Institute of Environmental Sciences, Bogazici University, 34342 Bebek, Istanbul, Turkey E-mail:
Water Sci Technol. 2013;68(8):1801-9. doi: 10.2166/wst.2013.422.
UV-C, H2O2/UV-C, Fenton and photo-Fenton treatment of a nonylphenol polyethoxylate (NP-10) were comparatively studied, primarily focusing on the acute toxicity of degradation products. Formic, acetic and oxalic acids were all identified as the degradation products of NP-10; however, the sole common carboxylic acid was found to be formic acid for the studied treatment processes. The percent relative inhibition towards Vibrio fischeri increased from 9% to 33% and 24% after 120 min-UV-C and H2O2/UV-C treatment, respectively. Complete NP-10 and 70% of its total organic carbon (TOC) content was removed by the photo-Fenton process, which ensured the fastest removal rates and lowest inhibitory effect (8% after 120 min treatment). The acute toxicity pattern being observed during H2O2/UV-C and photo-Fenton treatment positively correlated with temporal evolution of the identified carboxylic acids, whereas unidentified oxidation products were the most likely origin of the acute toxicity in UV-C photolysis.
研究了 UV-C、H2O2/UV-C、Fenton 和光-Fenton 处理壬基酚聚氧乙烯(NP-10)的效果,主要关注降解产物的急性毒性。研究发现,甲酸、乙酸和草酸均为 NP-10 的降解产物;但在研究的处理过程中,仅发现一种共同的羧酸,即甲酸。经过 120 分钟的 UV-C 和 H2O2/UV-C 处理后,发光菌对 Vibrio fischeri 的相对抑制率分别从 9%增加到 33%和 24%。光-Fenton 工艺可完全去除 NP-10 及其总有机碳(TOC)的 70%,这确保了最快的去除率和最低的抑制作用(处理 120 分钟后为 8%)。在 H2O2/UV-C 和光-Fenton 处理过程中观察到的急性毒性模式与所鉴定的羧酸的时间演变呈正相关,而未鉴定的氧化产物很可能是 UV-C 光解产生急性毒性的原因。
