CN106782696A - The air cooling equipment and nuclear facilities of a kind of containment - Google Patents

Abstract

The invention provides a kind of air cooling equipment of containment, including hollow ring body, hollow is heat exchanger channels, the dividing plate of annular is provided with heat exchanger channels, heat exchanger channels are divided into separate outer heat exchanger channels and interior heat exchanger channels by dividing plate, the gas passage outer tube connected with outer heat exchanger channels is connected with the lateral wall of ring body, gas passage outer tube is provided with gas passage inner tube, interior caliber of the outer tube diameter of gas passage inner tube less than gas passage outer tube, space is left between gas passage inner tube and gas passage outer tube, one end of gas passage inner tube is fixed on the lateral wall of dividing plate, gas passage inner tube is connected with interior heat exchanger channels；Outer heat exchanger channels connect to form heat-exchanging loop with interior heat exchanger channels by the cooling tube of U-shape structure, stretch into outer heat exchanger channels one end of cooling tube, the other end of cooling tube is stretched into interior heat exchanger channels, and cooling tube is uniformly distributed in the lower wall of ring body around the axis of ring body.The cooling that the invention is used in containment running, reduces the temperature of housing, enables containment waste heat normal delivery in atmospheric environment.

Description

The air cooling equipment and nuclear facilities of a kind of containment

Technical field

The invention belongs to nuclear technology field, a kind of air cooling equipment more particularly, to ADS systems containment and has Its nuclear facilities.

Background technology

Lead base can produce substantial amounts of heat when piling up nuclear reaction, lead base heap is placed on inside containment, in reactor operation When containment is cooled down, by the temperature control of containment within the scope of certain, prevent case temperature from overheating, Produce potential safety hazard.

The content of the invention

In view of this, the invention is directed to a kind of air cooling equipment of containment, to solve the peace of lead base reactor The cooling problem of full shell.

To reach above-mentioned purpose, what the technical scheme of the invention was realized in：

A kind of air cooling equipment of containment, including hollow ring body, it is described it is hollow be heat exchanger channels, the heat exchanger channels The dividing plate of annular is inside provided with, heat exchanger channels are divided into separate outer heat exchanger channels and interior heat exchanger channels by dividing plate, and ring body is remote The gas passage outer tube connected with outer heat exchanger channels is connected with the lateral wall of the off-axis heart, the gas passage outer tube is set There are gas passage inner tube, the interior caliber of the outer tube diameter less than gas passage outer tube of gas passage inner tube, gas passage inner tube and gas Space is left between body passage outer tube, one end of gas passage inner tube is fixed on the lateral wall of dividing plate, gas passage inner tube with Interior heat exchanger channels connection；

The outer heat exchanger channels connect to form heat-exchanging loop with interior heat exchanger channels by the cooling tube of U-shape structure, cooling tube One end through stretching into outer heat exchanger channels after the lower wall of ring body, the other end of cooling tube is through stretching after the lower wall of ring body Enter in interior heat exchanger channels, cooling tube is provided with several, axis of the cooling tube around ring body in the lower wall of ring body is uniform Distribution.

Further, the diameter parallel of the gas passage inner tube and gas passage outer tube, gas passage inner tube and gas Axis of the axis of passage outer tube respectively with ring body is vertical, gas passage inner tube eccentric setting in gas passage outer tube.

Further, the lower end of the dividing plate is connected with the first reinforcing plate of annular, and it is logical that the first reinforcing plate is fixed in heat exchange On road inwall, two the second perpendicular reinforcing plates, two are connected with the first reinforcing plate in outer heat exchanger channels Threeth reinforcing plate parallel with the first reinforcing plate is connected with the middle part of two reinforcing plates, the free end of the 3rd reinforcing plate is located at dividing plate Side wall in outer heat exchanger channels is affixed.

Further, the quantity of the 3rd reinforcing plate is four, and it is logical that the 3rd reinforcing plate is located at outer heat exchange around dividing plate Sidewall symmetry distribution in road, the quantity of the second corresponding reinforcing plate is eight.

