Technology for the Nondestructive Reprocessing of Sodium Iodide Technogenic Solutions into a Charge for Single Crystal Growth

IF 0.6 Q3 MULTIDISCIPLINARY SCIENCES
B. Grinyov, V. Cherginets, T. Rebrova, T. Ponomarenko, A. Varich, V. Taranyuk, N. Rebrova, O. Grippa, O. Rebrov
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Abstract

Introduction. The production of NaI-based single crystals results in accumulation of great amount of liquid waste. To bring valuable constituents of this waste back, the NaI technogenic solutions are treated to precipitate iodine that is further used in the synthesis of high-pure NaI. However, the least contaminated part of the waste may be brought back into the main technological process without the intermediary stage of iodine destruction, which allows a considerable cost saving.Problem Statement. There have been no data on the effective purification coefficients for NaI solutions subsequently treated with barium hydroxide, sodium carbonate, and by mass crystallization. Requirements to impurity content, which NaI solutions have to comply with in order to be used in the nondestructive treatment have mot been not formulated.Purpose. The purpose of this research is to develop a technology for reprocessing NaI technogenic solutionsinto sodium iodide of high purity without NaI destruction at the intermediate stage.Material and Methods. The materials that have been used for this research are as follows: aqueous solutions of NaI-based crystal production waste, active coal, barium hydroxide, sodium carbonate. The methods that have been employed are the treatment of NaI solutions with barium hydroxide, sodium carbonate, and by mass crystallization. Results. The technology of NaI solution purification by treatment with barium hydroxide and sodium carbonate with further mass crystallization of the purified salt has been developed. This technology is more environment friendly and cheaper than the conventional one that includes obtaining pure iodine. A series of NaI technogenic solutions has been treated in laboratory conditions and on industrial equipment, and the efficiency of their purification by the chemical treatment and mass crystallization hasbeen estimated. The impurity content in the obtained salt and the scintillation parameters of grown NaI : Tl crystals meet the requirements for these products.Conclusions. The technology has been implemented in the manufacturing process at the pilot plant of the Institute for Scintillation Materials of the NAS of Ukraine. It may be used at other enterprises that deal with alkali metal iodide waste treatment.
碘化钠技术溶液无损后处理成单晶生长电荷的技术
介绍NaI基单晶的生产导致大量液体废物的积累。为了回收这些废物中有价值的成分,对NaI技术溶液进行处理以沉淀碘,碘进一步用于合成高纯NaI。然而,废物中污染最小的部分可以在没有碘破坏的中间阶段的情况下被带回主要工艺过程,这可以节省相当大的成本。问题陈述。没有关于随后用氢氧化钡、碳酸钠和质量结晶处理的NaI溶液的有效纯化系数的数据。NaI溶液必须符合杂质含量要求才能用于无损处理,但尚未制定杂质含量要求。意图本研究的目的是开发一种在中间阶段不破坏NaI的情况下将NaI工艺溶液再处理成高纯度碘化钠的技术。材料和方法。用于本研究的材料如下:NaI基晶体生产废物的水溶液、活性煤、氢氧化钡、碳酸钠。已经采用的方法是用氢氧化钡、碳酸钠和通过质量结晶处理NaI溶液。后果开发了用氢氧化钡和碳酸钠处理NaI溶液,并对纯化的盐进行进一步的质量结晶的技术。这种技术比包括获得纯碘在内的传统技术更环保、更便宜。在实验室条件下和工业设备上对一系列NaI工艺溶液进行了处理,并估计了化学处理和大规模结晶对其净化的效率。所得盐中的杂质含量和生长的NaI:Tl晶体的闪烁参数满足这些产品的要求。结论。该技术已在乌克兰国家科学院闪烁材料研究所的中试工厂的制造过程中实施。它可以用于其他处理碱金属碘化物废物的企业。
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来源期刊
Science and innovation
Science and innovation MULTIDISCIPLINARY SCIENCES-
CiteScore
1.10
自引率
0.00%
发文量
55
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