본 연구는 nPr-BTP/nitrobenzene 추출 계에 의한 악티나이드(III)의 선택적 분리로, 우선 자연친화적 CHN 형 의 nPr-BTP (2.6-Bis-(5.6-n-propyl-1.2.4-triazin-3-yl)-pyridine)를 합성하고, 이의 희석제에 대한 용해성 및 질산에 대한 안정성 등을 평가하였다. 악티나이드(III)의 대표원소로는 Am을 선정하였으며, 0.1M nPr-BTP/nitrobenzene-1M , O/A=2의 조건에서 Am은 약 85%, RE 원소는 Eu가 8%, 기타 Nd, Ce, Y 등은 3% 이하가 추출되어 (이때 Am/Eu의 상호분리 계수 약 60정도) 악티나이드(III)의 선택적 추출에는 별 문제가 없을 것으로 판단되었다. 그러나 Am의 역추출의 경우 0.05M 질산용액으로 O/A=1 에서 약43%가 역추출 되었으며, O/A=0.3에서도 65% 정도만이 역추출 되어 질산 이외의 다른 역추출제의 개발이 요구되고 있다.

A selective separation of Actirlide(III) by a nPr-BTP/nitrobezene extraction system was studied. The nPr-BTP (2.6-Bis-(5.6-n-propyl-1.2.4-triazin-3-yl)-pyridine) of a environmentally -friendly CHN type was self-synthesized and its compatability with diluent and stability with nitric acid were investigated. At the 0.1M nPr-BTP/nitrobenzene-1M and O/A=2, extraction yields of Am used as a representative of Actinide(III) and Eu were about 85% and 8%, respectively, and the other RE elements such as Nd, Ce and Y were extracted less than 3% (separation factor of Am and Eu was about 60). Thus, there was no problems in the selective extraction of Actinide(III) from RE. The stripping yield of Am with 0.05M at O/A= 1, however, was about 43% and the maximum stripping yield was 65% at O/A=0.3. It is necessary to develop the stripping system including the stripping agent instead of nitric acid solution.

Abstract   요약   I. 서론   II. 실험    가. 모의용액 제조    나. 실험 방법    다. 분석   III. 실험 결과 및 고찰    가. nPr-BTP의 희석제 용해성 및 질산 안정성    나. 질산 추출    다. Am 선택적 추출    라. 역추출   VI. 결론   참고문헌

• Eil-Hee Lee(Korea Atomic Energy Research Institute) | 이일희
• Jae-Kwan Lim(Korea Atomic Energy Research Institute) | 임재관
• Dong-Yong Chung(Korea Atomic Energy Research Institute) | 정동용
• Han-Beom Yang(Korea Atomic Energy Research Institute) | 양한범
• Kwang-Wook Kim(Korea Atomic Energy Research Institute) | 김광욱