The presence of significant quantities of fluoride and chloride in four types of legacy wastes from plutonium pyrochemical reprocessing required the development of a new wasteform which could adequately immobilize the halides in addition to the Pu and Am. Using a simulant chloride-based waste (Type I waste) and Sm as the surrogate for the Pu3+ and Am3+ present in the waste, AWE developed a process which utilised Ca3(PO4)2 as the host material. The waste was successfully incorporated into two crystalline phases, chlorapatite, [Ca5(PO4)3Cl], and spodiosite, [Ca2(PO4)Cl]. Radioactive studies performed at PNNL with 239Pu and 241Am confirmed the process. A slightly modified version of the process in which CaHPO4 was used as the host was successful in immobilizing a more complex multi-cation oxide–based waste (Type II) which contained significant concentrations of Cl and F in addition to 239Pu and 241Am. This waste resulted in the formation of cation-doped whitlockite, Ca3-xMgx(PO4)2, ß-calcium phosphate, ß-Ca2P2O7 and chlor-fluorapatite rather than the chlorapatite and spodiosite formed with Type I waste.
Revised: January 3, 2013 |
Published: July 6, 2009
Citation
Metcalfe B.L., I.W. Donald, S.K. Fong, L.A. Gerrard, D.M. Strachan, and R.D. Scheele. 2009.Calcium Phosphate: A potential host for halide contaminated plutonium wastes. In Scientific Basis for Nuclear Waste Management XXXII: Materials Research Society Fall Meeting, December 1-5, 2008, Boston, Massachusetts, edited by RB Rebak, NC Hyatt and DA Pickett, 1124, Paper No. 1124-Q04-02. Warrendale, Pennsylvania:Materials Research Society.PNNL-SA-63708.doi:10.1557/PROC-1124-Q04-02