RU2548443C2 - Apparatus for hydrolysis of uranium hexafluoride - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention can be used for production of clean salts and oxides from uranium hexafluoride. Proposed apparatus comprises casing with upper part provided with uranium hexafluoride and flushing solution feed means. Said casing accommodates uranium hexafluoride and flushing solution mixer. Casing lower part has solution drain bore 4. Uranium hexafluoride and flushing solution feed means comprises expansion funnel 5 arranged ay casing top part to feed gaseous uranium hexafluoride via its inner part and to feed flushing solution over its outer surface. Said casing is composed of column 1. Uranium hexafluoride and flushing solution mixer is composed of fixed swirler 8 consisting of blades arranged in tiers in the column peripheral zone. Blades are bent so that upper concaved surface of every blade faces the lower convexed surface of adjacent blade. Radial length of blades increases from tier to tier in direction from top to bottom. Hydrolysis of gaseous uranium hexafluoride is executed with application of aluminium nitrate.

EFFECT: simplified design, higher reliability.

3 cl, 4 dwg

Description

The invention relates to the field of chemical refining in the nuclear fuel production cycle and may find application in the field of obtaining pure salts and oxides from uranium hexafluoride (HFCs).

In the proposed apparatus, the process of hydrolysis of gaseous uranium hexafluoride (HFC) is carried out using a solution of aluminum nitrate Al (NO ₃ ) ₃ .

Closest to the proposed apparatus is an apparatus for the hydrolysis of uranium hexafluoride containing a housing, in the upper part of which there are nozzles for supplying HFCs and HF solution and a nozzle for evacuating the resulting gases (HF). In the lower part of the body there is a pipe for unloading reaction products (RU 2465208 C1, published 10.10.2011). An anchor mixer with an additional pair of upward-facing blades and a cultivator made in the form of a U-shaped plate mounted motionless on the annular protrusion of the mixer shaft in response to the gaps between the blades of the anchor mixer are installed in the working area of the housing for uniform mixing of the starting reagents.

The disadvantage of the closest analogue is the complexity of the design of the apparatus and, as a consequence, its high material consumption, as well as the presence of a large number of rotating parts.

In addition, during the hydrolysis of uranium hexafluoride with a solution of aluminum nitrate, the following undesirable consequences are possible.

A solution of aluminum nitrate in this process is used to bind the formed fluorine ions (F ^- ) into strong cationic complexes [AlF] ⁺² or [AlF ₂ ] ⁺¹ , which is ensured by strict observance of the molar ratio between aluminum and fluorine supplied to the process of no more than 1 : 2 (in practice 1: 1.5 or 1: 1.8).

Failure to observe this ratio leads to the appearance in the solution of such compounds as the solid AlF ₃ phase, which clogs the irrigation system with sludge, or higher anionic aluminum complexes [AlF ₄ ] ^-1 , [AlF ₅ ] ^-2 and [AlF ⁶ ] ^-3 , which during decay, fluorine ion (F ^- ) is released, which destroys technological equipment. In addition, all products of perfluorination, being in the working solution, have a strong influence on the flow of the technological process in subsequent operations, which leads to defective products.

In the above known apparatus (RU 2465208 C1), a reaction occurs between HFCs and a stream of irrigating solution - an aqueous solution of HF - and the hydrolysis product is the compound UO ₂ F ₂ , which can be both in solid and dissolved state, therefore, the supersaturation of the working solution in this process (both general and local), it does not matter for the interacting components and products of the reaction. The gases leaving the apparatus contain hydrofluoric acid, which is in a gaseous state and does not form solid compounds.

When carrying out the hydrolysis of HFCs with an aluminum nitrate solution, a supersaturation of the solution with fluorine compounds, accompanied by the formation of a solid phase AlF ₃ or higher aluminum fluorides, is unacceptable, and local oversaturation in the upper part of the apparatus is inevitable. In addition, residues of unreacted HFCs go out through the ventilation pipe, which clog it, forming solid compounds.

The objective of the invention is the creation of a simple apparatus for the hydrolysis of uranium hexafluoride, which does not contain rotating parts and ensures reliable operation, which eliminates the possibility of local perfluorination of the irrigating solution and clogging of the apparatus and ventilation pipe with HFC hydrolysis products.

The technical result of the invention is to ensure the interaction of the entire stream of HFCs with the irrigation solution without the use of moving mixing devices while eliminating the re-fluorination of the irrigation solution.

The technical result is achieved in that the apparatus for hydrolysis of uranium hexafluoride contains a housing, in the upper part of which there are means for supplying uranium hexafluoride and an irrigation solution, in which there are means for mixing uranium hexafluoride and an irrigation solution and which has a hole in the lower part for draining the resulting solution . At the same time, the means for supplying uranium hexafluoride and irrigation solution include an expansion funnel installed in the upper part of the housing with the possibility of supplying gaseous uranium hexafluoride through its internal part, and irrigating solution on its outer surface, while the housing is made in the form of a column, and the device for mixing uranium hexafluoride and irrigation solution is a stationary swirl device made in the form of blades placed in tiers in the peripheral zone of the column and curved Thus, the upper concave surface of each blade faces the lower convex surface of the adjacent blade, and the length of the blades in the radial direction increases from tier to tier in the direction from top to bottom.

