PROMISING MULTIFUNCTIONAL ANIONITES FOR THE EXTRACTION OF CHROMIUM (VI) IONS

T. Kovrigina, K.Kh, Khakimbolatova, T. Chalov, B. Begenova, Vasilyevna, Khakimbolatova Kamila, Khakimbolatovna Ph., Kamenovich, Вegenova Bakhyt Estekenovna
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Abstract

30% of the chromium ore reserves in the world are concentrated in Kazakhstan, during the processing of which large volumes of wastewater containing toxic chromium salts, are formed. Сhromium is one of the priority components both in terms of emission and toxicity (for Cr(VI), the maximum permissible concentration is 0.05 mg/l). The compounds of chromium (III) and especially chromium (VI) have a general toxic, allergenic, carcinogenic, mutagenic effect on the human body, and are among the most dangerous pollutants for the environment. The aim of this work is to develop a technological scheme for the extraction of Cr (VI) ions by multifunctional ion exchangers. Methods. Anionite, based on diglycidyl ether of dioxyphenylpropane, allylglycidyl ether and polyethylenimine – Ionite No. 1 has been synthesized by polycondensation, and epoxyamine has been synthesized from benzylamine and epichlorohydrin, by the condensation of which Ionite No.2 has been obtained with polyethylenimine. The sorption of chromium ions on newly synthesized anionites has been studied, using model solutions with the concentrations of 25, 50, 75 and 100 mg/l Cr (VI). Results and discussion. It has been established that Ionite No.1 exhibits greater affinity for Cr (VI) ions. So, its maximum sorption capacity is 13.5, and that of Ionite No.2 is 11.7 mg/g. Conclusion. We have proposed a basic technological scheme of a desalination plant, consisting of modular units: reagent-mechanical, sorption, membrane, ion exchange and bacterial purification. It has been established that reagentmechanical purification is the initial stage of water treatment, designed to isolate insoluble coarse- and fine-dispersed impurities.
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有前途的多功能阴离子萃取铬(vi)离子
世界上30%的铬矿储量集中在哈萨克斯坦,在加工过程中形成了大量含有毒铬盐的废水。Сhromium在排放和毒性方面都是优先成分之一(对于Cr(VI),最大允许浓度为0.05 mg/l)。铬(III)特别是铬(VI)的化合物对人体具有普遍的毒性、致敏性、致癌性、诱变性作用,是对环境最危险的污染物之一。本研究的目的是建立一种多功能离子交换剂萃取Cr (VI)离子的工艺方案。方法。以二氧苯丙烷的二缩水甘油酯、烯丙基缩水甘油酯和聚乙烯亚胺为原料缩聚合成了1号离子盐,以苄胺和环氧氯丙烷为原料缩聚合成了环氧胺,并与聚乙烯亚胺缩聚得到了2号离子盐。采用浓度分别为25、50、75和100 mg/l Cr (VI)的模型溶液,研究了新合成的阴离子对铬离子的吸附。离子石1号对Cr (VI)离子具有较强的亲和力。故其最大吸附量为13.5 mg/g, 2号离子酸盐的最大吸附量为11.7 mg/g。结论。我们提出了一个海水淡化厂的基本技术方案,由模块化单元组成:试剂机械、吸附、膜、离子交换和细菌净化。已经确定,试剂机械净化是水处理的初始阶段,旨在分离不溶性粗分散和细分散的杂质。
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