudo first‐order reaction kinetics. Amongst the six studied APIs, sulfamethoxazole, ciprofloxacin and zidovudine were readily degraded by more than 90% using direct UV photolysis. Addition of Cl2 and H2O2 to the UV process led to an increase in the rate of degradation for all the compounds. The effectiveness UV/Cl2 process was affected to a greater extent by the background effluent organic matter. This implies that higher electrical energy and oxidant would be required in the UV/Cl2 process relative to UV/H2O2 process. Generally, electrical energy required to remove 90% of the target compounds increased in the order UV/H2O2 < UV/Cl2 < UV processes. peerReviewed

yearjournalcountryeditionlanguage
2020-07-06
http://urn.fi/URN:NBN:fi:jyu-202007095279