B. D. Rogozkin scite author profile

It is well known that plutonium is a long-lived and renewable source of energy. In France, power plutonium obtained mainly after regeneration of irradiated oxide fuel is used as a mixed fuel. However, the use of such fuel in thermal reactors is too inefficient [1]. Ultimately, fast reactors which will make it possible to use plutonium cost-effectively and in an ecologically well-substantiated manner as well as weapons and tailings uranium in the form of mixed fuel will play the dominant role in nuclear power.Weapons plutonium is a plutonium-gallium alloy [2][3][4][5]. The addition of several percent gallium to plutonium is necessary to stabilize the δ modification of plutonium and to impart the required mechanical properties to weapons plutonium. The utilization of weapons plutonium in nuclear fuel and, specifically, its conversion into oxide fuel is a topical problem [6]. The reprocessing of weapons plutonium into a disperse PuO 2 powder by a water-chemical method involves a large number of operations and a large amount of wastes. A more efficient method of reprocessing weapons plutonium is the pyrochemical process, which contains an intermediate operation where weapons plutonium is hydrided by hydrogen and the plutonium hydride is oxidized by the oxygen present in the mixture together with inert gases and nitrogen. The gallium present in weapons plutonium is oxidized to Ga 2 O 3 .The effect of gallium oxide impurities on the fuel-element cladding materials (radiation-and corrosion-resistant steel and zirconium alloys) when mixed uranium-plutonium fuel is used has not been adequately studied. Consequently, it is recommended that its content in mixed fuel not exceed 0.001 mass% to prevent cladding corrosion inside fuel elements [4]. In this connection it useful to evaluate the possibility of removing gallium during pyrochemical treatment of PuO 2 -Ga 2 O 3 powder and sintering of mixed uranium-plutonium oxide fuel kernels in a hydrogen atmosphere.Thermodynamic Analysis of Hydrogen Reduction of Gallium Oxides. A thermodynamic analysis of the reduction of gallium oxide was performed to evaluate the possible removal of gallium from plutonium oxide by heat-treatment in a hydrogen atmosphere. Figure 1 shows two variants of the pyrochemical reprocessing of weapons plutonium into plutonium dioxide powders. One variant consists in hydriding weapons plutonium by hydrogen (at comparatively low temperature to 500 K) and oxidizing the products so formed in a mixture with inert gases to PuO 2 and Ga 2 O 3 . In the other variant, nitriding plutonium by nitrogen, which yields plutonium nitride, followed by oxidation can be added to increase safety. Thermodynamic modeling was performed using the IVTANTERMO (Russia) program system [7]. The data published in the handbook [8] were used for the thermodynamic calculations.

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B. D. Rogozkin

Mononitride Fuel for Fast Reactors

Thermochemical Stability, Radiation Testing, Fabrication, and Reprocessing of Mononitride Fuel

Results of irradiation of (U0.55Pu0.45)N and (U0.4Pu0.6)N fuels in BOR-60 up to ∼12at.% burn-up

Activation methods for determining the content of oxygen, nitrogen, and fluorine in nuclear fuel

Gallium removal during pyrochemical reprocessing of weapons plutonium into oxide fuel

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