Further, it is provided with for heat-insulated heat-preservation cotton, the insulation between two parallel portions of the cooling tube Cotton is by horizontal support and is supported and fixed between two parallel portions of cooling tube vertically, and horizontal support is positioned close to cooling Between two parallel portions of pipe lower end, the two ends of horizontal support respectively with the relative side wall of two parallel portions of cooling tube Affixed, the lower end of heat-preservation cotton is fixed on horizontal support, and the upper end of heat-preservation cotton is fixed in the lower wall of ring body, is supported vertically One end is affixed with horizontal support, and its other end is affixed with the lower wall of ring body, and the side end face of heat-preservation cotton is fixed in support vertically On.

Further, some upper side walls along ring body are offered on the upper side wall of the ring body equally distributed the first Hole, being not provided with of the ring body offers some equally distributed lead to for placing inservice inspection on the upper side wall of the first manhole The U-type groove in road.

Further, the gas passage inner tube is respectively four, gas passage inner tube with the quantity of gas passage outer tube It is uniformly distributed along the axis of ring body with gas passage outer tube.

Further, the end that the cooling tube is stretched into inside interior heat exchanger channels is neat with the interior bottom wall of interior heat exchanger channels It is flat.

Further, the ring body is arranged on the side wall upper part of containment, bottom and the containment of the cooling tube Bottom flushes.

A kind of nuclear facilities, including above-mentioned containment air cooling equipment.

Relative to prior art, a kind of air cooling equipment of the containment described in the invention has the advantage that：

The cooling that the invention is used in containment running, reduces the temperature of housing, enables containment waste heat Normally distribute, the safety and stability in containment running can be improved using the invention.

Brief description of the drawings

The accompanying drawing for constituting the part of the invention is used for providing further understanding the invention, present invention wound The schematic description and description made does not constitute the improper restriction to the invention for explaining the invention. In accompanying drawing：

Fig. 1 is the longitudinal sectional view of the containment system of the invention embodiment；

Fig. 2 is the stereogram of the containment system of the invention embodiment；

Fig. 3 is the containment of the invention embodiment and the longitudinal sectional view of pressure vessel；

Fig. 4 is the stereogram of the air cooling equipment described in the invention embodiment；

The front view that a is the air cooling equipment described in the invention embodiment is schemed in Fig. 5, figure b is the amplification in figure a at I Figure, figure c is the enlarged drawing at the II in figure a；

Fig. 6 is the internal structure schematic diagram of the heat exchanger channels described in the invention embodiment；

Fig. 7 is the front view of the air cooling equipment described in the invention embodiment；

Fig. 8 is the explosive view of the containment described in the invention embodiment and air cooling equipment；

Fig. 9 is the pressure vessel of the invention embodiment and the structural representation of heap ejection device；

Figure 10 is the longitudinal sectional view at the pressure vessel of the invention embodiment and the axis of heap ejection device；

Figure 11 is the pressure vessel of the invention embodiment and the top view of heap ejection device；

Figure 12 is the heap top flange of the invention embodiment and the enlarged drawing of pressure vessel junction.

Description of reference numerals：

101- ring bodies；The outer heat exchanger channels of 1011-；Heat exchanger channels in 1012-；1013- dividing plates；The manholes of 1014- first； 1015-U type grooves；102- gas passage outer tubes；103- gas passage inner tubes；104- cooling tubes；105- heat-preservation cottons；106- first adds Strong plate；The reinforcing plates of 107- second；The reinforcing plates of 108- the 3rd；109- horizontal supports；110- is supported vertically；201- containments；202- Boss；The manholes of 2021- second；2022- boss reinforcing plates；203- circular cowlings；204- inservice inspection passages；301- pressure vessels； 3011- inner housings；3012- shell bodies；3013- first flange disks；3014- second flange disks；302- assignment of traffic ring flat-plates； 3021- flow distributing holes；401- heaps top flange；402- central cylinders；403- lifting device cylinders；404- gas tubes；405- steams Vapour generator cylinder；406- coolant purification systems；407- bolts；408-O type rings.

Specific embodiment

It should be noted that in the case where not conflicting, the feature in embodiment and embodiment in the invention can To be mutually combined.

