RU2814650C1 - Device for control of removed alpha contamination of fuel electronics - Google Patents

Abstract

FIELD: nuclear safety.

SUBSTANCE: invention relates to means of monitoring the removed alpha contamination of fuel elements and can be used at nuclear energy facilities. A device for automating control of removed alpha contamination of a fuel rod contains a device with a wiping tape, a mechanism for crimping the tape to the surface of the fuel rod, a spring block, a force sensor and a normalizing transducer, and a linear motion drive. Additionally, a device for setting the compression force, a subtracting device and a proportional-integrating controller were introduced. The output of the device for setting the compression force is connected to the first non-inverting input of the subtracting device, to the second subtracting input of which the output of the normalizing converter of the force sensor is connected. The output of the subtracting device is connected to the input of the proportional-integrating controller, the output of which is connected to the input of the linear motion drive motor.

EFFECT: ability to create a device for automating the control of removed alpha contamination of a fuel rod, the use of which will simplify the process of determining alpha contamination while ensuring the required degree of accuracy.

1 cl, 2 dwg

Description

The invention relates to nuclear energy, namely to the control of removed alpha contamination of fuel rods and can be used in the production of fuel rods for nuclear reactors.

There is a known method for determining surface contamination and a device for sampling from a contaminated surface. The method for determining the contamination of the surface under study is based on the creation of an air injection-suction path. In this case, air is pumped into a closed volume at an angle to the surface under study, blown off from the surface under study and contaminants are deposited by passing the air flow through a filter. Then the quantity and activity of radionuclides deposited on the filter are analyzed and recalculated per unit area of the surface under study. To implement this method, a device for sampling from a contaminated surface is proposed, consisting of a housing, inside of which a filter element with inlet and outlet pipes and a suction pump are installed. The lower part of the body is open. In addition, the supply pipes are connected to holes made in the lower part of the housing and located at an angle to the surface under study. The method and device are intended for monitoring the environment, including monitoring the contamination of various hard surfaces (RF patent for invention No. 2408003, G01N 15/00, published December 27, 2010).

The specified method and device solve the problem of monitoring radioactive contamination of the environment and are not intended to determine the alpha contamination of long and thin fuel rods in production.

There is a known method for automatically monitoring the removed alpha contamination of fuel rods, in which the controlled fuel rod is fed step by step to the position of contacting its surface with a material made in the form of a fabric tape, and the tape is also directed step by step transversely to the fuel rod, while the surface of the latter is mechanically tightly pressed with the tape from below with with a normalized force not exceeding the tensile strength of the fabric tape and the fuel rod, but sufficient for the sorption of alpha particles into it, then the fuel rod is pulled through the tape until a dry smear (stain) is obtained, the pressing mechanical force is removed and the tape with the resulting stain is moved one step below the one installed above it has an α-detector that registers the presence of contamination, and the visibility capability of the detector must exceed the size of the contact spot, after which the level of contamination of the fuel element is determined in the prescribed manner using known measuring equipment (RF patent for invention No. 2615036С1, Application No. 2016104856 dated 02.12.2016, MTIK : G01T 1/16).

The main disadvantages of this method are the insufficiently high accuracy of monitoring the removed alpha contamination of fuel elements, due to the lack of initial data on the possible preliminary alpha contamination of the used tape, as well as the impossibility of assessing the physical contamination of the wall of the fuel assembly. Thus, the lack of mechanization of auto-calibration of the detector and the need to create a special workplace for handling cassettes (storage, decontamination, reloading of used and fresh tape rolls) significantly complicate the operation of the device.

There is a known method for automatically monitoring the removed alpha contamination of fuel rods and a device for its implementation, according to which the fuel rod is supplied using a vehicle to the smear removal unit to the position of contact of its surface with a fabric tape directed to the fuel rod transversely to its axis, then a dense compression of the surface of the fuel element with a tape, then the fuel element is pulled through the smear removal unit, its compression is removed, after which the tape with the resulting active contact patch on the smear is moved along the guide rollers at a given step to the detection unit, where the α-activity of the contact spot on the smear is recorded with a radiometer, Then, by calculation, the level of removed α-contamination of the fuel rod surface is determined and a signal is generated about the quality of the fuel rod, in addition, the amount of spent tape is controlled and, as necessary, the tape rolls on the supply and receiving reels are replaced, and before the procedure of routine monitoring of the removed α-contamination of the fuel rod surface calibrate the sensitivity of the radiometer β according to the standard measure of α-activity built into the detector assembly, set the specified friction force _Fk in the fuel element compression unit and the sensitivity indicator of the smear removal coefficient to variations in the friction force λ, set the time for measuring the count rate n _count based on the specified statistical accuracy measuring the counting rate and the area of the active contact spot on the smear, calibrating the smear removal coefficient K _k using test samples with a known value of removed α-contamination of the fuel rod surface (calibers); during routine control, the fuel rod is pulled through the compression zone, while controlling the sliding friction force of the fuel rod along compressed tape F, after removing the compression, moving the tape with the smear one step l _w under the radiometer and measuring the counting rate n _count from the α-activity of the contact spot on the smear, calculate the flux density of α-particles q, averaged over the wiped surface of the fuel element, using the formula q =n _сч /(β*K), where K=K _к *[l+λ*(F*F ^l _к -1)] (RF patent for invention No. 2687081, Application: 2018121235 dated 06/07/2018, IPC: G21C 17/06 (2006.01), G21C 17/06 (2018.08), G21C 21/00 (2018.08) - prototype).

