使用基于壳聚糖和二氧化硅的复合吸附剂在动态条件下浓缩水介质中的重金属离子

V. A. Gabrin, T. Nikiforova, V. Kozlov, P. Razgovorov
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引用次数: 0

摘要

研究目的本研究旨在探究一种基于壳聚糖水凝胶和未悬浮二氧化硅(壳聚糖-胶体二氧化硅)的复合吸附剂在水溶液动态净化条件下的吸附、毒理学和再生特性,以此作为去除重金属离子的一种手段。在动态吸附条件下,将含有锌(II)、镉(II)、铜(II)和铬(III)离子的浓度为 240-251 毫克/升的溶液通过固定吸附床,评估壳聚糖-胶体二氧化硅复合吸附剂的总动态交换能力。利用水蚤(Daphnia magna Straus)测定急性毒性的方法是直接计算水蚤暴露于试验水提取物中的有毒物质后的死亡率,并与不含有毒物质的样品中的参考培养物进行比较。通过计算使用 0.1 M NaOH 和 0.1 M NaHCO3 洗脱液以及 H2O2(1% 和 3%)水溶液进行吸附-解吸循环的次数来评估吸附剂的再生能力。确定了壳聚糖-硅胶复合吸附剂在水介质动态净化过程中去除 Cu(II)、Zn(II)、Cd(II) 和 Cr(III) 离子的有效性。在确定了所开发吸附剂的离子突破时间和饱和时间后,通过处理动态条件下重金属离子吸附动力学曲线,计算了其动态交换容量。根据吸附剂的再利用可能性,介绍了吸附剂的再生结果。结果表明,吸附剂可以承受多达五次吸附-解吸循环,同时保持高于 90% 的阳离子铜萃取率。动力学曲线分析表明,利用所获得的吸附剂去除水介质中重金属的驱动力是溶液流动相中离子的外部扩散传质。样品的生物测试表明,所开发的壳聚糖基吸附剂没有急性毒性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Concentration of heavy metal ions from aqueous media under dynamic conditions using a composite sorbent based on chitosan and silica
Objectives. The study set out to investigate the sorption, toxicological, and regeneration properties of a composite sorbent based on chitosan hydrogel and unsuspended silicon dioxide (chitosan–colloidal silica), which manifest themselves under dynamic conditions of purification of aqueous solutions, as a means of removing heavy metal ions.Methods. The total dynamic exchange capacity of a chitosan–colloidal silica composite sorbent was evaluated under dynamic sorption conditions by passing solutions containing Zn(II), Cd(II), Cu(II), and Cr(III) ions having a concentration of 240–251 mg/L through a fixed sorption bed. The method for determining acute toxicity using daphnia (Daphnia magna Straus) is based on the direct calculation of the mortality of daphnia exposed to toxic substances contained in the test aqueous extract in comparison with a reference culture in samples that do not contain toxic substances. The regeneration ability of the sorbent was assessed by counting the number of sorption–desorption cycles using 0.1 M NaOH and 0.1 M NaHCO3 eluents, as well as aqueous solutions of H2O2 (1 and 3%).Results. The effectiveness of the chitosan–colloidal silica composite sorbent in the process of dynamic purification of aqueous media to remove Cu(II), Zn(II), Cd(II), and Cr(III) ions was established. After determining the times of ion breakthrough and saturation of the developed sorbent, its dynamic exchange capacity was calculated by processing the kinetic curves of sorption of heavy metal ions under dynamic conditions. The results of regeneration of the sorbent were presented in the context of the possibility of its reuse. It is shown that the sorbent can withstand up to five sorption–desorption cycles while maintaining a level copper cation extraction above 90%.Conclusions. Analysis of the kinetic curves demonstrated that the driving force behind the removal of heavy metals from aqueous media by means of the obtained sorbent is the external diffusion mass transfer of ions from the mobile phase of the solution. Biotesting of samples showed that the developed chitosan-based sorbent does not have acute toxicity.
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