Removal of 85Sr, 134Cs, and 57Co Radionuclides from Acidic and Neutral Waste Solutions by Metal Doped Antimony Silicates

Removal of 85Sr, 134Cs, and 57Co Radionuclides from Acidic and Neutral Waste Solutions by Metal Doped Antimony Silicates

Antimony silicates doped with a metal, (M) x,y Sb 2-x Si 2-y O 7 (M=W, Ti, Nb), were studied for the removal of the key radionuclides 85 Sr, 134 Cs, and 57 Co from nuclear waste solutions. Emphasis was given to the removal of radionuclides from acidic effluents for which no efficient commercial exch...

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Bibliographic Details
Published in:Separation science and technology Vol. 38; no. 12-13; pp. 2995 - 3007
Main Authors: Möller, T., Harjula, R., Paajanen, A.
Format: Journal Article
Language:English
Published: Taylor & Francis Group 01-09-2003
Subjects:
Cesium
Cobalt
Hydrous metal oxide
Ion exchange
Nuclear waste
Pyrochlore
Strontium
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Summary:Antimony silicates doped with a metal, (M) x,y Sb 2-x Si 2-y O 7 (M=W, Ti, Nb), were studied for the removal of the key radionuclides 85 Sr, 134 Cs, and 57 Co from nuclear waste solutions. Emphasis was given to the removal of radionuclides from acidic effluents for which no efficient commercial exchangers are available. Initial screening tests showed that the undoped antimony silicates (Sb:Si molar ratio ∼1:1) are highly selective for 85 Sr. Distribution coefficients (K D ) of 35,500 mL g −1 were obtained in 0.1-M HNO 3 . The antimony silicates also have high or reasonable selectivity for 57 Co, 59 Fe, and 241 Am; but the selectivity for 134 Cs is low. An attempt to increase the selectivity for 134 Cs was conducted by doping the antimony silicate with Ti 4+ , Nb 5+ , or W 6+ . Best results were obtained with a material doped with tungsten, which resulted in an almost ten-fold increase in cesium selectivity in acid. The pyrochlore structure of the materials was also expected to have an effect in creating cesium selectivity. The granular antimony silicate doped with tungsten performed very well in column tests, and high-breakthrough capacities were observed for 85 Sr ( >17,000 BV with 1% breakthrough) and 134 Cs (5,000 BV) in 0.1-M HNO 3 , and for 57 Co (5,200 BV) and 85 Sr (11,000 BV) in neutral simulated pond water. In general, the performance of the metal doped antimony silicates was considerably better than that of commercial materials such as a zeolite, a sodium titanate, and a silicotitanate, which function effectively only in neutral or alkaline conditions and were tested in parallel for reference.
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ISSN:0149-6395
1520-5754
DOI:10.1081/SS-120022583