Thorium is nearly three times more abundant than uranium in the Earth's crust. Some papers evaluate the thorium resourcesin Brazil over 1,200,000 metric t. These figures mean that the country is probably the biggest ...Thorium is nearly three times more abundant than uranium in the Earth's crust. Some papers evaluate the thorium resourcesin Brazil over 1,200,000 metric t. These figures mean that the country is probably the biggest thorium resource in the world, with onlypart of the territory prospected. Nevertheless, Brazil has not a research program for use of thorium in nuclear reactors, even havingdedicated special attention to the subject in the beginning of its nuclear activities, in the fifties and sixties. From 1985 until 2003 IPENoperated a pilot plant for thorium nitrate production and purification, used by Brazilian industry for production of gas mantles. Thisfacility produced over 170 metric t of thorium nitrate. Despite the non-nuclear application, the pilot plant was unique in the southernhemisphere. On the other hand, Brazil has the biggest world niobium resources. The Brazilian thorium and niobium resources added tothe predictable future importance of alternative fissile materials have motivated this research, since uranium is a finite resource if usedin the present thermal nuclear reactors. Besides this, thorium oxide is an important nuclear reactor material. It is a refractory oxide andits ceramic fabrication process involves a very high temperature sintering treatment considering that thoria melting point is very high(3,650 K). Cations of elements of the group VB (V, Nb and Ta) have a known effect in the reduction of thoria sintering temperature.IPEN has initiated an investigation about the use of niobium as a dopant for thoria sintering temperature reduction. The thoria used inthe research was produced in the IPEN's pilot plant and different amounts of niobium oxide (Nb2Os) will be added to thoria by differentroutes. The powders will be compressed and the compacted pellets will be sintered at different temperatures. The influence of thedifferent parameters in the density of sintered pellets is being investigated. This paper presents the chemical and physicalcharacterization for the thoria used in the investigation.展开更多
India is one of the few countries committed to expansion of nuclear power. In view of the abundance of thorium relative to uranium, thorium cycle is under serious development and implementation. Both ThO2 and (U,Th)O2...India is one of the few countries committed to expansion of nuclear power. In view of the abundance of thorium relative to uranium, thorium cycle is under serious development and implementation. Both ThO2 and (U,Th)O2 are used. Fine powders of the same are mostly prepared through the aqueous chemical route, pressed and sintered. Extrusion and hot impact densification are also being used. Sol-gel method and other alternatives are also being pursued with the advantage of automation and remote operation. Relevant papers on the thorium cycle with emphasis on processing methods and related aspects are reviewed here.展开更多
文摘Thorium is nearly three times more abundant than uranium in the Earth's crust. Some papers evaluate the thorium resourcesin Brazil over 1,200,000 metric t. These figures mean that the country is probably the biggest thorium resource in the world, with onlypart of the territory prospected. Nevertheless, Brazil has not a research program for use of thorium in nuclear reactors, even havingdedicated special attention to the subject in the beginning of its nuclear activities, in the fifties and sixties. From 1985 until 2003 IPENoperated a pilot plant for thorium nitrate production and purification, used by Brazilian industry for production of gas mantles. Thisfacility produced over 170 metric t of thorium nitrate. Despite the non-nuclear application, the pilot plant was unique in the southernhemisphere. On the other hand, Brazil has the biggest world niobium resources. The Brazilian thorium and niobium resources added tothe predictable future importance of alternative fissile materials have motivated this research, since uranium is a finite resource if usedin the present thermal nuclear reactors. Besides this, thorium oxide is an important nuclear reactor material. It is a refractory oxide andits ceramic fabrication process involves a very high temperature sintering treatment considering that thoria melting point is very high(3,650 K). Cations of elements of the group VB (V, Nb and Ta) have a known effect in the reduction of thoria sintering temperature.IPEN has initiated an investigation about the use of niobium as a dopant for thoria sintering temperature reduction. The thoria used inthe research was produced in the IPEN's pilot plant and different amounts of niobium oxide (Nb2Os) will be added to thoria by differentroutes. The powders will be compressed and the compacted pellets will be sintered at different temperatures. The influence of thedifferent parameters in the density of sintered pellets is being investigated. This paper presents the chemical and physicalcharacterization for the thoria used in the investigation.
文摘India is one of the few countries committed to expansion of nuclear power. In view of the abundance of thorium relative to uranium, thorium cycle is under serious development and implementation. Both ThO2 and (U,Th)O2 are used. Fine powders of the same are mostly prepared through the aqueous chemical route, pressed and sintered. Extrusion and hot impact densification are also being used. Sol-gel method and other alternatives are also being pursued with the advantage of automation and remote operation. Relevant papers on the thorium cycle with emphasis on processing methods and related aspects are reviewed here.
