The production of nuclear fuel cladding tube is expected to increase with the nuclear power plant expansion. Zirconium(Zr) scrap that is generated during manufacturing is also expected to increase. Zr electrorefining experiment was carried out in the fluoride salt of LiF-KF-ZrF4 using multiple electrode for scale up and improving throughput Zr electrorefiner development. The Zr reduction peak observed at -0.8 V(vs.Ni). Polarization behavior showed that the amount of applied current increases because of decreasing cell resistance as the number of cathode increases. Experimental results showed the highest recovery rate about 98% at lowest current density of 25.64 mA/cm2 using 6 electrodes. XRD and TG analysis result show that pure Zr was recovered 99.92% and ICP analysis shows that lower impurity content than conventional impurity content of the Anode(97.8%). Electrorefining consumes energy about 7.15 kWh/kg less than 39.7% compared to the Kroll process using 6 electrode width of 20 mm and height of 65 mm. Because of increasing cell efficiency and recovery rate, using multiple cathode is determined as an efficient technique for scale up electrorefining Zr scrap.

• 박동재(1충남대학교, 대전광역시 유성구 대학로 99) | Dong Jae Park
• 김승현(1충남대학교, 대전광역시 유성구 대학로 99) | Seung Hyun Kim
• 박경태(2한국생산기술연구원, 인천광역시 연수구 갯벌로 156) | Kyoung Tae Park
• 문종한(3한전원자력연료(주), 대전광역시 유성구 대덕대로 989번길 242) | Jong Han Mun
• 이혁희(한국화학연구원, 대전광역시 유성구 가정로 141) | Hyuk Hee Lee
• 이종현(1충남대학교, 대전광역시 유성구 대학로 99) | Jong Hyeon Lee Corresponding author