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총설 : 파이로프로세싱을 위한 전해환원 공정기술 개발

최은영 홍순석 박우신 임현숙 오승철 원찬연 차주선 허진목 2014년

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논문상세정보

- 저자 최은영 홍순석 박우신 임현숙 오승철 원찬연 차주선 허진목
- 제어번호 100025484
- 학술지명 Korean Chemical Engineering Research(HWAHAK KONGHAK)
- 권호사항 Vol. 52 No. 3 [ 2014 ]
- 발행처 한국화학공학회
- 발행처 URL http://www.kiche.or.kr
- 자료유형 학술저널
- 수록면 279-288 ( 10쪽)
- 언어 -
- 출판년도 2014
- KDC 570
- 등재정보 KCI등재
- 소장기관 호서대학교(아산) 학술지원과
- 판매처 한국학술정보
- 주제어 Electrochemicalreduction molten salt Pyroprocessing UraniumOxide
- 참고문헌( 46)
유사주제 논문( 1,492)

인용/피인용

' 총설 : 파이로프로세싱을 위한 전해환원 공정기술 개발' 의 주제별 논문영향력

논문영향력 요약
동일주제 총논문수	논문피인용 총횟수	주제별 논문영향력의 평균
주제	화학공학 electrochemicalreduction molten salt pyroprocessing uraniumoxide
1,497	0	0.0%

논문영향력
주제		주제별 논문수	주제별 논문영향력
주제분류(KDC/DDC)	화학공학	1,429	0.0%
주제어	electrochemicalreduction	10	0.0%
	molten salt	13	0.0%
	pyroprocessing	44	0.0%
	uraniumoxide	1	0.0%
계		1,497	0.0%
* 다른 주제어 보유 논문에서 피인용된 횟수

