A Precipitation of Ammonium Uranyl Carbonate from Uranylnitrate Solution

UO$_2$(NO$_3$)$_2$ 용액으로부터 Ammonium Uranyl Carbonate 제조

  • Published : 1998.06.01

Abstract

Studies of preparation condition and characteristics of AUC(ammonium uranyl carbonate) were carried out to optimize AUC process with different reactor sizes and precipitation methos. As results four types of precipitates with different chemical compositions and morphologies were obtained from the reaction of {{{{ {(NH }_{4 }) { }_{2 } {CO }_{3 } }} with {{{{ {UO }_{2 }( {NO }_{3 }) { }_{2 } }} solution. A phase diagram has been made and crystal structure and chemical composition of each phase have been characterized by using SEM X-ray IR and thermal analysis. It was found that ammonium uranyl carbonate {{{{ {(NH }_{4 }) { }_{4 } {UO }_{2 } {(CO }_{3 }) { }_{3 } }} with monoclinic crystal morphology could be syn-thesized when the mole ratio of in {{{{ {(NH }_{4 }) { }_{2 } {CO }_{3 }/ {UO }_{2 } {(NO }_{3 }) { }_{2 } }} in the solution was higher than 5 Also a mechanism and a precipitating condition on rounding of the AUC particle were examined in the course of the AUC pre-cipitation. The rounding of the AUC particle was possible only by external circulation using pump not by internal circulation using agitator.

Keywords

References

  1. The Preperation and Calcination of Ammonium Uranates, AAEC/TM-476 J.L. Woolfrey
  2. Nuclear Technology v.18 The Conversion of Uranium Hexa Fluoride to Uranium Dioxide S.G. Brandberg
  3. IAEA Tech. Rep Ser. No. 221 Process and Product Control of Oxide Powder and Pellet for Reactor Fuel Application H. Assman;H. Bairiot
  4. Am. Ceramic Soc. Bull v.58 no.2 Fluid-Bed Conversion of $UF_6$ to UO₂ K.C Radford;W L Lyon;J E. Hart
  5. U.S. Patent, No.3,963,828 Manufacture of Uranium Dioxide Powder M. Becker
  6. Trans. Am. Nucl. Soc. v.28 UO₂Fuel Fabricaion by Means of the AUC Powder Process V. Mathieu
  7. Trans. Am. Nucl. Soc. v.31 Characteristics of UO₂Powder and Pellets for LWR Fuel E. Brandeu;W. Dorr
  8. Ceramic Powders Microstructure and Density of UO₂Pellets for Light Water Reactors as Related to Powder Properties H. Assman;W. Dorr;P.Vincezini(ed.)
  9. J. Chem. Soc. Dalton Trans v.19 Crystal Structure of Tetra-ammonium Uranyl Tricarbonate R. Graziani;G. Bombieri;E. Forsellini
  10. J. Inorg. Nucl. Chem. v.25 On the Uranates of Ammonium-Ⅱ X-ray Investigation of the Compounds in the System NH₃-UO₃-H₂O PC. Delets;B.O. Loopstra
  11. Collection Czechoslovak Chem. Commun. v.47 Ammonium Uranyl Carbonates-Complex Compounds with Variable Coordination number? V. Baran
  12. J. Inorg. Nucl. Chem. v.38 Thermal Decomposition of Ammonium Uranate an IR study W.I. Stuart
  13. 화학공학 v.31 no.6 암모니움 우라네이트의 열분해 및 환원반응 김응호;권상운;정지영;박진호;황성태;장인순;최청송
  14. 요업학회지 v.30 no.4 AUC(Ammonium Uranyl Carbonate)의 하소 및 환원반응-분말의 특성 및 상변화 김응호;최청송;박진호;장인순
  15. J. Inorg. Nucl. Chem. v.31 Composition and Structure of Ammonium Uranates W.I. Stuart;T.L. Whatley
  16. Israel Program for Scientific Translation Complex Compounds of Uranium I.J. Chernyaev
  17. J. Nucl. Materials v.138 Thermal Analysis Studies of the Relations Occurring During the Decomposition of the Ammonium Uranyl Carbonate in Different Atmospheres L. Halldahl;M. Nygren
  18. J. Inorg. Nucl. Chem. v.33 Self-reduction in Ammonium Uranates G.H. Price.
  19. Chem. Eng. Sci. v.46 no.1 Crysatallization and Precipitation Engineering-Ⅲ. A Discrete Formulation of the Agglomelation Rate of Crystals in a Crytallization Process R. David;P Marchal;J.P. Klein;J villermaux
  20. Powder Tech. v.44 Crystallization and Agglomeration Kinetics of Nickel Ammonium Sulphate in an MSMPR Crystallizer N.S. Tavare;M.B. Shah;J. Garside
  21. Chem Eng. Sci. v.44 no.10 Agglomerraion of Copper Sulfate Pentahydrate Crystals within well-mixed Crystallizers R. Zumstein;R.W. Rousseau
  22. 1987년도 핵연료 변환 및 재변환 공정 개선 연구, KAERI/RR-692/87 장인순
  23. 반회분식 조업에서 AUC 결정화 속도에 관한 연구 박명혜
  24. AICHE Journal v.28 no.5 Factors Affecting Secondary Nucleation Rate of Sodium Chloride in an Evapoative Crstallizer P.A.M. Grootsholten;B.G.M. De Leer;E.J. De Jong;C.J. Asselbergs