Design of Microchannel Suitable for Packing with Anion Exchange Resins: Uranium Separation from Seawater Containing a Large Amount of Cesium

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  • OUCHI Kazuki
    Nuclear Science and Engineering Center, Japan Atomic Energy Agency
  • TSUKAHARA Takehiko
    Laboratory for Advanced Nuclear Energy, Institute of Innovative Research, Tokyo Institute of Technology
  • BRANDT Aileen
    Laboratory for Advanced Nuclear Energy, Institute of Innovative Research, Tokyo Institute of Technology
  • MUTO Yoshiki
    Laboratory for Advanced Nuclear Energy, Institute of Innovative Research, Tokyo Institute of Technology
  • NABATAME Nozomi
    Graduate School of Science and Engineering, Ibaraki University
  • KITATSUJI Yoshihiro
    Nuclear Science and Engineering Center, Japan Atomic Energy Agency

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<p>We present a resin-packed microchannel that can reduce the radiation exposure risk and secondary radioactive wastes during uranium (U) separation by downscaling the separation using a microchip. Two types of microchips were designed to densely pack the microchannels with resins. The microchannels had almost the same cross-sectional area, but different outer circumferences. A satisfactory separation performance could be obtained by arranging more than ca. 10 resins along the depth and width of the microchannels. A resin-packed microchannel is an effective separation technique for determining the U concentration via inductively coupled plasma mass spectrometry owing to its ability to avoid the contamination of equipment by cesium, and to reduce the matrix effect. The size of the separation site was scaled down to <1/5000 compared to commonly used counterparts. The radiation exposure risk and secondary radioactive wastes can be reduced by 10- and 800-fold, respectively, using a resin-packed microchannel.</p>

収録刊行物

  • Analytical Sciences

    Analytical Sciences 37 (12), 1789-1794, 2021-12-10

    社団法人 日本分析化学会

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