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YU ENJIANG;HUANG HUAIAN;ZHOU XINGQUAN;TAO CHENGYING;ZHANG LINYAO;YANG ZHENSHU;LIU LIMING China Institute of Atomic Energy, P. O. Box 275(26), Beijing, 102413. PLUTONIUM PARTIONNING IN THE THIRD PLUTONIUM CYCLE OF THE PUREX PROCESS WITH HYDROZINE-STABILIZED HYDROXYLAMINE NITRATE[J]. Atomic Energy Science and Technology, 1993, 27(5): 451-451. DOI: 10.7538/yzk.1993.27.05.0451
Citation: YU ENJIANG;HUANG HUAIAN;ZHOU XINGQUAN;TAO CHENGYING;ZHANG LINYAO;YANG ZHENSHU;LIU LIMING China Institute of Atomic Energy, P. O. Box 275(26), Beijing, 102413. PLUTONIUM PARTIONNING IN THE THIRD PLUTONIUM CYCLE OF THE PUREX PROCESS WITH HYDROZINE-STABILIZED HYDROXYLAMINE NITRATE[J]. Atomic Energy Science and Technology, 1993, 27(5): 451-451. DOI: 10.7538/yzk.1993.27.05.0451
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PLUTONIUM PARTIONNING IN THE THIRD PLUTONIUM CYCLE OF THE PUREX PROCESS WITH HYDROZINE-STABILIZED HYDROXYLAMINE NITRATE

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  • The effects of some factors such as concentration of nitric acid, the molar ratio of hydroxy-lamine nitrate to plutonium and temperature on the stripping of plutonium are investigated. Cas-cade experiment with simulated 3AF and 3BF feed are carried out at room temperature and elevat-ed temperature(45--50℃) respectively. Plutonium recovery and DF for removal of uranium fromplutonium stream are given. Standing time of the organic phase loaded with plutonium influencesre-extraction of plutonium significantly.
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