RU99122543A - METHOD AND DEVICE FOR LOCALIZING THE MELT OF THE NUCLEAR REACTOR ACTIVE ZONE - Google Patents

Claims (12)

1. The method of localization of the melt in the core of a nuclear reactor, which consists in capturing and maintaining the melt in a tank located under the reactor, the removal of the melt into the receiving chamber and cooling, characterized in that the melt is fed to the receiving chamber from above, and the melt is cooled by heat removal in atmosphere through a protective screen and upon contact of the melt with the walls of the receiving chamber, the cooling of which is carried out by supplying a cooling medium to them.  2. The device for localization of the melt in the core of a nuclear reactor, including a reservoir for trapping and maintaining the melt, located under the reactor and covered with a layer of material that melts upon contact with the melt, a receiving chamber located outside the reactor shaft and connected to the tank by an inclined pipe, a cooling system that differs the fact that the chamber is multilayer and at least one of the layers is made of heat-accumulating material, and the cooling systems are placed in the walls of the chamber for supplying to neither the cooling medium, the chamber is covered with a protective top tight screen.  3. The device according to claim 2, characterized in that the elements of the cooling system are made in the form of channels and placed in a heat-accumulating layer.  4. The device according to paragraphs. 2 and 3, characterized in that the heat storage layer is coated with a refractory material.  5. The device according to PP.2-4, characterized in that the layer of refractory material is made reinforced.  6. The device according to PP.2-5, characterized in that at least one of the layers of the chamber is made of insulating material.  7. The device according to PP.2-6, characterized in that the protective screen is made hemispherical.  8. The device according to PP.2-7, characterized in that the layer with which the reservoir for collecting and maintaining the melt is made of waste from metalworking industries.  9. The device according to claims 2-8, characterized in that the layer made of waste is briquettes of low-melting metal chips, porosity of 10-90%.  10. The device according to claims 2 to 9, characterized in that the pipeline connecting the tank and the receiving chamber is multilayer.  11. The device according to PP.2-10, characterized in that one of the layers of the pipeline is made of fiberglass.  12. The device according to PP.2-11, characterized in that one of the layers of the pipeline is made of refractory material.