CN208444609U - A kind of pressure vessel cooling system based on vacuum chamber - Google Patents

Abstract

The periphery of pressure vessel is arranged in the utility model discloses a kind of pressure vessel cooling system based on vacuum chamber, including stainless steel outer cylinder, shielded layer and steel safety shell, stainless steel outer cylinder, and vacuum chamber is formed between pressure vessel；The periphery of stainless steel outer cylinder is arranged in shielded layer, and water inlet pipe and outlet pipe are each passed through shielded layer and communicate with vacuum chamber；Steel safety shell periphery is equipped with cooling water source, the inside of steel safety shell is communicated to by pipeline, stainless steel outer cylinder and shielded layer are fixed in steel safety shell, are respectively corresponded on pipeline, water inlet pipe and outlet pipe equipped with solenoid valve, and each solenoid valve is started by control module.The utility model, it can guarantee the heat insulation effect of pressure vessel under the heap accidental conditions that react, it is realized after major accident occurs to the external cooling of pressure vessel wall surface, avoid the failure of pressure vessel and a large amount of releases of radioactive product, using circulating cooling mode, the energy is saved, utilization rate is high.

Description

A kind of pressure vessel cooling system based on vacuum chamber

Technical field

The utility model relates to Small reactor technical fields, and in particular to a kind of pressure vessel based on vacuum chamber is cold But system.

Background technique

After major accident occurs for reactor, high-temperature molten falls into bottom chamber, generates huge thermic load to lower head, And then may cause Lower head failure, radioactive product largely discharges.The release of radioactive product in order to prevent can use at present Cooling technology outside pressure vessel is realized in fusant heap and is detained by cooling pressure container lower head, and then actually eliminates big Measure the important method of radioactivity release.

Cooling technology has been obtained in advanced pressurized water reactor power station such as AP1000, the imperial No.1 of China by land outside pressure vessel Using, and have been widely recognized.In the power station AP1000, after external cooling strategy starts, cooling water is injected into reaction In heap heap chamber, and pass through the cooling duct cooling pressure container outer wall face in insulating layer.Pressure vessel based on vacuum chamber is cold But there are difference in design and construction for system and land power station, and pressure vessel outside is without typical heap possessed by land-based reactor Cavity configuration, and realize that external cooling exists centainly also without dedicated cooling duct between its insulating layer and pressure vessel wall surface It is difficult.

In view of this, be badly in need of improving the structure of the existing pressure vessel cooling system based on vacuum chamber, with Improve cooling effect.

Utility model content

Technical problem to be solved in the utility model is that the existing pressure vessel cooling system based on vacuum chamber is cold But effect difference problem.

In order to solve the above-mentioned technical problem, technical solution used by the utility model is to provide a kind of based on vacuum chamber Pressure vessel cooling system, comprising:

Stainless steel outer cylinder, is arranged in the periphery of pressure vessel, and vacuum chamber is formed between pressure vessel；

Shielded layer, is arranged in the periphery of the stainless steel outer cylinder, water inlet pipe and outlet pipe be each passed through the shielded layer with The vacuum chamber communicates；

Steel safety shell, steel safety shell periphery are equipped with cooling water source, are communicated to the steel safety by pipeline The inside of shell, the stainless steel outer cylinder and the shielded layer are fixed in the steel safety shell, the pipeline, the water inlet pipe It respectively corresponds on the outlet pipe equipped with solenoid valve, each solenoid valve is started by control module.

In another preferred embodiment, insulating layer is equipped between the shielded layer and the stainless steel outer cylinder.

In another preferred embodiment, the pressure vessel is higher by the top surface of the stainless steel outer cylinder, described stainless Steel outer cylinder, the insulating layer and the shielded layer are contour.

In another preferred embodiment, the water inlet pipe, the outlet pipe are separately positioned on the stainless steel outer cylinder Lower part, top, the height of the pipeline is between the water inlet pipe and the outlet pipe.

In another preferred embodiment, the top of the steel safety shell is arc, the height of the steel safety shell Degree is 3~5 times of the height of the stainless steel outer tube.

In another preferred embodiment, the liquid level inside the external water source is twice of the vacuum chamber.

