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天然有机物或其他背景成分对光催化高级氧化过程的抑制作用:机理模型的建立与验证。

Inhibitory effect of natural organic matter or other background constituents on photocatalytic advanced oxidation processes: Mechanistic model development and validation.

机构信息

Rice University Department of Civil and Environmental Engineering, Houston, TX, USA.

Shanghai Jiao Tong University, School of Environmental Science and Engineering, Shanghai, China.

出版信息

Water Res. 2015 Nov 1;84:362-71. doi: 10.1016/j.watres.2015.07.044. Epub 2015 Jul 29.

DOI:10.1016/j.watres.2015.07.044
PMID:26302091
Abstract

The ability of reactive oxygen species (ROS) to interact with priority pollutants is crucial for efficient water treatment by photocatalytic advanced oxidation processes (AOPs). However, background compounds in water such as natural organic matter (NOM) can significantly hinder targeted reactions and removal efficiency. This inhibition can be complex, interfering with degradation in solution and at the photocatalyst surface as well as hindering illumination efficiency and ROS production. We developed an analytical model to account for various inhibition mechanisms in catalytic AOPs, including competitive adsorption of inhibitors, scavenging of produced ROS at the surface and in solution, and the inner filtering of the excitation illumination, which combine to decrease ROS-mediated degradation. This model was validated with batch experiments using a variety of ROS producing systems (OH-generating TiO2 photocatalyst and H2O2-UV; (1)O2-generating photosensitive functionalized fullerenes and rose bengal) and inhibitory compounds (NOM, tert-butyl alcohol). Competitive adsorption by NOM and ROS scavenging were the most influential inhibitory mechanisms. Overall, this model enables accurate simulation of photocatalytic AOP performance when one or more inhibitory mechanisms are at work in a wide variety of application scenarios, and underscores the need to consider the effects of background constituents on degradation efficiency.

摘要

活性氧 (ROS) 与优先污染物相互作用的能力对于光催化高级氧化工艺 (AOPs) 进行高效水处理至关重要。然而,水中的背景化合物如天然有机物 (NOM) 会显著阻碍目标反应和去除效率。这种抑制作用可能很复杂,会干扰溶液中和光催化剂表面的降解,以及阻碍光照效率和 ROS 的产生。我们开发了一种分析模型,以解释催化 AOP 中的各种抑制机制,包括抑制剂的竞争吸附、在表面和溶液中产生的 ROS 的清除,以及激发光的内滤作用,这些作用共同降低了 ROS 介导的降解。该模型通过使用各种 ROS 产生系统 (OH 生成的 TiO2 光催化剂和 H2O2-UV;(1)O2 生成的光敏功能化富勒烯和玫瑰红) 和抑制性化合物 (NOM、叔丁醇) 的间歇实验进行了验证。NOM 的竞争吸附和 ROS 的清除是最具影响力的抑制机制。总的来说,当一个或多个抑制机制在各种应用场景中起作用时,该模型能够准确模拟光催化 AOP 的性能,并强调需要考虑背景成分对降解效率的影响。

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