卤水衍生铁层双氢氧化物对硝酸盐的去除行为

T. Wajima
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引用次数: 2

摘要

地表水和地下水的硝酸盐污染是世界上许多地区农业活动中存在的主要问题之一,迫切需要开发有效的材料和工艺来有效地去除水中环境中过量的硝酸盐。另一方面,卤水是海水中很有潜力开发利用的资源之一,它含有大量的镁和钙。在本研究中,我们尝试制备对卤水中硝酸盐具有高去除性能的吸附剂。以卤水为原料,加入廉价的FeCl3,合成了具有硝酸盐脱除能力的fe型层状双氢氧化铁(Fe-LDH)。在卤水中加入FeCl3可合成Fe-LDH,产物对硝酸盐离子具有去除能力。采用Langmuir和Freundlich等温线模型对产物对硝酸盐的平衡吸附量进行了测量和外推,实验数据更符合Freundlich而不是Langmuir。计算出对硝酸盐的最大吸附量为0.32 0.47 mmol/g。由于Fe-LDH的离子交换反应,硝酸盐的吸附在30min内增加,然后逐渐降低,在硝酸盐去除过程中Ca从产物中洗脱。该产品能选择性地去除含盐溶液中的硝酸盐离子。
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Removal Behavior of Nitrate Using Fe-Layered Double Hydroxide Derived from Bittern
Nitrate contamination of surface and groundwater is one of the main problems associated with agricultural activities in many part of the world, and there is an urgent need to develop effective materials and process for efficiently removing excess nitrate from aquatic environment. On the other hands, bittern is one of the resources from seawater to be desired for a new utilization, and contains high amounts of Mg and Ca. In this study, we attempted to prepare the adsorbent with high removal performance for nitrate from bittern. The product including Fe-type layered double hydroxide (Fe-LDH), which has nitrate removal ability, was synthesized from bittern with addition of cheap agent, FeCl3. Fe-LDH can be synthesized from bittern with addition of FeCl3, and the product from the bittern has removal ability for nitrate ion. The equilibrium adsorption capacity of the product for nitrate were measured and extrapolated using Langmuir and Freundlich isotherm models, and experimental data are found to fit Freundlich than Langmuir. The calculated maximum adsorption capacity for nitrate is 0.32 0.47 mmol/g. Adsorption of nitrate increase within 30 min and then gradually decrease, due to the ion exchange reaction of Fe-LDH, and Ca is eluted from the product during the nitrate removal. The product can remove nitrate ion selectively in salty solution.
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