The extraction behavior of N, N, N’, N’-tetraisobutul-3 -oxy-dioctlylglutaramide to Uranium (VI) and Thorium (IV ) fromnitric acid solution was studied by using n-octnol and kerosene as diluent . This extractant can...The extraction behavior of N, N, N’, N’-tetraisobutul-3 -oxy-dioctlylglutaramide to Uranium (VI) and Thorium (IV ) fromnitric acid solution was studied by using n-octnol and kerosene as diluent . This extractant can not only effectively extract threevalence lanthanide and actinide, but also extract four-and six-valence actinide such as Uranium(VI) and Thorium (IV). Theresults show that the distributions of U (VI) and Th (IV) increase with the concentrations of nitric acid, Th Du . Theextraction mechanism of U(VI) and TI0V)can be inferred to be the neutral compex extraction, the structural formulas of theextractives are UO2(NO3)2. L and Th(NO3)4. L, lgKexU(VI)=(VI).455±0.09, IgK’exTh(IV)=1.66±0.04 respectively. Thisextractant can be easily synthesized and is insoluble in water, stable toward radiation nontoxic. The extracted U (VI) and Th (IV)can be effectively stripped. It can be completely decomposed without any renmants. This is good for disposal of radioactivewaste.展开更多
Anodic dissolutionbehaviorof zirconium inBu^n 4NBr-contaningisopropanol solution was investigated using cyclic voltammetry, linear sweep voltammetry and chronoamperometry, complemented with a scanning electron microsc...Anodic dissolutionbehaviorof zirconium inBu^n 4NBr-contaningisopropanol solution was investigated using cyclic voltammetry, linear sweep voltammetry and chronoamperometry, complemented with a scanning electron microscope (SEM).The voltammograms did not exhibit active dissolutionuntil the breakdown of passive layer induced by aggressive bromide anions.SEM images confirmed the existence of pits on zirconium surface.The depth and breadth of pits were intensified with increasing potential. The pitting potentialshifted negatively as either temperature orBu^n 4NBr concentration was increased, while it increased with increasing scan rate.The corrosion current density increased with increasing temperature. The apparent activation energyof anodic dissolutionofzirconiumwas 21.88kJ/mol. The chronoamperometry revealed that increasingBu^n 4NBrconcentration shortened the incubation time for passivity breakdown and accelerated the pit nucleation and growth. The experimental results were helpfulto obtain the optimum conditions for electrosynthesis of zirconium isopropoxide.展开更多
文摘The extraction behavior of N, N, N’, N’-tetraisobutul-3 -oxy-dioctlylglutaramide to Uranium (VI) and Thorium (IV ) fromnitric acid solution was studied by using n-octnol and kerosene as diluent . This extractant can not only effectively extract threevalence lanthanide and actinide, but also extract four-and six-valence actinide such as Uranium(VI) and Thorium (IV). Theresults show that the distributions of U (VI) and Th (IV) increase with the concentrations of nitric acid, Th Du . Theextraction mechanism of U(VI) and TI0V)can be inferred to be the neutral compex extraction, the structural formulas of theextractives are UO2(NO3)2. L and Th(NO3)4. L, lgKexU(VI)=(VI).455±0.09, IgK’exTh(IV)=1.66±0.04 respectively. Thisextractant can be easily synthesized and is insoluble in water, stable toward radiation nontoxic. The extracted U (VI) and Th (IV)can be effectively stripped. It can be completely decomposed without any renmants. This is good for disposal of radioactivewaste.
基金Project(51374254)supported by the National Natural Science Foundation of ChinaProject(2013JSJJ026)supported by the Teacher Research Foundation of Central South University,China
文摘Anodic dissolutionbehaviorof zirconium inBu^n 4NBr-contaningisopropanol solution was investigated using cyclic voltammetry, linear sweep voltammetry and chronoamperometry, complemented with a scanning electron microscope (SEM).The voltammograms did not exhibit active dissolutionuntil the breakdown of passive layer induced by aggressive bromide anions.SEM images confirmed the existence of pits on zirconium surface.The depth and breadth of pits were intensified with increasing potential. The pitting potentialshifted negatively as either temperature orBu^n 4NBr concentration was increased, while it increased with increasing scan rate.The corrosion current density increased with increasing temperature. The apparent activation energyof anodic dissolutionofzirconiumwas 21.88kJ/mol. The chronoamperometry revealed that increasingBu^n 4NBrconcentration shortened the incubation time for passivity breakdown and accelerated the pit nucleation and growth. The experimental results were helpfulto obtain the optimum conditions for electrosynthesis of zirconium isopropoxide.