In another preferred embodiment, the pressure vessel is arranged far from the side of the pipeline.

Compared with prior art, the utility model can guarantee pressure vessel under the heap accidental conditions that react Heat insulation effect is realized to the external cooling of pressure vessel wall surface after major accident occurs, avoids the failure of pressure vessel and put A large amount of releases of penetrating property product save the energy using circulating cooling mode, and utilization rate is high.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the vacuum chamber of the utility model；

Fig. 2 is work flow diagram of the utility model under major accident.

Specific embodiment

The utility model provides a kind of pressure vessel cooling system based on vacuum chamber, guarantees under accidental conditions The heat insulation effect of pressure vessel is realized after major accident occurs to the external cooling of pressure vessel wall surface.Below with reference to explanation Book the drawings and specific embodiments are described in detail the utility model.

As shown in Figure 1, a kind of pressure vessel cooling system based on vacuum chamber provided by the utility model, including it is stainless Steel outer cylinder 20, shielded layer 30 and steel safety shell 70.The periphery of pressure vessel 10 is arranged in stainless steel outer cylinder 20, and holds with pressure Vacuum chamber 60 is formed between device 10.The periphery of stainless steel outer cylinder 20 is arranged in shielded layer 30, and water inlet pipe 11 and outlet pipe 12 are distinguished It is communicated across shielded layer 30 with vacuum chamber 60.70 periphery of steel safety shell is equipped with cooling water source, is communicated to steel by pipeline 72 The inside of containment 70, stainless steel outer cylinder 20 and shielded layer 30 are fixed in steel safety shell 70, pipeline 72, water inlet pipe 11 and go out It is respectively corresponded on water pipe 12 equipped with solenoid valve, each solenoid valve is started by control module.Solenoid valve have can remotely operate, is sensitive High advantage is spent, and installation is simple easy to maintain, is suitably applied in steel safety shell 70.

As shown in Fig. 2, opening the solenoid valve of water inlet pipe 11 and outlet pipe 12 after major accident generation, while opening outer The pipeline 72 at portion water source 71, provides flow channel for cooling water.External water source 71 is into rising water level constantly in steel safety shell 70 Height, the cooling water that bottom is gathered enters vacuum chamber 60 from the water inlet pipe 11 of lower part, with 10 outer wall face contact of pressure vessel and to it Cooling, vacuum chamber 60 become cooling duct.Due to being sealed in the case where major accident operating condition especially fusant has fallen into pressure vessel 10 Under operating condition in head, the outside wall surface of pressure vessel 10 may maintain higher temperature.The cooling water being heated or the steaming being thermally formed Vapour is discharged vacuum chamber 60 by the outlet pipe 12 on top and enters in steel safety shell 70, and steam or high-temperature water are in steel safety 70 inner wall cooling for reflux of shell, is collected at the bottom of steel safety shell 70 again, again flows into vacuum chamber 60, shape as cooling water At Natural Circulation, heat is finally exported to the outside of steel safety shell 70.This Natural Circulation can will be outside pressure vessel 10 Wall surface maintains lower temperature, to keep the integrality of pressure vessel 10, realizes in the heap of fusant and is detained, practical to eliminate greatly Measure the consequence of radioactive substance release.

Insulating layer 40 is equipped between shielded layer 30 and stainless steel outer cylinder 20, insulating layer 40 and vacuum chamber 60 together, avoid pressing The high temperature of force container 10 guarantees that the cooling water in steel safety shell 70 is not affected by high temperatures to external diffusion.

Pressure vessel 10 is higher by the top surface of stainless steel outer cylinder 20, and stainless steel outer cylinder 20, insulating layer 40 and shielded layer 30 are contour. In the present embodiment, 10 flange of pressure vessel is wrapped in interior, the top of stainless steel outer cylinder 20 with lower portion by stainless steel outer cylinder 20 It is connected with the outer wall of pressure vessel 10, and is closed using stainless steel plate, lower part is fixed on 70 floor of containment, to be formed The vacuum chamber 60 of vacuum-pumping.

