Fe3+/Ti4+膨润土柱化及其在刚果红和直接脱紫中的应用

Proceedings of the 1st International Conference on Chemical Science and Technology Innovation Pub Date : 2019-01-01 DOI:10.5220/0008854400790088

M. Said, R. Antini, T. Taher, A. Lesbani

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引用次数: 0

摘要

:以Fe 3+ /Ti 4+金属氧化物比例2:1和1:2对膨润土进行柱化处理。采用XRD和FT-IR对柱化产物进行了表征。XRD衍射图表明，在fe3 + / ti4 +的比例为2:1时，得到了最佳的产物。在此比例下，膨润土层基间距为15 Å，而比例为1:2的膨润土层基间距为12.86 Å。采用2:1比例的膨润土吸附刚果红。等温吸附计算遵循Freundlich模型，吸附率(k)对刚果红为0.0008 (min -1)，对直接紫为0.00045 (min -1)。刚果红在70℃时的吸附量为68 mol/g，大于直接紫的51 mol/g。刚果红在70℃时的吸附能(E)为4.90 kJ/mol，高于直接紫的1.01 kJ/mol。焓(ΔH)和熵(ΔS)随刚果红和直接紫浓度的增加而降低。pH为3时，刚果红的最大吸附量为90.60 mg/L。直接紫外光在pH为4时吸附量最大，为79.61 mg/L。

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Pillarization of Bentonite using Fe3+/Ti4+ and Its Application for Congo Red and Direct Violet Removal

: Bentonite was pillarized by using Fe 3+ /Ti 4+ metal oxide ratio 2:1 and 1:2. The pillarization product was characterized by using XRD analysis and FT-IR spectrophotometer. XRD diffractogram showed that the optimal product was obtained at Fe 3+ /Ti 4+ ratio 2:1. At this ratio, basal spacing of bentonite layer is 15 Å while bentonite with ratio 1:2 has basal spacing 12.86 Å. Bentonite 2:1 ratio was applied on Congo red adsorption. The isotherm adsorption was calculated and followed Freundlich model having adsorption rate (k) 0.0008 (min -1 ) for Congo red and 0.00045 (min -1 ) for direct violet. The adsorption capacity (qe) of Congo red at 70 °C is 68 mol/g that larger than 51 mol/g for direct violet. The adsorption energy (E) of Congo red at 70°C is 4.90 kJ/mol also higher then direct violet with 1.01 kJ/mol. The enthalpy (ΔH) and entropy (ΔS) is decreased with increase of Congo red and direct violet concentration. The optimum pH was obtained at 3 whereas the maximum amount of Congo red adsorbed is 90.60 mg/L. Direct violet shows maximum amount of adsorption at pH 4 with 79.61 mg/L.

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Proceedings of the 1st International Conference on Chemical Science and Technology Innovation

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