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Development of Liquid Cadmium Cathode Structure for the Inhibition of Uranium Dendrite Growth
백승우,윤달성,김시형,심준보,안도희 한국방사성폐기물학회 2010 방사성폐기물학회지 Vol.8 No.1
액체카드뮴음극(LCC, Liquid Cadmium Cathode)을 사용하여 우라늄과 TRU (TRans Uranium) 원소를 동 시에 회수하는 전해제련공정에서 LCC 표면에서 성장하는 수지상(dendrite) 우라늄의 생성 및 성장을 억제하 기 위한 LCC 구조는 개발은 전해제련공정의 핵심이다. 금속 수지상의 생성과 성장 현상을 관찰하기 위해 상 온에서 실험이 가능하며 육안관찰이 가능한 Zn-Ga 계의 모의실험장치를 제작하였으며 갈륨 계면에서의 수 지상 아연의 성장 현상과 기존의 교반기형과 파운더형 LCC 구조의 성능을 관찰하였다. 이러한 금속 수지상 은 전해용액 내에서 그 기계적 강도가 약한 것으로 보여 여러 가지 음극 구조에 의해 쉽게 파쇄 되지만 액체 금속으로 쉽게 가라앉지는 않았다. 모의 실험결과를 바탕으로, LCC 구조개발에 활용할 수 있는 실험실 규모 의 액체음극 전해제련 실험 장치를 제작하였으며, 수지상 우라늄의 성장 억제를 위한 여러 가지 형태의 LCC 구조의 성능 시험을 수행하였다. 교반기형 LCC 구조의 실험결과 LCC 도가니 내벽에서 성장하는 수지상 우 라늄을 효과적으로 파쇄하지 못하였으며, 일자형과 harrow형 LCC 구조의 성능은 유사하였다. 이에 따라 LCC 표면과 도가니 내벽에서 성장하는 수지상 우라늄을 LCC 도가니 바닥으로 침전시키기 위하여 mesh형 LCC 구조를 개발하였다. 이의 성능실험결과 수지상 우라늄의 성장 없이 약 5 wt%까지의 우라늄을 회수할 수 있었다. 실험 종료 후 LCC 바닥 침전물을 화학 분석한 결과 금속간화합물(UCd11)이 형성되었음을 확인할 수 있었다.
금속전환체 조성의 전해정련 전해조 UCl<sub>3</sub> 농도변화에 대한 영향
백승우,이창화,이성재,Paek, Seungwoo,Lee, Chang-Hwa,Lee, Sung-Jai 한국방사성폐기물학회 2019 방사성폐기물학회지 Vol.17 No.3
The composition of the reduced fuel produced in the electrolytic reduction process of pyroprocessing affects the concentration change of $UCl_3$, an important operating variable of the electrorefining process. In this study, we examined the concentration change of $UCl_3$ in the electrorefiner according to the content of TRU and RE elements in the reduced fuel and the concentration of $Li_2O$ introduced in the electrorefiner accompanied with the reduced fuel. Considering only the TRU and RE elements, the concentration of $UCl_3$ decreased with increasing the number of electrorefining operation batch. In order to operate one campaign (20 batches) of electrorefining process, it was found that additional injection of $UCl_3$ should be conducted more than 3 times. On the other hand, the concentration of $UCl_3$ in the electrorefiner changed significantly depending on the concentration of $Li_2O$ and, accordingly the number of operable electrorefining batches decreased rapidly, showing that the concentration of $Li_2O$ is an important operating variable in electrorefining. Therefore, the results of this study show that to maintain the concentration of $UCl_3$ in the electrorefiner, the operation mode should be set by taking into account the effect of $Li_2O$ as well as the TRU and RE elements contained in the reduced fuel.
HSC Chemistry 코드를 이용한 TRU 생성물 중의 희토류 원소 제거 거동 모사
백승우,이창화,윤달성,이성재,Paek, Seungwoo,Lee, Chang Hwa,Yoon, Dalsung,Lee, Sung-Jai 한국방사성폐기물학회 2020 방사성폐기물학회지 Vol.18 No.2
The feasibility of rare earth (RE) removal process via oxidation reactions with UCl<sub>3</sub> was investigated using the HSC Chemistry code to reduce the concentrations of RE in transuranic (TRU) products. The composition and thermodynamic data of TRU and RE elements contained in the reference spent fuel were examined. The reactivity was evaluated by calculating equilibrium data considering oxidation reactions with UCl<sub>3</sub>. Both RE removal rate and TRU recovery rate were evaluated for the two cases, wherein TRU products with different RE concentrations were used. When TRU products were reacted with UCl<sub>3</sub>, selective oxidation was driven by the difference in the Gibbs free energy of each element. The calculation results imply that the TRU/RE ratio of the final product can be increased by removing RE elements while maintaining the maximum recovery rate of TRU, which is accomplished by controlling the amount of UCl<sub>3</sub> injected. Since the results of this study are based on thermodynamic equilibrium data, there are many limitations to apply to the actual process. However, it is expected to be used as an important data for the process design to supply the TRU product of pyroprocessing to SFR's fuel demanding low RE concentrations.
백승우,류재성,정철희,이주한,권원경,우남식,김혜경,김재훈 대한통증학회 2013 The Korean Journal of Pain Vol.26 No.2
Background:C-arm fluoroscope has been widely used to promote more effective pain management; however, unwanted radiation exposure for operators is inevitable. We prospectively investigated the differences in radiation exposure related to collimation in Medial Branch Block (MBB). Methods:This study was a randomized controlled trial of 62 MBBs at L3, 4 and 5. After the patient was laid in the prone position on the operating table, MBB was conducted and only AP projections of the fluoroscope were used. Based on a concealed random number table, MBB was performed with (collimation group) and without (control group) collimation. The data on the patient’s age, height, gender, laterality (right/left), radiation absorbed dose (RAD), exposure time, distance from the center of the field to the operator, and effective dose (ED) at the side of the table and at the operator’s chest were collected. The brightness of the fluoroscopic image was evaluated with histogram in Photoshop. Results:There were no significant differences in age, height, weight, male to female ratio, laterality, time, distance and brightness of fluoroscopic image. The area of the fluoroscopic image with collimation was 67% of the conventional image. The RAD (29.9 ± 13.0, P = 0.001) and the ED at the left chest of the operators (0.53 ± 0.71, P = 0.042) and beside the table (5.69 ± 4.6, P = 0.025) in collimation group were lower than that of the control group (44.6 ± 19.0, 0.97 ± 0.92, and 9.53 ± 8.16), resepectively. Conclusions:Collimation reduced radiation exposure and maintained the image quality. Therefore, the proper use of collimation will be beneficial to both patients and operators.