Department of Civil and Environmental Engineering, The Hong Kong Polytechnic University, Hung Hom, Kowloon, Hong Kong.
Department of Civil and Environmental Engineering, The Hong Kong Polytechnic University, Hung Hom, Kowloon, Hong Kong.
Water Res. 2017 Apr 1;112:167-175. doi: 10.1016/j.watres.2017.01.041. Epub 2017 Jan 25.
The toxicity of antipyrine (AP) in the photodegradation using UV/CoFeO/TiO was investigated by analyzing the characteristic of the catalyst, the effect of parameters (light source wavelength, catalyst dose, pH and initial AP concentration), the reaction mechanism (the organic intermediates, TOC reduction and inorganic ions release) and the newly proposed low-dosage-high-effective radical reaction approach. The catalyst shows the optimal removal efficiency under the conditions of wavelength at 350 nm, the catalyst dose at 0.5 g/L, and pH value at 5.5. Ten organic intermediates were identified, and five of them were newly reported in AP treatment process. Hydroxylation, demethylation and the cleavage of the pentacyclic ring were included in the decomposition pathways. The ring opening was certified by the 45% TOC reduction and 60% ammonia release during the process. The parent compound AP and its degradation products show positive effects on the growth of the algae. However, acute toxicity of AP was detected on brine shrimps Artemia salina. The toxicity was eliminated gradually with the decomposition of AP and the generation of the byproducts. The results indicate that the photocatalysis process is effective in AP removal, TOC reduction and toxicity elimination.
采用 UV/CoFeO/TiO 光降解技术研究了非那西丁(AP)的毒性,分析了催化剂的特性、参数(光源波长、催化剂剂量、pH 值和初始 AP 浓度)的影响、反应机制(有机中间体、TOC 去除和无机离子释放)和新提出的低剂量-高效自由基反应方法。在波长为 350nm、催化剂剂量为 0.5g/L、pH 值为 5.5 的条件下,催化剂表现出最佳的去除效率。鉴定出 10 种有机中间体,其中 5 种是在 AP 处理过程中首次报道的。在分解途径中包括了羟基化、去甲基化和五环的裂解。在这个过程中,TOC 减少了 45%,氨释放了 60%,证明了开环的发生。母体化合物 AP 及其降解产物对盐水虾 Artemia salina 的生长有积极影响。然而,对卤虫 Artemia salina 检测到 AP 的急性毒性。随着 AP 的分解和副产物的生成,毒性逐渐消除。结果表明,光催化过程在 AP 去除、TOC 去除和毒性消除方面是有效的。