In the description of the invention, it is to be understood that term " " center ", " longitudinal direction ", " transverse direction ", " on ", D score, The orientation or position relationship of the instruction such as "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outward " are Based on orientation shown in the drawings or position relationship, it is for only for ease of description the invention and simplifies description, rather than instruction Or imply that the device or element of meaning with specific orientation, with specific azimuth configuration and operation, therefore must not be understood that It is the limitation to the invention.Additionally, term " first ", " second " etc. are only used for describing purpose, and it is not intended that indicating Or imply relative importance or the implicit quantity for indicating indicated technical characteristic.Thus, " first ", " second " etc. are defined Feature can express or implicitly include one or more this feature.In the description of the invention, unless separately It is described, " multiple " is meant that two or more.

, it is necessary to explanation, unless otherwise clearly defined and limited, term " is pacified in the description of the invention Dress ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected, or be detachably connected, or integratedly Connection；Can mechanically connect, or electrically connect；Can be joined directly together, it is also possible to be indirectly connected to by intermediary, Can be two connections of element internal.For the ordinary skill in the art, can be by concrete condition understanding State concrete meaning of the term in the invention.

Describe the invention in detail below with reference to the accompanying drawings and in conjunction with the embodiments.

As shown in Fig. 1 to 12, (accelerator driven sub-critical system, accelerator drives a kind of ADS Dynamic subcritical system) system of containment 201, containment 201 is opening up open-top receptacle, pastes the interior of containment 201 Wall is provided with the pressure vessel 301 of opening corresponding with containment 201, and containment 201 is affixed with pressure vessel 301.Pressure holds The interior bottom portion middle setting of device 301 has assignment of traffic ring flat-plate 302 (such as Fig. 1,3), is opened up on the ring wall of assignment of traffic ring flat-plate 302 The outside for having some flow distributing holes 3021, containment 201 is provided with air cooling equipment.The aperture of partial discharge dispensing orifice 3021 is not Together, the uneven distribution on ring wall of flow distributing hole 3021, the regulation of flow is realized using such structure.Pressure vessel 301 Housing upper branch into shell body 3012 and inner housing 3011, inner housing 3011 is upwardly extended along the length direction of housing, Shell body 3012 extends away from the oblique upper of inner housing 3011, the upper edge of shell body 3012 be provided with for containment 201 affixed first flange disks 3013, the upper edge of inner housing 3011 is provided with the second flange for installing heap top flange 401 Disk 3014.Height of the height of shell body 3012 higher than inner housing 3011.Being close to for the housing of containment 201 of containment 201 is spacious The outer wall at mouthful end is provided circumferentially about a boss 202 for protruding from outer wall, and the upper surface of boss 202 is provided with some to be examined for inside The second manhole 2021 repaiied, the second manhole 2021 is uniformly distributed along the upper surface of boss 202.The boring of boss 202, boss Some boss reinforcing plates 2022 are provided with 202 borings, are set on the lower surface of the boss 202 of the side wall of boss 202 There is the circular cowling 203 for protruding from the lower surface of boss 202, circular cowling 203 is concentric with boss 202.The quantity of the second manhole 2021 It is eight.Horizontally disposed inservice inspection passage 204 is provided with containment 201.The quantity of inservice inspection passage 204 is four Individual, the axis of inservice inspection passage 204 is in approximately the same plane, and inservice inspection passage 204 is equal around the circumference of containment 201 Even distribution.