In particular cases of implementing the invention, the following options for its implementation are possible:

- in the lower part of the column there is a ventilation pipe made in the form of a shelf scrubber for trapping residues of uranium hexafluoride;

- around the upper part of the expansion funnel, a distribution cup for the irrigation solution with an opening in the bottom is formed, forming an annular gap with the expansion funnel for supplying the irrigation solution to its outer surface.

The essence of the invention is illustrated using the drawings.

In FIG. 1 shows a longitudinal section of the proposed apparatus.

In FIG. 2 - tier swirl device, top view.

In FIG. 3 is a section along AA in FIG. 2.

In FIG. 4 is a fragment of a section along BB in FIG. 2.

The apparatus for the hydrolysis of uranium hexafluoride is made in the form of a column 1, in the upper part of which there are means for supplying uranium hexafluoride and an irrigation solution, including nozzles 2 and 3, respectively, and in the lower part there is an opening 4 for draining an aqueous solution of uranyl nitrate obtained as a result mixing and reaction of the above components. Means for supplying uranium hexafluoride and irrigation solution also include an expansion funnel 5 installed in the upper part of column 1 in the form of a truncated cone, expanding towards the lower part of column 1. The inside of the funnel 5 is connected to the nozzle 2 for supplying HFC gas, and around the upper part of the expansion funnel 5 formed a distribution bowl 6 connected to the nozzle 3 for supplying irrigation solution, while in the bottom of such a bowl 6 a hole is made, forming with an expansion funnel 5 an annular gap 7, through which the irrigation solution enters the outer surface of the funnel 5.

A device for mixing uranium hexafluoride and an irrigation solution in the form of a stationary swirl device 8, configured to form a downwardly directed cone 9 of an irrigation solution stream mixed with HFCs, is installed along the height of column 1.

The swirl device 8 is a six-tier cassette installed in the column 1, each tier of which is adjacent to the wall of the column 1 and is made in the form of a cylindrical shell 10 on which several blades 11 are fixed (in Fig. 2 - six), so that they are located in the peripheral zone columns 1. Each blade 11 is elliptically curved in a vertical section (passing through the chord of the cross section of column 1) so that its upper edge is closer to column 1, and the lower one is closer to its central axis. In this case, the upper concave surface of each blade 11 faces the lower convex surface of the adjacent blade. The length of the blades 11 in the radial direction increases from tier to tier in the direction from top to bottom so that the size of the free space between the blades 11 in the central part of the column 1 decreases in the direction from top to bottom, which ensures the reverse cone of the flow of the irrigation solution.

Each blade 11 is equipped with a chipper 12, which prevents the jet of irrigation solution from breaking down to the center of the shell 10, and dividing protrusions 13 that divide the irrigation solution into separate jets in order to increase the mass transfer area. The chipper 12 is formed by bending upwards the edges of the blade 11, facing the central axis of the column 1, at an angle of 90 degrees. The dividing protrusions 13 are formed on the side of each blade 11 also by bending upward at an angle of 90 degrees. Thus, the flow of the irrigation solution swirls, moving along the upper surfaces of the blades 11, and the increase in the length of the blades 11 along the height of the column 1 forms a free space decreasing from top to bottom in the center of the column 1, providing the formation of the inverse cone of the flow of the irrigation solution in the volume of the column 1.

The scope of the invention is not limited to the described design of the swirl device. It can also have a different design and arrangement of swirlers, providing a narrowing of the free space inside the column 1.

In the lower part of the column 1, where HFCs in the exhaust gases are negligible, there is a ventilation pipe in the form of a shelf scrubber 10, in which a small amount of irrigation solution is supplied to trap the remains of HFCs. Thus, all HFC residues in the exhaust gases are completely captured and clogging of the pipeline is prevented.

The device operates as follows.

HFCs are supplied to column 1 through the inside of the expansion funnel 5, and the entire volume of the irrigation solution enters through the annular gap from the distribution cup 6 to the outer surface of the expansion funnel 5 and then to the swirling devices 8, which create a downward directed flow cone of the irrigation solution, which gradually and with constant stirring, it absorbs the HFC stream located inside the cone. Since the entire volume of the irrigating solution reacts with an insignificant amount of HFCs, its local re-fluorination is impossible, which allows saturating the solution, focusing on the maximum concentration of fluorine saturation. This concentration of fluorine in solution allows you to save up to 20% of aluminum.

Claims (3)

1. Apparatus for hydrolysis of uranium hexafluoride containing a housing, in the upper part of which there are means for supplying uranium hexafluoride and irrigation solution, in which there is a device for mixing uranium hexafluoride and irrigation solution and which has a hole in the lower part for draining the resulting solution, characterized in that the means for supplying uranium hexafluoride and irrigation solution include an expansion funnel installed in the upper part of the housing with the possibility of supplying gaseous uranium hexafluoride h through its inner part, and the irrigation solution on its outer surface, while the body is made in the form of a column, and the device for mixing uranium hexafluoride and the irrigation solution is a stationary swirl device made in the form of blades placed in tiers in the peripheral zone of the column and curved so that the upper concave surface of each blade faces the lower convex surface of the adjacent blade, and the length of the blades in the radial direction increases from tier to tier in the direction nii from top to bottom. 2. The apparatus according to claim 1, characterized in that in the lower part of the column there is a ventilation pipe made in the form of a shelf scrubber for trapping residues of uranium hexafluoride. 3. The apparatus according to claim 1, characterized in that around the upper part of the expansion funnel there is formed a distribution cup for the irrigation solution with an opening in the bottom forming an annular gap with the expansion funnel for supplying the irrigation solution to its outer surface.

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