CN101727996B - Method for detecting deformation of fuel assembly after irradiation of pressurized-water reactor nuclear power plant and implementation device thereof - Google Patents

Abstract

The invention belongs to the technical field of detection, and in particular relates to a device and a method for detecting deformation size of a fuel assembly after irradiation of a pressurized-water reactor nuclear power plant, which solve the problem of low precision and poor insurance in the prior art. The detecting device mainly comprises an annular base (1) and detection sets (2), wherein a plurality of detection sets (2) are evenly distributed on the annular base (1); each detection set (2) comprises a pair of detection units (3) placed reversely in parallel; the number of the detection units (3) is the same as the edge number of the fuel assembly (10); and the detecting method adopts the detection set (2) consisting of the two detection units (3) to measure the width of an opposite side of the fuel assembly, the diameter of fuel rods and the clearance between the fuel rods. The method and the device can inspect the curve and torsion of the fuel assembly after the irradiation of the nuclear power plant, the opposite side distance of a grillwork and the clearance between the fuel rods; and edges of the fuel assembly can be inspected at the same time by adopting the arrangement of a plurality of units, and the detection efficiency is high.

Description

Method for detecting deformation of fuel assembly after irradiation of pressurized-water reactor nuclear power plant and implement device thereof

Technical field

The present invention relates to the pick-up unit and the detection method of s Nuclear Plant, concrete a kind of method for detecting deformation of fuel assembly after irradiation of pressurized-water reactor nuclear power plant and implement device thereof.

Background technology

The pressurized-water reactor nuclear power plant fuel assembly generally adopts square or hexagonal design, and fuel rod, control rod guide pipe and neutron measurement pipe are arranged, and long 3～4 meters of assembly is made up of last base, fuel rod, screen work and bottom nozzle respectively from top to bottom.Screen work is total a plurality of, equidistantly distributes in the length component direction, and fuel rod and control rod guide pipe are fixed together, and the structure of hexagonal assembly is as shown in Figure 1.Assembly behind the irradiation generally leaves in the storage screen work of the fuel pit that is full of boron water, and is as shown in Figure 2.

Because the pressurized-water reactor nuclear power plant fuel assembly is operated in high temperature, high pressure, the high radiation environment; Fuel rod can be because void swelling produces local deformation; Receive the influence of factors such as erection stress and thermal stress simultaneously, fuel assembly integral body also can bend and torsional deformation, will influence the water channel gap of fuel assembly when serious; Influence the normal insertion of control rod simultaneously, the safe operation of reactor is constituted a threat to.Because nuclear safety is the life of nuclear power station; According to of the requirement of State Bureau of Nuclear Safety's relevant regulations, in order to guarantee the safe operation of reactor, in a period of time interval with relevant nuclear safety file; Must regularly detect assembly; This detection is the whole assembly of complete detection, comprises distortion and whole distortion, the bending of local burnup rod etc., to guarantee the safe operation of reactor.

But because fuel assembly has very strong radioactivity behind the irradiation, also having surplus heat simultaneously constantly discharges, and need leave in the water of boracic, can't close-in measurement, and general measuring equipment also can't be used.The method of general at present employing video is checked, but this method precision is low, can only observe the distortion situation of assembly roughly.

Summary of the invention

The purpose of this invention is to provide a kind of deficiency that overcomes prior art; Be implemented in the pressurized-water reactor nuclear power plant reactor fuel pond, under high irradiation dose and the deep water conditions, accomplish irradiation after the distortion dimension inspection of fuel assembly, the method for detecting deformation of fuel assembly after irradiation of pressurized-water reactor nuclear power plant and the implement device thereof that provide safeguard for the safe operation of reactor.

The present invention is achieved in that

A kind of deformation of fuel assembly after irradiation of pressurized-water reactor nuclear power plant size detecting method; It is characterized in that: the test set that adopts two detecting units to form is measured width and the diameter of fuel rod and the gap between the fuel rod of an opposite side of fuel assembly; The profile of based on fuel assembly is arranged many group test set, and the width of each opposite side of fuel assembly is measured simultaneously.

