RU168417U1 - LIQUID RADIOACTIVE WASTE PROCESSING DEVICE - Google Patents

Abstract

The utility model relates to devices for processing liquid radioactive waste of the nuclear fuel and energy cycle and can be used in the process of processing liquid radioactive waste (LRW) to minimize their volume and safely remove radionuclides with conditioning them in the solid phase. The technical problem to which the proposed solution is directed is to create a device in which highly effective powder sorbents can be used to process liquid radioactive waste. To achieve this objective, a device for processing liquid radioactive waste is proposed, including a container placed in biological protection and filled with a sorbent selective for radionuclides, having a lid, a bottom, fluid supply and outlet fittings, at least one filter element, and the device’s tank is filled with selective to radionuclides by the sorbent not more than 1/3 of the volume, and the filter element and the liquid outlet fitting are located above the sorbent layer. 2 ill.

Description

The utility model relates to devices for processing liquid radioactive waste of the nuclear fuel and energy cycle and can be used in the process of processing liquid radioactive waste (LRW) to minimize their volume and safely remove radionuclides with conditioning them in the solid phase.

This utility model can be used for the processing of low and medium active liquid radioactive waste at various facilities of the nuclear industry, including nuclear power plants; in the processing of solutions resulting from the decontamination of buildings, structures, equipment, vehicles, etc .; in the processing of natural water contaminated with radionuclides.

A known model of a filter container, which is a standard 200 liter barrel, which houses a filter with a sorbent, a volume of 30 liters. The internal cavity is filled with concrete of grade no lower than 500. Filtration is carried out from the bottom up. Upon reaching the production of the sorbent, the pipelines are disconnected, plugs are installed on the water supply and water discharge fittings and poured with cement mortar. // Ryabchikov B.E. Purification of liquid radioactive solutions - M .: DeLi print, 2008.P. 291-292.

The disadvantage of this model is that this device is unsuitable for use in it polydispersed powder sorbents having a developed sorption surface and high sorption capacity, but at the same time creating high hydrodynamic resistance during filtration.

The device closest to the claimed model is a filter container (see RF patent for utility model No. 157627 “Filter container for radioactive waste”, 2 IPC G21F 9/00 (2006.01), G21F 5/00 (2006.01), priority 02.04 .15, published December 10, 2015), which is a filter placed in concrete biological protection, having a cylindrical body, a cover, a bottom, fluid supply and outlet fittings, filled with a sorbent selective for radionuclides, and the thickness of the biological protection concrete layer in the radial direction and above liquid supply and outlet fittings ti is not less than 500 mm, bottom and cover of the filter are formed as rectangles of metal thickness of at least 40 mm, and the feed and output fittings are liquid at the level of the filter cover in the cavity, adapted for sealing. The smaller face of the rectangles of which the bottom and the filter cover are made can be at least twice the diameter of the cylindrical filter housing. A paddle mechanical stirrer can be placed inside the filter with the sorbent (Fig. 1).

The disadvantage of this model is that this device is unsuitable for use in it polydispersed powder sorbents having a developed sorption surface and high sorption capacity, but at the same time creating high hydrodynamic resistance during filtration.

The technical problem to which the proposed solution is directed is to create a device in which highly effective powder sorbents can be used to process liquid radioactive waste.

To achieve this objective, a device for processing liquid radioactive waste is proposed, including a container placed in biological protection and filled with a sorbent selective for radionuclides, having a lid, a bottom, fluid supply and outlet fittings, at least one filter element, and the device’s tank is filled with selective to radionuclides by the sorbent not more than 1/3 of the volume, and the filter element and the liquid outlet fitting are located above the sorbent layer.

The container may be filled with one or more sorbents selective for radionuclides. The device may contain several filter elements.

No technical solutions matching the totality of the essential features of the claimed utility model have been identified, which allows us to conclude that the utility model meets the patentability criterion of “novelty”.

The patentability condition “industrial applicability” confirms an example of a specific embodiment of a device for processing liquid radioactive waste.

In FIG. 2 shows a general view of a device for processing liquid radioactive waste. Inside the biological protection 1, a metal container 2 is placed with fittings for the supply of LRW 3 and the outlet of the purified solution 4 and connecting connectors 5 and 6. At the inlet to the branch pipe of the drain of the purified solution 4, a filter element 7 is installed to prevent entrainment of the sorbent 8. The LRW is pumped through the nozzle 3 into the device until the container 2 is filled and mixed with a sorbent with a mixer 9. Then, the purified solution is pumped out through the filtering element 7 through the fitting 4. After that, the connectors 5 and 6 are disconnected from the solution transfer systems, and container through one of the nozzles is fed curing solution. After completion of the curing process, close and seal the lid 10.

Claims (1)

A device for processing liquid radioactive waste, including a container placed in biological protection and filled with a sorbent selective for radionuclides, having a lid, a bottom, liquid supply and outlet fittings, at least one filter element, characterized in that the device’s capacity is filled with a radionuclide selective the sorbent is not more than 1/3 of the volume, and the filter element and the liquid outlet are located above the sorbent layer.

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