A fundamental study of octanohydroxamic acid adsorption on monazite surfaces

Q1 Earth and Planetary Sciences
Wencai Zhang, Rick Honaker
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引用次数: 21

Abstract

The adsorption mechanism of octanohydroxamic acid (OHA) on monazite was studied using kinetic, isotherm, and thermodynamic adsorption tests as well as FTIR, titration, and micro-flotation experiments. The adsorption mechanism was described as a chemisorption/surface precipitation process. At low OHA concentrations, adsorption occurred by chemisorption as a result of the reaction between surface active sites and OHA molecules. With an increase in concentration and interaction time, surface precipitation occurred. For chemisorption, adsorption was an exothermic and entropy driven process and maximum adsorption was achieved at pH 9.0 due to more active sites. In an acidic environment, such as pH 3.0, adsorption was achieved via chemisorption and hydrophobic bonding. However, a strong basic and higher temperature environment contributes to surface precipitation of basic rare earth hydroxamate. FTIR tests showed the movement of CH2 band position from 2924 cm 1 to 2920 cm 1 with increases in pH values from 3.0 to 6.0, 9.0, and 11.0, which corresponds to the status of chemisorbed and surface precipitated OHA, respectively.

辛羟肟酸在独居石表面吸附的基础研究
采用动力学、等温线和热力学吸附实验以及红外光谱、滴定和微浮选实验研究了辛氧肟酸(OHA)在独居石上的吸附机理。吸附机理描述为化学吸附/表面沉淀过程。在低OHA浓度下,由于表面活性位点与OHA分子之间的反应,通过化学吸附发生吸附。随着浓度的增加和作用时间的延长,地表降水发生。化学吸附是一个放热和熵驱动的过程,在pH为9.0时,由于活性位点较多,吸附量最大。在pH 3.0等酸性环境下,通过化学吸附和疏水性键合实现吸附。然而,强碱性和高温环境有利于碱性稀土羟基酸盐的表面沉淀。FTIR测试表明,随着pH值从3.0增加到6.0、9.0和11.0,CH2波段的位置从2924 cm−1移动到2920 cm−1,分别对应于化学吸附和表面沉淀的OHA状态。
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来源期刊
International Journal of Mineral Processing
International Journal of Mineral Processing 工程技术-工程:化工
CiteScore
3.02
自引率
0.00%
发文量
0
审稿时长
11.1 months
期刊介绍: International Journal of Mineral Processing has been discontinued as of the end of 2017, due to the merger with Minerals Engineering. The International Journal of Mineral Processing covers aspects of the processing of mineral resources such as: Metallic and non-metallic ores, coals, and secondary resources. Topics dealt with include: Geometallurgy, comminution, sizing, classification (in air and water), gravity concentration, flotation, electric and magnetic separation, thickening, filtering, drying, and (bio)hydrometallurgy (when applied to low-grade raw materials), control and automation, waste treatment and disposal. In addition to research papers, the journal publishes review articles, technical notes, and letters to the editor..
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