As shown in Fig. 4 to 8, air cooling equipment includes hollow ring body 101, and hollow is heat exchanger channels.Ring body 101 is embedded in annular In cover 203.The dividing plate 1013 of annular is provided with heat exchanger channels, heat exchanger channels are divided into separate outer heat exchange by dividing plate 1013 Passage 1011 and interior heat exchanger channels 1012.Ring body 101 is connected with outer heat exchanger channels 1011 away from being connected with the lateral wall in axle center Gas passage outer tube 102, gas passage outer tube 102 is internally provided with gas passage inner tube 103, gas passage inner tube 103 Outer tube diameter leaves sky less than the interior caliber of gas passage outer tube 102 between gas passage inner tube 103 and gas passage outer tube 102 Gap.One end of gas passage inner tube 103 is fixed on the lateral wall of dividing plate 1013, gas passage inner tube 103 and interior heat exchanger channels 1012 connections.The quantity of gas passage inner tube 103 and gas passage outer tube 102 is respectively four, gas passage inner tube 103 and gas Body passage outer tube 102 is uniformly distributed along the axis of ring body 101.Outer heat exchanger channels 1011 and interior heat exchanger channels 1012 are by U-shaped The connection of cooling tube 104 of structure forms heat-exchanging loop, and one end of cooling tube 104 is through stretching into outer changing after the lower wall of ring body 101 In the passage of heat 1011, the other end of cooling tube 104 is cold through stretching into interior heat exchanger channels 1012 after the lower wall of ring body 101 But pipe 104 is provided with several, and axis of the cooling tube 104 around ring body 101 in the lower wall of ring body 101 is uniformly distributed. The diameter parallel of gas passage inner tube 103 and gas passage outer tube 102, gas passage inner tube 103 and gas passage outer tube 102 Axis of the axis respectively with ring body 101 is vertical, and in order to ensure the patency of ventilation, gas passage inner tube 103 is outside gas passage Eccentric setting in pipe 102.The lower end of dividing plate 1013 is connected with the first reinforcing plate 106 of annular, and the first reinforcing plate 106 is fixed in changes On passage of heat inwall, two perpendicular second are connected with the first reinforcing plate 106 in outer heat exchanger channels 1011 and are added Strong plate 107, the middle part of two the second reinforcing plates 107 is connected with threeth reinforcing plate 108 parallel with the first reinforcing plate 106, the 3rd The free end of reinforcing plate 108 is affixed with the side wall that dividing plate 1013 is located in outer heat exchanger channels 1011.The quantity of the 3rd reinforcing plate 108 It it is four, the 3rd reinforcing plate 108 is located at the sidewall symmetry distribution in outer heat exchanger channels 1011 around dividing plate 1013, corresponding The quantity of the second reinforcing plate 107 is eight.

As shown in figure 5, being provided with for heat-insulated heat-preservation cotton 105, heat-preservation cotton between two parallel portions of cooling tube 104 105 are fixed between two parallel portions of cooling tube 104 by horizontal support 109 and vertically support 110.Horizontal support 109 Be positioned close between two parallel portions of the lower end of cooling tube 104, the two ends of horizontal support 109 respectively with cooling tube 104 The relative side wall of two parallel portions is affixed, and the lower end of heat-preservation cotton 105 is fixed on horizontal support 109, heat-preservation cotton 105 it is upper End is fixed in the lower wall of ring body 101, and one end of support 110 is affixed with horizontal support 109 vertically, and support 110 is another vertically Outer one end is affixed with the lower wall of ring body 101, and the side end face of heat-preservation cotton 105 is fixed in support 110 vertically.

As shown in Fig. 4 to 8, some upper side walls along ring body 101 are offered on the upper side wall of ring body 101 equally distributed First manhole 1014, the first manhole 1014 is corresponding with the second manhole 2021.Ring body 101 is not provided with the upper of the first manhole 1014 Some equally distributed U-type grooves 1015 for placing inservice inspection passage 204 are offered on the wall of side.U-type groove 1015 is arranged on Between two adjacent gas passage outer tubes 102,101 points by ring body of four U-type grooves 1015 are four equal parts.U-type groove 1015 quantity is corresponding with the quantity of inservice inspection passage 204.U-type groove 1015 be arranged on two gas passage outer tubes 102 it Between ring body 101 on.Cooling tube 104 stretches into the interior bottom wall of the end and interior heat exchanger channels 1012 inside interior heat exchanger channels 1012 Flush.Ring body 101 is arranged on the side wall upper part of containment 201, and the upper surface of ring body 101 is engaged with the lower surface of boss 202, The bottom of cooling tube 104 flushes with the bottom of containment 201.

