Temperature programmed decomposition of uranyl nitrate hexahydrate

Temperature programmed decomposition (TPD) of uranyl nitrate hexahydrate ha s been studied using evolved gas analysis mass spectrometry (EGA-MS) in the temperature range 300-1400 K. Thermogravimetric (TGA) investigations were performed in the temperature range 300-1100 K. An attempt has been made to resolve the complexity of decomposition behaviour through suitable comparis on of TcA and EGA-MS data. Kinetic control regimes for various decompositio n stages could be deduced from EGA-MS data. The corresponding activation en ergies and frequency factors were also evaluated. Kinetics based on random nucleation and diffusion was found to be rate controlling. The residue left over after each decomposition stage was analysed by XRD and XPS to determi ne structure and composition. The ultimate product was found to be a mixtur e of UO3H1.17 and U3O8: the former being a topotactic hydrogen spill over c ompound of UO3. Complete conversion of this residue to U3O8 was noticed dur ing ion beam exposure of the residue which was performed in the course of X PS investigations. (C) 1999 Elsevier Science B.V. All rights reserved.