Patent Number: 
Section: claims

1. A ceramic waste immobilising medium in which waste from reprocessed nuclear fuel assemblies is contained and in which waste ions from at least fission products in irradiated nuclear fuel may be dissolved in substantially solid solution form, the ceramic waste immobilising medium having a matrix comprising phases of hollandite, perovskite and zirconolite, in which matrix said waste ions are dissolved, wherein the waste comprises material from non-fuel components of fuel assemblies, iron and zirconium from non-fuel components being the most abundant elements in the waste, wherein said non-fuel components are utilized in the formation of the matrix of the ceramic waste immobilising medium which consists essentially of TiO2, CaO and BaO and wherein the resulting ceramic waste immobilizing medium comprises 30–65 weight % waste. 2. A ceramic waste immobilising medium as in claim 1 which comprises 35–65 weight % waste. 3. A ceramic waste immobilising medium as in claim 1 which comprises 40–60 weight % waste. 4. A ceramic waste immobilising medium as in claim 1 wherein the matrix includes a loveringite phase. 5. A ceramic waste immobilising medium as in claim 1 wherein the matrix includes an iron-rich phase. 6. A ceramic waste immobilizing medium as in claim 5 wherein the iron-rich phase includes an iron-rich spinel type phase. 7. A ceramic waste immobilising medium as in claim 1 wherein the matrix comprises one or more phases selected from the group consisting of metallic phases, intermetallic alloy phases, titania-rich buffer phases, davidite and iron austenite. 8. A ceramic waste immobilising medium as in claim 1 wherein the waste is from a high level radioactive waste stream from advanced PUREX reprocessing operations which contains substantial quantities of zirconium, iron, chromium and nickel. 9. A ceramic waste immobilising medium as in claim 5 wherein the iron-rich phase is formed substantially from iron present in the waste.