核电厂放射性污染水臭氧化沉淀对137Cs的矿物组成及吸附能力

IF 0.5 Q4 MINERALOGY Mineralogical Journal-Ukraine Pub Date : 2022-01-01 DOI:10.15407/mineraljournal.44.02.060
B. Shabalin, K. Yaroshenko, O. Lavrynenko, N. Mitsiuk
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引用次数: 0

摘要

研究了核电厂废水模拟模型溶液(总矿化7 g/dm3, pH = 11.5, T = 60℃,T = 2 h) 137Cs臭氧化过程中沉淀的矿物组成和吸附性能。析出物由细小分散的金属氧化物球形颗粒组成,尺寸从20到30纳米不等,形成微聚集体及其各种形状的伴生物。析出相的组成,连同x射线无定形相,包括Fe(II)-Fe(III)层状双氢氧化物(绿锈),以及混合组成的LDH,特别是Fe- co,铁氧氢氧化物-针铁矿和鳞石。析出相中还含有以氢氧化锰和碳酸锰为代表的含锰相,并掺杂Mn2O3∙H2O、MnO、Mn3O4(高锰矿)等锰氧化物。在臭氧化过程中,作为溶液一部分的有机化合物受到破坏,与溶液的其他组分共沉淀,同时伴随着矿物颗粒表面137Cs放射性核素的吸附。废水中Fe2+和Mn2+阳离子浓度增加10倍(分别达到50和100 mg/dm3),使初始溶液中的137Cs浓度降低50.5%。
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MINERAL COMPOSITION AND ADSORPTION CAPACITY OF PRECIPITATES FORMED DURING OZONATION OF RADIOACTIVELY CONTAMINATED WATER FROM NUCLEAR POWER PLANTS TOWARDS 137Cs
The mineral composition and sorption properties of precipitates formed during ozonation of a model solution simulating nuclear power plant wastewater (total mineralization 7 g/dm3, pH = 11.5, T = 60°C, t = 2 hours) 137Cs were studied. The precipitate is represented by finely dispersed spherical particles of metal oxides ranging in size from 20 to 30 nm, forming microaggregates and their associates of various shapes. The composition of the precipitates, along with X-ray amorphous phases, includes Fe(II)-Fe(III) layered double hydroxides (Green Rust), as well as LDH of mixed composition, in particular Fe-Co, and iron oxyhydroxides — goethite and lepidocrocite. The precipitates also contain manganese-containing phases represented by manganese (IV) hydroxide and manganese (II) carbonate with an admixture of manganese oxides, such as Mn2O3∙H2O, MnO, Mn3O4 (gaussmanite). In the process of ozonation, organic compounds that are part of the solutions undergo destruction, co-precipitation with other components of the solution, which is accompanied by the sorption of 137Cs radionuclides on the surface of mineral particles. An increase in the concentration of Fe2+ and Mn2+ cations by 10 times (up to 50 and 100 mg/dm3, respectively) in wastewater reduces the concentration of 137Cs in the initial solution by 50.5%.
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