铁氰化钾锰从高放废液中分离钯的研究

IF 0.4 Q4 NUCLEAR SCIENCE & TECHNOLOGY

Journal of Nuclear Fuel Cycle and Waste Technology Pub Date : 2022-08-08 DOI:10.1115/icone29-92971

Tian-Jiao Qi, Hongji Sang, Cong Mao, Yueying Wen, Jipu Hu, Yan Wu

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引用次数: 0

摘要

玻璃固化是工业应用中处理乏燃料后处理高放废液的一种有利方法，高放废液中钯的存在会严重影响玻璃固化过程。具有钙钛矿样面心立方结构的亚铁氰化物对Pd具有较强的吸附亲和力。在本研究中，通过将氰化钾锰(KMnFC)孔结晶成多孔SiO2，制备了二氧化硅基复合材料KMnFC/SiO2。对合成的吸附剂进行了XRD、TG-DTA、SEM-EDS等表征。结果表明，该吸附剂制备成功，具有良好的微观结构和元素分布。进行了一系列吸附实验。Pd的吸附不易受硝酸浓度的影响，具有良好的耐酸性能。通过吸附等温线和吸附动力学曲线，证明了KMnFC/SiO2对Pd的吸附过程为化学单层吸附。该吸附剂在多离子溶液中对钯具有较强的吸附选择性。在完全吸附Pd的条件下，吸附剂对除Ru外的其他元素的吸附率均小于20%。

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Study on Separation of Palladium From High Level Liquid Waste by Potassium Manganese Ferrocyanide

Glass solidification is a favorable treatment method for high level liquid waste (HLLW) from spent fuel reprocessing in industrial application, and the presence of palladium (Pd) in HLLW may seriously affect the glass solidification process. Ferrocyanide with a perovskite-like face-centered cubic structure has strong adsorption affinity towards Pd. In this study, silica-based composite KMnFC/SiO2 was prepared by pore crystallization of potassium manganese ferrocyanide (KMnFC) into porous SiO2. A series of characterization of the synthesized adsorbent were carried out such as XRD, TG-DTA, and SEM-EDS. It was verified that the adsorbent was successfully prepared and it has good Microscopic structure along with element distribution. A series of adsorption experiments were carried out. The adsorption of Pd is not easily affected by the concentration of nitric acid, which shows good acid resistance. Through the adsorption isotherm and adsorption kinetic curve, it is proved that the adsorption process of Pd by KMnFC/SiO2 is chemical monolayer adsorption. The adsorbent has strong adsorption selectivity for Pd in multi-ionic solution. Under the condition of complete adsorption of Pd, the adsorption rate of the adsorbent for other elements except Ru is less than 20%.

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来源期刊

Journal of Nuclear Fuel Cycle and Waste Technology Energy-Fuel Technology

CiteScore

0.80

自引率

25.00%

发文量