A kind of deformation of fuel assembly after irradiation of pressurized-water reactor nuclear power plant size detecting device is made up of test section, switch board, positioning shooting head and cable under water, and switch board comprises controller and monitor, and controller is connected with test section under water through cable; The positioning shooting head is connected with monitor through cable; It is characterized in that: the test section comprises annular base and test set under water; Test set has many groups, is evenly distributed on the annular base platform; Test set comprises the detecting unit of a pair of antiparallel placement, 2 seal boxs and 2 master bars; The quantity of detecting unit is identical with the limit number of fuel assembly; Said detecting unit comprises signal transmitting terminal, signal receiving end; The signal transmitting terminal comprises: laser generation part, diversing lens, and signal receiving end comprises: plus lens and photoelectricity receiving-member; The central axis of diversing lens and plus lens point-blank; The laser generation part sends the position of laser on the focus of diversing lens, and the receiving unit of photoelectricity receiving-member is positioned on the focus of plus lens; Be positioned at signal transmitting terminal of test set the same side and the seal box that signal receiving end is installed in; 2 master bars are fixed on the annular base, lay respectively on the line of diversing lens and plus lens normal direction outer ledge in 2 detecting units; Two locating pieces have been installed below the described annular base; The positioning shooting head is installed in the locating piece.

The seal box of going up is as stated processed by stainless steel, has shielding.

Diversing lens and plus lens and barrier bed thereof adopt the optical glass that adds zinc telluridse to process as stated.

Aforesaid detecting unit quantity is 6.

A kind of method of application of pick-up unit of deformation of fuel assembly after irradiation of pressurized-water reactor nuclear power plant size mainly comprises the steps:

(1) erecting device

(a) install

The pick-up unit of deformation of fuel assembly after irradiation of pressurized-water reactor nuclear power plant size is installed; Suspender is installed, test section under water is placed on the fuel storage screen work in the fuel pit, test section under water is put into the fuel screen work position of regulation;

(b) start preheating

Opening power, whether check system is normal, preheating 15 minutes;

(2) get material

Fuel assembly is inserted the middle screen work of annular base; After assembly is put into the end, fuel assembly (10) is slowly risen to the detection position;

(3) detect

Slowly promote fuel assembly, test set is accomplished the inspection to each opposite side data of fuel assembly, accomplishes the flexibility of fuel assembly, the calculating and the storage of torsion resistance;

After detecting completion, with the former stored position of the fuel assembly handling that has detected.

The invention has the beneficial effects as follows: can check bending, distortion, the opposite side distance of screen work and the gap of fuel rod of the fuel assembly behind the nuclear power irradiation; The many covers of employing detecting units are arranged, can check each limit of fuel assembly simultaneously, and the scope of examination is detailed, comprehensive, and the supervision time is short, and detection efficiency is high.

Description of drawings

Fig. 1 is the fuel assembly structure synoptic diagram;

Fig. 2 is fuel pit and fuel assembly storage screen work;

Fig. 3 is a kind of deformation of fuel assembly after irradiation of pressurized-water reactor nuclear power plant size detecting method of the present invention synoptic diagram

Fig. 4 is the synoptic diagram of a kind of deformation of fuel assembly after irradiation of pressurized-water reactor nuclear power plant size detecting device of the present invention;

Fig. 5 is the synoptic diagram of test section under water of a kind of deformation of fuel assembly after irradiation of pressurized-water reactor nuclear power plant size detecting device of the present invention;

Among the figure: 1. annular base, 2. test set, 3. detecting unit, 4. signal transmitting terminal, 5. signal receiving end, 6. laser generation part; 7. diversing lens, 8. plus lens, 9. photoelectricity receiving-member, 10. fuel assembly, 11. cables; 12. switch board, 13. locating pieces, 14. refueling machines, 15. master bars.

Embodiment

Below in conjunction with accompanying drawing and embodiment the pick-up unit and the method for a kind of deformation of fuel assembly after irradiation of pressurized-water reactor nuclear power plant size of the present invention are described:

As shown in Figure 3; A kind of deformation of fuel assembly after irradiation of pressurized-water reactor nuclear power plant size detecting method; The test set 2 that adopts two detecting units 3 to form is measured width and the diameter of fuel rod and the gap between the fuel rod of an opposite side of fuel assembly 10; The profile of based on fuel assembly 10 is arranged many group test set 2, and the width of fuel assembly 10 each opposite side is measured simultaneously.

