RU96113059A - NUCLEAR REACTOR CONTAINING A SPARE COOLING SYSTEM AND METHOD OF COOLING - Google Patents

Claims (9)

1. A nuclear reactor comprising a body having several coolant inlet and outlet openings and a reactor core inside the body, characterized in that it comprises a cylinder mounted inside the reactor vessel around its core to form an active zone between this cylinder and the shell zone of the reactor of the annular channel at least one discharge pipe of additional cooling fluid passing through the wall of the reactor vessel and communicating with the said annular channel Defined by said shell and said core cylinder; means for supplying said additional coolant at the injection nozzle at various supply pressures formed by one high pressure reservoir, one low pressure reservoir, at least one additional cooling fluid supply reservoir by gravity under the influence of gravity located inside the reactor structure of the given nuclear reactor, and at least one recovery well located inside the building of a nuclear reactor, said high pressure reservoir Gravity, said low pressure reservoir, said gravity gravity feed reservoir, and said recovery well are connected via at least one supply line to at least one discharge nozzle.  2. A nuclear reactor according to claim 1, characterized in that the said recovery well is connected to the supply line to the discharge pipe by means of a discharge line on which the discharge pump is located.  3. A nuclear reactor according to one of claims 1 or 2, characterized in that it comprises a normal cooling circuit using high pressure coolant and a means for lowering the pressure of the nuclear reactor cooling circuit.  4. A nuclear reactor according to one of claims 1 or 2, characterized in that the shut-off means, such as valves and gate valves, are located on the pipelines connecting the power means to the supply lines to said discharge branch pipe.  5. A nuclear reactor according to one of claims. 1-4, characterized in that the discharge pipe contains an orifice for restricting flow.  6. A nuclear reactor according to one of claims. 1-5, characterized in that each of the inlet holes of the coolant in the body of the nuclear reactor contains an opening to limit the flow.  7. Nuclear reactor according to one of paragraphs. 1-6, characterized in that at least one shutoff valve is located in the hole passing through the shell of the active zone of the nuclear reactor in its upper part at the level of the upper pressure chamber of the nuclear reactor vessel, with the possibility of communication of the said upper pressure chamber with an annular space housing located around the shell of the active zone, and communication with the inlet coolants of the nuclear reactor shell.  8. Nuclear reactor according to one of paragraphs. 1-7, characterized in that the said cylinder contains several through holes spaced from each other in the circumferential direction and located in the upper part of this cylinder.  9. A method of emergency backup emergency cooling of a nuclear reactor comprising a casing and a cooling circuit comprising pressurized coolant located inside a nuclear reactor building, characterized in that in the event of an accident occurring in the cooling circuit under pressure of a nuclear reactor, inside the casing to the base of the active zones of the reactor supply additional coolant, said coolant being supplied sequentially by various power supplies at various pressures located in the building Nuclear reactor, in the following successive steps: following an accident in the coolant circuit at high pressure in a nuclear reactor housing serves the additional cooling fluid from the pressure vessel; until the complete emptying of said first high pressure tank, additional coolant is supplied from the second low pressure tank; until the said second low pressure tank is completely empty, additional cooling liquid is supplied from the gravity feed tank under the influence of gravity located inside the building of the given nuclear reactor; coolant recovered in the building of the nuclear reactor and pumped by the pump is fed into the casing.