Water inlet pipe 11, outlet pipe 12 are separately positioned on the lower part of stainless steel outer cylinder 20, top, and the height of pipeline 72 is being intake Between pipe 11 and outlet pipe 12.Water inlet pipe 11 be arranged in lower part, facilitate cooling water to rapidly enter, and the water outlet of pipeline 72 with Water inlet pipe 11 forms difference in height, prevents the water of pipeline 72 from flowing back.

The top of steel safety shell 70 is arc, and the height of steel safety shell 70 is the 3~5 of the height of stainless steel outer tube Times.The shape of arc can will have biggish radiating surface, and meet heat and dissipate to provide good glide paths after steam liquefied The requirement of hair, and the height of steel safety shell 70 is able to satisfy steam liquefied space enough, improves liquefaction lowering ability.Steel peace Full shell needs certain height to guarantee liquefy space and circulation ability, but specific height can be adjusted according to actual needs It is whole, so that being adapted with other design parameters.

Liquid level inside external water source 71 is twice of vacuum chamber 60, and this set may make external cooling water fast Speed enters in steel safety shell 70, and can guarantee that the hydraulic pressure of vacuum chamber 60 will not influence the inflow velocity of cooling water.External water source It is cooling outside 71 injections and pressure vessel for needing certain water level and water to guarantee cooling water, but specific water and water level Also it can according to need and be adjusted.

Pressure vessel 10 is arranged far from the side of pipeline 72, avoids distance mistake of the entrance of pipeline 72 from outlet pipe 12 Closely, prevent cooling water from directly directly being contacted with the higher water of temperature, to reduce the cooling capacity entirely recycled.

The utility model has the following beneficial effects:

1. the vacuum chamber Room 60 in system can play insulation effect under normal reactor operation operating condition, pressure is maintained The temperature of container 10；

2. after major accident occurs, external water source 71 can carry out external cooling to pressure vessel 10, guarantee pressure vessel 10 integrality is realized in the heap of fusant and is detained；

3. the water after being cooled down can be cooled down using the inner wall of steel safety shell 70, so that Natural Circulation is formed, By outside the heat derives of reactor core and fusant to containment 70, utilization rate is high.

The utility model is not limited to above-mentioned preferred forms, and anyone should learn that the enlightenments in the utility model Under the structure change made, it is all that there is same or similar technical solution with the utility model, each fall within the utility model Within protection scope.

Claims (7)

1. a kind of pressure vessel cooling system based on vacuum chamber characterized by comprising

Stainless steel outer cylinder, is arranged in the periphery of pressure vessel, and vacuum chamber is formed between pressure vessel；

Shielded layer, is arranged in the periphery of the stainless steel outer cylinder, water inlet pipe and outlet pipe be each passed through the shielded layer with it is described Vacuum chamber communicates；

Steel safety shell, steel safety shell periphery are equipped with cooling water source, are communicated to the steel safety shell by pipeline Inside, the stainless steel outer cylinder and the shielded layer are fixed in the steel safety shell, the pipeline, the water inlet pipe and institute It states and is respectively corresponded on outlet pipe equipped with solenoid valve, each solenoid valve is started by control module.

2. the pressure vessel cooling system according to claim 1 based on vacuum chamber, which is characterized in that the shielded layer Insulating layer is equipped between the stainless steel outer cylinder.

3. the pressure vessel cooling system according to claim 2 based on vacuum chamber, which is characterized in that the pressure is held Device is higher by the top surface of the stainless steel outer cylinder, and the stainless steel outer cylinder, the insulating layer and the shielded layer are contour.

4. the pressure vessel cooling system according to claim 1 based on vacuum chamber, which is characterized in that the water inlet Pipe, the outlet pipe are separately positioned on lower part, the top of the stainless steel outer cylinder, the height of the pipeline in the water inlet pipe and Between the outlet pipe.

5. the pressure vessel cooling system according to claim 1 based on vacuum chamber, which is characterized in that the steel peace The top of full shell is arc, and the height of the steel safety shell is 3~5 times of the height of the stainless steel outer tube.

6. the pressure vessel cooling system according to claim 1 based on vacuum chamber, which is characterized in that the external water Liquid level inside source is twice of the vacuum chamber.

7. the pressure vessel cooling system according to claim 1 based on vacuum chamber, which is characterized in that the pressure is held Device is arranged far from the side of the pipeline.