壳聚糖-腐殖酸-零价铁纳米复合材料在水中还原硝酸盐的制备与表征

C. Akinremi, Nikechukwu N. Omosun, S. Adewuyi, J. Azeez, Sanyaolu Nurudeen Olanrewaju
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引用次数: 8

摘要

制备了一种新型零价铁壳聚糖-腐植酸纳米复合材料,并对其在水中还原硝酸盐离子进行了试验。利用腐植酸对壳聚糖线性链进行分子内交联,增加壳聚糖生物高聚物上的活性位点,再用硼氢化钠还原氯化铁,作为稳定剂合成零价铁纳米颗粒。利用红外光谱、扫描电镜、能量色散x射线和x射线衍射仪对产物进行表征。采用不同浓度的产品,在不同浓度的硝酸盐离子和不同的接触时间下,对水中硝酸盐进行了批量还原实验。根据Langmuir方程,硝酸溶液的吸附平衡数据显示出良好的吸附效果。改变纳米复合材料与硝酸盐离子的比例,通常会导致硝酸盐的还原速度加快,吸附的伪一级速率常数随着纳米复合材料与硝酸盐离子比例的增加而增加。利用排水废水和河流中硝酸盐初始浓度分别为ppm和ppm的真实水样,进一步验证了零价铁壳聚糖-腐殖酸纳米复合材料对硝酸盐的去除效果。纳米复合材料对水中硝酸盐的还原效果良好。
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Preparation and Characterization of Chitosan-Humic Acid-Zerovalent Iron Nanocomposite for Nitrate Reduction in Water
A new zerovalent iron chitosan-humic acid nanocomposite was prepared and tested for nitrate ion reduction in water. Humic acid was used for intramolecular cross-linking of the chitosan linear chains to increase the active sites on the chitosan biopolymer and then further used as a stabilizer to synthesize zerovalent iron nanoparticles by the reduction of iron (II) chloride with sodium borohydride. Characterization of the products was carried out using infrared spectroscopy, scanning electron microscope, energy dispersive X-ray, and X-ray diffractometer. Batch experiments were conducted for the reduction of nitrate in water using different concentrations of the products in different concentrations of nitrate ion and at different contact time. The adsorption equilibrium data for the nitrate solution gave a favorable adsorption according to the Langmuir equation. Varying the nanocomposite-to-nitrate ion ratio generally led to faster nitrate reduction, with the pseudofirst-order rate constant for the adsorption increasing with increase in nanocomposite-to-nitrate ion ratio. Nitrate removal efficiency of zerovalent iron chitosan-humic acid nanocomposite was further confirmed using real water samples obtained from drainage waste and river with an initial nitrate concentration of and  ppm, respectively. The reduction of nitrate in water using the nanocomposite was concluded to be highly effective.
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