Like Fig. 4, shown in Figure 5, a kind of pick-up unit of deformation of fuel assembly after irradiation of pressurized-water reactor nuclear power plant size comprises: test section, switch board 12, positioning shooting machine and cable 11 under water, and switch board 12 is connected with test section under water through cable 11; Wherein, the test section comprises annular base 1, test set 2 and locating piece 13 under water, overlaps test set 2 more and is evenly distributed on the annular base 1; Test set 2 comprises 3,2 seal boxs of detecting unit and 2 master bars 15 of a pair of antiparallel placement, and the quantity of detecting unit 3 is identical with the limit number of fuel assembly 10, and in the present embodiment, detecting unit 3 is 3 pairs.Detecting unit 3 comprises signal transmitting terminal 4, signal receiving end 5, and wherein, signal transmitting terminal 4 comprises: laser generation part 6, diversing lens 7; Signal receiving end 5 comprises: plus lens 8 and photoelectricity receiving-member 9.Diversing lens 7 and plus lens 8 central axis are point-blank; Laser generation part 6 sends the position of laser on the focus of diversing lens 7 away from plus lens 8 one sides, and the receiving unit of photoelectricity receiving-member 9 is positioned on the focus of plus lens 8 away from diversing lens 7 one sides; The signal transmitting terminal and the signal receiving end that are positioned at test set 2 the same sides are installed in waterproof of being processed by stainless steel and the seal box of being with shielding; Through optimal design to laser optical path; Reduce the radioactive dose of the electron device of casing as far as possible, alleviate the weight of casing simultaneously; 2 master bars 15 are fixed on the annular base 1, lay respectively on the line of diversing lens in 2 detecting units 37 and plus lens 8 normal direction outer ledges.Totally 2 of locating pieces 13; It is installed in above-mentioned annular base 1 below; Its position distribution will guarantee that after two locating pieces 13 got into screen work, the center of the circular hole in the middle of the annular base 1 overlapped with the center of following screen work, so that seized fuel assembly 10 insertions and proposition; Behind the refueling machine 14 clamping fuel assemblies 10, earlier fuel assembly 10 is inserted the screen work that annular base 1 center hole faces toward, promote fuel assembly 10 again, six faces of 2 pairs of fuel assemblies 10 of test set scan simultaneously, accomplish all and detect.Because ordinary optical glass receives behind the irradiation variable color, causes laser not transmit, and adopts the optical glass development diversing lens 7, plus lens 8 and the barrier bed thereof that add zinc telluridse, can bear the irradiation of higher dosage for this reason.

Switch board 12 comprises controller and monitor; Controller accepts to accept from photoelectricity the detection signal of parts 9; The width c of the testee that obtains according to detection in conjunction with the design width of known fuel assembly 10, calculates flexibility, the torsion resistance of fuel assembly 10 and stores; Monitor is accepted the information from 3 positioning shooting heads, shows the image that camera is taken in real time, makes things convenient for the pond installing and locating.

In the positioning shooting head is installed in annular base 1 time, locating piece 13, carry infrared ray, can not have normal photographing under the situation of light source.

When fuel assembly 10 detects; One group of across flats of fuel assembly 10 is detected by a test set 2; Distance L between the master bar 15 is a fixed value, one side the scanning of 3 pairs of fuel assemblies 10 of a detecting unit of test set 2, measure this limit and homonymy master bar 15 apart from a; Simultaneously, 3 pairs of fuel assemblies of another detecting unit, 10 another limits are scanned, and measure the distance b of this back gauge homonymy master bar 15, and then the width of 10 1 opposite side of fuel assembly is: c=L-a-b.

The detection signal that cable 11 is gathered the photoelectricity receiving-member in the seal box 9, handle sends to the controller in the switch board 12 with digital signal; Realize the long-distance transmissions of signal; Promptly overcome the problem of simulating signal long-distance transmissions decay, also overcome and detected on-the-spot various interference.

A kind of method of application of pick-up unit of deformation of fuel assembly after irradiation of pressurized-water reactor nuclear power plant size; The test set that adopts two detecting units to form is measured width and the diameter of fuel rod and the gap between the fuel rod of an opposite side of fuel assembly; The based on fuel assembly profile arrange many group test set, the width of each opposite side of fuel assembly is measured simultaneously.The step of said method of application is following:

(1) erecting device

(a) install

The pick-up unit of deformation of fuel assembly after irradiation of pressurized-water reactor nuclear power plant size is installed; Photoelectricity in the test set 2 in the detection part is under water accepted parts 9 be connected with controller in the switch board 12, positioning shooting head and the monitor in the switch board are crossed cable 11 be connected through cable 11;

Suspender is installed, is adopted prior art utilization ring to hang test section under water is placed on the fuel storage screen work in the fuel pit, note observing the positioning shooting machine in the hoisting process, utilize auxiliary stay cord to be put into the fuel screen work position of regulation in the test section under water;

(b) start preheating

Open all power supplys, whether check system is normal, preheating 15 minutes.