' 총설 : 파이로프로세싱을 위한 전해환원 공정기술 개발' 의 참고문헌

Toward Optimisation of Electrolytic Reduction of Solid Chromium Oxide to Chromium Powder in Molten Chloride Salts
Gordo, E. Electrochim. Acta. 49 : 2195 ~ 2208 [2004]
Status of Pyroprocessing Technology Development in Korea
KEE-CHAN SONG Nuclear Engineering and Technology 42 (2) : 131 ~ 144 [2010]
State of the Art of Pyroprocessing Technology in Japan
Inoue, T. Energy Procedia. 7 : 405 ~ 413 [2011]
Spent Fuel Reprocessing Options
IAEA [2008]
Solid State Reactions: An Electrochemical Approach in Molten Salts
Wang, D. Annu. Rep. Prog. Chem. Sect. C 104 : 189 ~ 234 [2008]
Separation of Actinides from LWR Spent Fuel Using Molten Salt Based Electrochemical Process
Karell, E. J. Nucl. Tech. 136 : 342 ~ 353 [2001]
Separation and Recovery of Uranium Metal From Spent Light Water Reactor Fuel Via Electrolytic Reduction and Electrorefining
Herrmann, S. D. Nucl. Tech. 171 : 247 ~ 265 [2010]
Recovery of U-Pu Alloy from MOX Using Pyroprocess Series
Kitawaki, S. Nucl. Technol. 162 : 118 ~ 123 [2008]
Recent Achievements and Remaining Challenges on Pyrochemical Reprocessing in CRIEPI
Murakami, T. Proc. Of the First ACSEPT International Workshop [2010]
Pyroprocess and Metal Fuel Development for Closing Actinide Fuel Cycle with Reduced Waste Burden
Koyama, T. Proc. Of Global 2009 [2009]
Pyrochemical Treatment of Spent Nuclear Fuel
Goff, M.K. Howden, K.L. Johnson, T.A. Teske, G.M. Proc. of Global 2005 [2005]
Production of Niobium Powder by Direct Electrochemical Reduction of Solid Nb2O5 in a Eutectic CaCl2-NaCl Melt
Yan, X. Y. Metall. Mater. Trans. B 33 : 685 ~ 693 [2002]
Preparation of Metallic Niobium from Niobium Pentoxide by An Indirect Electrochemical Reduction in a LiCl-Li2O Molten Salt
Jeong, S. M. J. Alloy Compd. 452 : 27 ~ 31 [2008]
PYROPROCESSING TECHNOLOGY DEVELOPMENT AT KAERI
Han Soo Lee Nuclear Engineering and Technology 43 (4) : 317 ~ 328 [2011]
Modeling the Pyrochemical Reduction of Spent UO2 Fuel in a Pilot-Scale Reactor
Simpson, M. F. Nucl. Technol. 162 : 179 ~ 183 [2008]
Metallization of U3O8 Via Catalytic Electrochemical Reduction with Li2O in LiCl Molten Salt
Hur, J.-M. React. Kinet. Catal. Lett. 80 : 217 ~ [2003]
International Status and Prospects of Nuclear Power
IAEA [2008]
Electrorefining of Uranium and Plutonium - A Literature Review
Willit, J. L. J. Nucl. Mater. 195 : 229 ~ 249 [1992]
Electrolytic Reduction of Spent Nuclear Oxide Fuel as Part of an Integral Process to Separate and Recover Actinides from Fission Product
Herrmann, S. D. Sep. Sci. Technol. 41 : 1965 ~ 1983 [2006]
Electrolytic Reduction of Spent Light Water Reactor Fuel: Bench-scale Experiment Results
Herrmann, S. D. J. Nucl. Sci. Technol. 44 : 361 ~ 367 [2007]
Electrolytic Production of Metallic Uranium from U3O8 in a 20 kgbatch Scale Reactor
Jeong, S. M. J. Radioanal. Nucl. Chem. 268 : 349 ~ 356 [2006]
Electrochemical Reduction of UO2 in Molten CaCl2 or LiCl
Sakamura, Y. J. Electrochem. Soc. 153 : D31 ~ D39 [2006]
Electrochemical Reduction of UO2 in LiCl-Li2O Molten Salt Using Porous and Nonporous Anode Shrouds
Choi, E.-Y. J. Nucl. Mater. 444 : 261 ~ 269 [2014]
Electrochemical Reduction of Cerium Oxide Into Metal
Claux, B. Electrochim. Acta. 56 : 2771 ~ 2780 [2011]
Electrochemical Reduction Behavior of a Highly Porous SIMFUEL Particle in a LiCl Molten Salt
Choi, E.-Y. Chem. Eng. J. 207-208 : 514 ~ 520 [2012]
Electrochemical Reduciton of Porous 17 kg Uranium Oxide Pellets by Selection of an Optimal Cathode/anode Surface Area Ratio
Choi, E.-Y. J. Nucl. Mater. 418 : 87 ~ 92 [2011]
Electrochemical Metallization of Solid Terbium Oxide
Wang, D. Angew. Chem. Int. Ed. 45 : 2384 ~ 2388 [2006]
Electrochemical Behavior of Plutonium ion in LiCl-KCl Eutectic Melts
Konings, J. J. Electroanal. Chem. 561 : 143 ~ 148 [2004]
Electrochemical Behavior of Dissolved Fe2O3 in Molten CaCl2-KF
Wang, S. I. J. Iron Steel Res. 16 : 48 ~ 51 [2008]
Effect of the UO2 form on the Electrochemical Reduction Rate in a LiCl-Li2O Molten Salt
Choi, E.-Y. J. Nucl. Mater. 437 : 178 ~ 187 [2013]
ELECTROCHEMICAL PROCESSING OF USED NUCLEAR FUEL
K. M. GOFF Nuclear Engineering and Technology 43 (4) : 335 ~ 342 [2011]
EBR-II Spent Fuel Treatment Demonstration Project Status
Benedict, R. W. Radwaste Magazine. 5 : 23 ~ [1998]
Direct Electroreduction of Oxides in Molten Fluoride Salts
Gibilaro, M. Electrochim. Acta. 56 : 5410 ~ 5415 [2011]
Direct Electrolytic Reduction of Solid SiO2 in Molten CaCl2 for the Production of Solar Grade Silicon
Yasuda, K. Electrochim. Acta 53 : 106 ~ 110 [2007]
Direct Electrolytic Preparation of Chromium Powder
Chen, G. Z. Metall. Mater. Trans. B 35 : 223 ~ 233 [2004]
Direct Electrochemical Reduction of Titanium Dioxide to Titanium in Molten Calcium Chloride
Chen, G. Z. Nature 407 : 361 ~ 364 [2000]
Development of Pyroprocessing Technology
Laidler, J. J. Prog. Nucl. Energy. 31 : 131 ~ 140 [1997]
Development of Pyrochemical Reprocessing for Spent Metal Fuels
Nagarajan, K. Energy Procedia. 7 : 405 ~ 413 [2011]
DEVELOPMENT OF PYROPROCESSING AND ITS FUTURE DIRECTION
TADASHI INOUE Nuclear Engineering and Technology 40 (3) : 183 ~ 190 [2008]
DC Voltammetry of Electro-deoxidation of Solid Oxides
Abdelkader, A. M. Chem. Rev. 113 : 2863 ~ 2886 [2013]
Chemical Behavior of Fission Products in the Petrochemical Process
Hur, J.-M. Nucl. Technol. 162 : 192 ~ 198 [2008]
Characteristics of An Integrated Cathode Assembly for the Electrolytic Reduction of Uranium Oxide in a LiCl-Li2O Molten Salt
Park, S. B. J. Radioanal. Nucl. Chem. 268 : 489 ~ 495 [2006]
Characteristics of An Electrochemical Reduction of Ta2O5 for the Preparation of Metallic Tantalum in a LiCl-Li2O Molten Salt
Jeong, S. M. J. Alloy Compd. 440 : 210 ~ 215 [2007]
Application of Electrochemical Reduction to Produce Metal Fuel Material From Actinide Oxides
Sakamura, Y. Nucl. Technol. 162 : 169 ~ 178 [2008]
A Study of Cathode Improvement for Electro-deoxidation of Nb2O5 in a Eutectic CaCl2-NaCl Melt at 1073K
Xu, Q. J. Alloy Compd. 396 : 288 ~ 294 [2005]
A CONCEPTUAL STUDY OF PYROPROCESSING FOR RECOVERING ACTINIDES FROM SPENT OXIDE FUELS
유재형 Nuclear Engineering and Technology 40 (7) : 581 ~ 592 [2008]

총설 : 파이로프로세싱을 위한 전해환원 공정기술 개발

유사주제 논문( 1,492)

' 총설 : 파이로프로세싱을 위한 전해환원 공정기술 개발' 의 주제별 논문영향력

주제별 논문영향력

' 총설 : 파이로프로세싱을 위한 전해환원 공정기술 개발' 의 참고문헌

' 총설 : 파이로프로세싱을 위한 전해환원 공정기술 개발' 의 유사주제( ) 논문