The operation principle of air cooling equipment：During containment 201 normally operation, fan is by cold air from gas passage Enter in inner tube 103, cold air enters cooling tube 104, the outer wall of containment 201 is adjacent with cooling tube 104, and the two carries out heat friendship Change.The waste heat of generation is transmitted to cooling tube 1044 by the system outer wall of containment 201, and cooling tube 104 is exported by another, will be hot empty Gas is discharged into outer heat exchanger channels 1011, is then discharged heat by gas passage outer tube 102, realizes heat exchange.

As shown in Fig. 9 to 12, the upper edge of pressure vessel 301 is connected with heap top flange 401, and heap top flange 401 does not only have Each functional part.Heap top flange 401 is connected by the upper edge of bolt 407 and pressure vessel, and realizes sealing by o-ring 408. O-ring 408 ensures the sealing of the pressure boundary that pressure vessel 301 is collectively formed with heap roof construction.Bolt 407 and heap top flange 401 connection ensure that the removable of ADS heaps ejection device entirety, can change ADS in the case where pressure vessel 301 is changed without Heap ejection device and core body.Each device collectively forms the pressure boundary of primary Ioops with pressure vessel 301 on heap top flange 401. Heap top central cylinder 402 be located at heap top flange 401 middle part and with the coaxial line of heap top flange 401.The central cylinder 402 on heap top Underface corresponds to reactor core.Detected with conveyance passage, fuel element is disposed with the corresponding flange of central cylinder 402 The parts such as system, vice, can carry out real-time monitoring and control to the operation conditions of reactor core.Positioned at heap top central tube The right side of body 402, is provided with lifting device cylinder 403.Lifting device is arranged in lifting device cylinder 403, lifting device to Lower extension is located in same internal cavity with reactor core.Using lifting device, in that context it may be convenient to change reactor core Fuel element, operation facility.In central cylinder 402 and the outside of lifting device cylinder 403, some inflations of uneven distribution Pipe 404.The effect of gas tube 404 is for ADS is inflated so that the top gassy of ADS pressure vessels 301, in case stop bit is in pressure The lead bismuth of the middle and lower part of force container 301 evaporates or flows out.Lead bismuth has very big toxicity, it is therefore desirable to true by gas barrier Protect lead bismuth not excessive.It is two coolant purification systems 406 positioned at the left side of central cylinder 402.Coolant purification system 406 For the purification to ADS cooling agent liquid lead bismuth alloys.Four Long Circle cylinders on the periphery of heap top flange 401 are distributed in, are to steam Vapour generator cylinder 405.Steam generator and the integrated arrangement of reactor, are conducive to the heat in time producing reactor reaction Amount is taken out of, reduces the temperature of reactor.Simultaneously, it is to avoid the lead bismuth liquid of primary Ioops is drawn out to reactor pressure vessel 301 Outward, it is ensured that the security of ADS.Steam generator cylinder 405 is designed as Long Circle structure, can make full use of heap top flange 401 remaining space, improves heat exchanger effectiveness.The integral installation of heap ejection device is on ADS pressure vessels 301.Heap ejection device is arranged In the upper edge of inner housing 3011 of pressure vessel 301.

A kind of nuclear facilities, including the above-mentioned system of containment 201.

The preferred embodiment of the invention is the foregoing is only, creation is not intended to limit the invention, it is all at this Within the spirit and principle of innovation and creation, any modification, equivalent substitution and improvements made etc. should be included in the invention Protection domain within.

Claims (10)

1. a kind of air cooling equipment of containment, it is characterised in that：Including hollow ring body (101), described is hollow for heat exchange is logical Road, is provided with the dividing plate (1013) of annular in the heat exchanger channels, be divided into for heat exchanger channels separate outer by dividing plate (1013) Heat exchanger channels (1011) and interior heat exchanger channels (1012), ring body (101) are logical with outer heat exchange away from being connected with the lateral wall in axle center The gas passage outer tube (102) of road (1011) connection, the gas passage outer tube (102) is internally provided with gas passage inner tube (103), the outer tube diameter of gas passage inner tube (103) is less than the interior caliber of gas passage outer tube (102), gas passage inner tube (103) space is left and gas passage outer tube (102) between, one end of gas passage inner tube (103) is fixed in dividing plate (1013) Lateral wall on, gas passage inner tube (103) is connected with interior heat exchanger channels (1012)；

