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利用键合型混凝剂研究腐殖酸的混凝性能及机理:pH 的影响及腐殖酸官能团的匹配机制。

Coagulation performance and mechanism analysis of humic acid by using covalently bonded coagulants: effect of pH and matching mechanism of humic acid functional groups.

机构信息

School of Civil Engineering and Architecture, Anhui University of Technology, Maanshan, 243002, Anhui, China.

Engineering Research Center of Biomembrane Water Purification and Utilization Technology, Ministry of Education, Maanshan, 243002, Anhui, China.

出版信息

Environ Sci Pollut Res Int. 2024 Mar;31(15):22560-22575. doi: 10.1007/s11356-024-32257-6. Epub 2024 Feb 26.

DOI:10.1007/s11356-024-32257-6
PMID:38407709
Abstract

Conventional inorganic coagulants (Al, Fe) and Al/Fe-based covalently bonded flocculants (CAFMs) had different hydrolysis species at different pHs, which subsequently led to differences in their binding sites and complexation ability with humic acid (HA). Studying the binding sites and interactions between CAFMs, AlCl (Al), and FeCl (Fe) hydrolysates and HA molecules is critical to understanding the coagulation mechanism. The results found that CAFM , Al, and AlCl combined FeCl (Al/Fe) removed more than 90% of HA at pH 6, and CAFMs showed higher HA removal rate than that of Al, Fe, and Al/Fe under the same reaction conditions. The flocs of CAFMs contained abundant -NH/OH as well as the large particle size, compact structure, and excellent settling performance. The hydrolyzed species of Al and Fe were predominantly Al and Fe at pH 6, but the hydrolyzed species of CAFMs were primarily (Al + Fe). Moreover, the hydrolyzed species of Al and Al/Fe were found to complex with HA functional groups such as -COOH, C = O, C-H/C-C, C = C, and C-OH to form ligand bonds, while the hydrolyzed species (Al + Fe) of CAFMs could deeply interact with HA functional groups including C-O, -COOH, C = O, C-H/C-C, C = C, and C-OH by the adsorption and sweeping.

摘要

传统无机混凝剂(Al、Fe)和 Al/Fe 键合型絮凝剂(CAFMs)在不同 pH 值下具有不同的水解产物,这导致它们与腐殖酸(HA)的结合位点和络合能力存在差异。研究 CAFMs、AlCl(Al)和 FeCl(Fe)水解产物与 HA 分子之间的结合位点和相互作用对于理解混凝机制至关重要。结果表明,CAFM、Al 和 AlCl 在 pH 6 下结合 FeCl(Al/Fe)去除了超过 90%的 HA,并且在相同反应条件下,CAFMs 比 Al、Fe 和 Al/Fe 具有更高的 HA 去除率。CAFMs 的絮体含有丰富的-NH/OH 以及较大的粒径、紧密的结构和优异的沉降性能。Al 和 Fe 的水解产物在 pH 6 时主要是 Al 和 Fe,但 CAFMs 的水解产物主要是(Al+Fe)。此外,发现 Al 和 Al/Fe 的水解产物与 HA 官能团(如-COOH、C=O、C-H/C-C、C=C 和 C-OH)发生络合,形成配位键,而 CAFMs 的水解产物(Al+Fe)则通过吸附和扫掠与包括 C-O、-COOH、C=O、C-H/C-C、C=C 和 C-OH 在内的更多 HA 官能团发生深度相互作用。

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