FLAVIO KIYOSHI TOMINAGA
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Artigo IPEN-doc 28433 UVA/persulfate-driven nonylphenol polyethoxylate degradation2022 - NUNES, R.F.; TOMINAGA, F.K.; BORRELY, S.I.; TEIXEIRA, A.C.S.C.UV/persulfate (UV/PS) technologies have gained increased attention as efficient alternatives for removing pollutants from different classes, although processes based on the UVA-driven S2O2ā8 (PS) activation have not yet been discussed in the literature for the removal of the nonionic surfactant nonylphenol polyethoxylate (NPEO). The present study investigated the simultaneous effect of the initial persulfate concentration ([PS]0) and specific photon emission rate (EP,0) on NPEO degradation by UVA/PS following a Doehlert experimental design. The results for [NPEO]0ā=ā(4.65āĀ±ā0.15) mg Lā1 indicated more than 97.8% NPEO removal after 2ā h, with pseudo first-order specific degradation rate (kobs) of 0.0320 minā1, for [PS]0ā=ā7.75ā mmol Lā1 and EP,0ā=ā0.437 Ī¼mol photons Lā1 sā1. Under these conditions, NPEO half-life time was about 22ā min, and the EC50-48ā h (% v/v) values for Daphnia similis before and after treatment did not differ significantly. Higher values of EP,0 would influence NPEO removal for [PS]0 not higher than 8ā10ā mmol Lā1, although lower degradation efficiencies were obtained with higher [NPEO]0 or real wastewater, except for longer reaction times. Additionally, UVA/PS showed to be efficient for tensoactivity removal, despite the negligible total organic carbon (TOC) removal achieved. Finally, UVC and UVA resulted in NPEO degradation higher than 96% and similar tensoactivity removals when UVA/PS was conducted under optimal conditions ([PS]0ā=ā10ā mmol Lā1; EP,0ā=ā0.324ā Ī¼mol photons Lā1 sā1), suggesting that UVA radiation available in solar light could be advantageously employed for NPEO removal at concentrations usually found in wastewater.