The outer heat exchanger channels (1011) connect formation and change with interior heat exchanger channels (1012) by the cooling tube (104) of U-shape structure Hot loop, one end of cooling tube (104) through stretching into outer heat exchanger channels (1011) after the lower wall of ring body (101), cooling tube (104) through stretching into interior heat exchanger channels (1012) after the lower wall of ring body (101), cooling tube (104) is set other end There are several, axis of the cooling tube (104) around ring body (101) in the lower wall of ring body (101) is uniformly distributed.

2. the air cooling equipment of containment according to claim 1, it is characterised in that：The gas passage inner tube (103) with The diameter parallel of gas passage outer tube (102), the axis of gas passage inner tube (103) and gas passage outer tube (102) respectively with The axis of ring body (101) is vertical, and gas passage inner tube (103) is in gas passage outer tube (102) interior eccentric setting.

3. the air cooling equipment of containment according to claim 1, it is characterised in that：The lower end of the dividing plate (1013) is affixed There is first reinforcing plate (106) of annular, the first reinforcing plate (106) is fixed on heat exchanger channels inwall, positioned at outer heat exchanger channels (1011) two perpendicular the second reinforcing plates (107), two the second reinforcing plates are connected with the first reinforcing plate (106) in (107) threeth reinforcing plate (108) parallel with the first reinforcing plate (106), the freedom of the 3rd reinforcing plate (108) are connected with the middle part of Hold the side wall with dividing plate (1013) in outer heat exchanger channels (1011) affixed.

4. the air cooling equipment of containment according to claim 3, it is characterised in that：The number of the 3rd reinforcing plate (108) It is four to measure, sidewall symmetry distribution of the 3rd reinforcing plate (108) around dividing plate (1013) in outer heat exchanger channels (1011), The quantity of corresponding the second reinforcing plate (107) is eight.

5. the air cooling equipment of containment according to claim 1, it is characterised in that：Two of the cooling tube (104) put down It is provided between row part for heat-insulated heat-preservation cotton (105), the heat-preservation cotton (105) is by horizontal support (109) and vertically Support (110) is fixed between two parallel portions of cooling tube (104), and horizontal support (109) is positioned close to cooling tube (104) between two parallel portions of lower end, the two ends of horizontal support (109) respectively with two parallel portions of cooling tube (104) Point relative side wall it is affixed, the lower end of heat-preservation cotton (105) is fixed on horizontal support (109), and the upper end of heat-preservation cotton (105) is consolidated It is connected in the lower wall of ring body (101), one end of support (110) is affixed with horizontal support (109) vertically, its other end and ring The lower wall of body (101) is affixed, and the side end face of heat-preservation cotton (105) is fixed in support (110) vertically.

6. the air cooling equipment of containment according to claim 1, it is characterised in that：On the upper side wall of the ring body (101) Offer equally distributed first manhole (1014) of some upper side walls along ring body (101), ring body (101) do not set Offered on the upper side wall for putting the first manhole (1014) some equally distributed for accommodating the U-shaped of inservice inspection passage (204) Groove (1015).

7. the air cooling equipment of containment according to claim 1, it is characterised in that：The gas passage inner tube (103) with The quantity of gas passage outer tube (102) is respectively four, and gas passage inner tube (103) is with gas passage outer tube (102) along ring The axis of body (101) is uniformly distributed.

8. the air cooling equipment of containment according to claim 1, it is characterised in that：The cooling tube (104) is changed in stretching into The internal end of the passage of heat (1012) flushes with the interior bottom wall of interior heat exchanger channels (1012).

9. the air cooling equipment of containment according to claim 1, it is characterised in that：The ring body (101) is arranged on safety The side wall upper part of shell (201), the bottom of the cooling tube (104) flushes with the bottom of containment (201).

10. a kind of nuclear facilities, it is characterised in that：Air cooling equipment including the containment described in any one of claim 1 to 9.