INVESTIGATION OF GETTER PURIFICATION OF SODIUM FROM OXYGEN

Yu. A. Kuzina, V. Alekseev, A. Sorokin, I. Voronin, M. Konovalov, R. Zykova
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Abstract

The article focuses on a comprehensive analysis of the new concept of a combined sodium oxygen purification module. The combined purification module includes a combination of two modules: chemisorption purification with a soluble getter and high-temperature getter purification with a high-temperature getter. A special zirconium alloy in a finely dispersed granular form can be used as a high-temperature getter. Other materials (e.g. titanium and various alloys) can be used and must be tested accordingly. At the first stage of the work, research was carried out on the module for chemisorption purification of sodium from oxygen at the Protva-1 stand, which showed the effectiveness of purification using the proposed getter materials, at the second, research on the module for high-temperature getter purification. For 20 hours of operation of the chemisorption module, the oxygen concentration in sodium was reduced by 12 ppm (3 g oxygen), while 4.5 g of magnesium reacted (the initial mass of magnesium was 25 g). According to the results of experiments in the sodium loop, the decrease in the concentration of dissolved oxygen in sodium during purification with a zirconium getter for 20 h was about 50 ppm. Two promising options for the development of a combined module for the purification of sodium from oxygen are proposed. Experimental justifications of selected chemisorbent, getter and filtering material are carried out. The main part of the study is analysis of chemisorption efficiency, purification process dynamics and influence on it of temperature factor for selected chemisorbent.
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吸气法从氧中提纯钠的研究
本文重点对新概念的组合钠氧净化模块进行了综合分析。组合净化模块包括两个模块的组合:含可溶性吸收剂的化学吸附净化和含高温吸收剂的高温吸收剂净化。一种特殊的分散颗粒状的锆合金可以用作高温吸气剂。其他材料(如钛和各种合金)也可以使用,必须进行相应的测试。第一阶段在Protva-1展台上开展了钠氧化学吸附净化模块的研究,验证了采用所提吸气剂材料进行净化的有效性;第二阶段开展了高温吸气剂净化模块的研究。化学吸附模块运行20小时,钠中的氧浓度降低了12 ppm (3 g氧),而4.5 g镁(镁的初始质量为25 g)发生了反应。根据钠回路的实验结果,在锆吸气剂净化20 h的过程中,钠中的溶解氧浓度降低了约50 ppm。提出了开发从氧中提纯钠的组合模块的两个有前途的选择。对选用的化学吸附剂、吸气剂和过滤材料进行了实验论证。研究的主要部分是分析所选化学吸附剂的化学吸附效率、净化过程动力学以及温度因素对其的影响。
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