(2) get material

Utilize refueling machine 14 that the fuel assembly 10 of appointment is hung the position directly over the annular base 1; Under the monitoring of refueling machine 14 and positioning shooting machine; The center of annular base 1 is overlapped, with the screen work in the middle of the fuel assembly 10 insertion annular bases 1 with its corresponding screen work center; After assembly is put into the end, utilizes refueling machine 14 that fuel assembly 10 is slowly risen to and detect the position.

(3) detect

Refueling machine 14 slowly promotes fuel assembly 10 with certain speed, and test set 2 is accomplished the detection to fuel assembly 10 each opposite side data, and through photoelectricity receiving-member 9 will gather, information processed sends to the controller in the switch board 12 through cable 11; Controller in the switch board 12 is accomplished the flexibility of fuel assembly 10, the calculating and the storage of torsion resistance;

After detect accomplishing, utilize the former stored position of fuel assembly 10 handlings that refueling machine 14 will detect.

Claims (5)

1. deformation of fuel assembly after irradiation of pressurized-water reactor nuclear power plant size detecting device; Comprise test section, switch board (12), positioning shooting head and cable (11) under water; Switch board (12) comprises controller and monitor, and controller is connected with test section under water through cable (11); The positioning shooting head is connected with monitor through cable (11); It is characterized in that: the test section comprises annular base (1) and test set (2) under water; Test set (2) has many groups, is evenly distributed on the annular base platform; Test set (2) comprises the detecting unit (3) of a pair of antiparallel placement, 2 seal boxs and 2 master bars (15); The quantity of detecting unit (3) is identical with the limit number of fuel assembly; Said detecting unit (3) comprises signal transmitting terminal (4), signal receiving end (5); Signal transmitting terminal (4) comprising: laser generation part (6), diversing lens (7), and signal receiving end (5) comprising: plus lens (8) and photoelectricity receiving-member (9); The central axis of diversing lens (7) and plus lens (8) point-blank; Laser generation part (6) sends the position of laser on the focus of diversing lens (7), and the receiving unit of photoelectricity receiving-member (9) is positioned on the focus of plus lens (8); The signal transmitting terminal (4) and the signal receiving end (5) that are positioned at test set (2) the same side are installed in seal box; 2 master bars (15) are fixed on the annular base (1), lay respectively on the line of middle diversing lens (7) of 2 detecting units (3) and plus lens (8) normal direction outer ledge; Two locating pieces (13) have been installed below the described annular base (1); The positioning shooting head is installed in the locating piece (13).

2. a kind of deformation of fuel assembly after irradiation of pressurized-water reactor nuclear power plant size detecting device according to claim 1, it is characterized in that: described seal box is processed by stainless steel, has shielding.

3. a kind of deformation of fuel assembly after irradiation of pressurized-water reactor nuclear power plant size detecting device according to claim 1 and 2 is characterized in that: said diversing lens (7) and plus lens (8) and barrier bed thereof adopt the optical glass that adds zinc telluridse to process.

4. a kind of deformation of fuel assembly after irradiation of pressurized-water reactor nuclear power plant size detecting device according to claim 1 is characterized in that: described detecting unit (3) quantity is 6.

5. the method for application of the pick-up unit of a deformation of fuel assembly after irradiation of pressurized-water reactor nuclear power plant size mainly comprises the steps:

(1) erecting device

(a) install

The pick-up unit of deformation of fuel assembly after irradiation of pressurized-water reactor nuclear power plant size is installed; Suspender is installed, test section under water is placed on the fuel storage screen work in the fuel pit, test section under water is put into the fuel screen work position of regulation;

(b) start preheating

Opening power, whether check system is normal, preheating 15 minutes;

(2) get material

Fuel assembly (10) is inserted the middle screen work of annular base (1); After assembly is put into the end, fuel assembly (10) is slowly risen to the detection position;

(3) detect

Slowly promote fuel assembly (10), test set (2) is accomplished the inspection to each opposite side data of fuel assembly (10), accomplishes the flexibility of fuel assembly (10), the calculating and the storage of torsion resistance;

After detecting completion, former stored position is arrived in the fuel assembly that has detected (10) handling.

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