The disadvantages of this method are that for control it is necessary to first set the specified friction force _Fk in the fuel rod compression unit and the sensitivity indicator of the smear removal coefficient to the variation of the friction force λ, set the time for measuring the counting rate n _sch based on the specified statistical accuracy of measuring the counting rate and area active contact spot on the smear, calibrate the smear removal coefficient K _k using test samples with a known value of removed alpha contamination of the fuel element surface (calibers), which leads to a significant complication of the process, its increase in cost and reduction in measurement accuracy. Another disadvantage is the difficulty of ensuring the same smear removal coefficient in the presence of a conical part of the fuel rod, as, for example, in the BREST-OD-300 TVS RU fuel rods.

The objective of the proposed invention is to eliminate these disadvantages and create a device for automating the control of removed alpha contamination of a fuel rod, the use of which will significantly simplify the process of determining alpha contamination while ensuring the required degree of accuracy.

The solution to this problem is achieved by the fact that in the proposed device for automating control of the removed alpha contamination of a fuel rod, containing a device with a wiping tape, a mechanism for crimping the tape to the surface of the fuel rod, a spring block, a force sensor and a normalizing converter, a linear motion drive, according to the invention, an additional device is introduced setting the crimping force, a subtracting device and a proportional-integrating controller, wherein the output of the device for setting the crimping force is connected to the first non-inverting input of the subtracting device, the output of the normalizing converter of the force sensor is connected to the second subtracting input of which, the output of the subtracting device is connected to the input of the proportional-integrating controller, the output of which is connected to the input of the linear motion drive motor.

The essence of the proposed technical solution is illustrated by drawings, where figure 1 shows a controlled fuel rod, figure 2 shows a schematic diagram of the proposed device.

Figure 1 indicates:

D ₁ - minimum fuel rod diameter;

D ₂ - maximum fuel rod diameter;

L ₁ is the length of the conical part of the fuel rod.

In Fig.1 and Fig.2 it is indicated:

1 - controlled fuel rod;

2 - cotton wiping tape;

3 - reels with cleaning tape;

4 - fuel rod compression mechanism;

5 - spring block;

6 - force sensor;

7 - normalizing converter;

8 - linear motion drive;

9 - drive motor;

10 - device for setting the compression force;

11 - subtracting device;

12 - proportional-integral controller (PI controller).

A device for automating the control of removed alpha contamination of a monitored fuel rod 1 contains a cotton wiping tape 2 wound on reels 3, a fuel rod compression mechanism 4 with a spring block 5, a force sensor 6 with a normalizing converter 7, a linear motion drive 8 with a drive motor 9. B The device additionally includes a device for setting the compression force 10, a subtracting device 11 and a proportional-integral controller (PI controller). 12.

The output of the device for setting the compression force 10 is connected to the first non-inverting input of the subtracting device 11. The output of the normalizing converter 7 of the force sensor 6 is connected to the second inverting input of the subtracting device 11. The output of the subtracting device is connected to the input of the PI controller 12, the output of which is connected to the input of the drive motor 9 .

The proposed device for automating the control of removed alpha contamination of a fuel rod works as follows.

The controlled fuel rod 1 is moved to the initial position for removing the smear. At the output of the device for setting the crimping force 10, the signal value corresponding to a certain removal coefficient is set, the crimping mechanism begins crimping the fuel element with tape to the signal value at the output of the normalizing converter of the force sensor, which differs by the amount of the “error” of the closed-loop control system I _z = I _np + Δ. The installation's transport system begins moving the fuel element through the smear removal device. Due to the conical shape of the part of the fuel rod, through the influence of the lateral component of the drawing force, the signal at the output of the normalizing converter of the force sensor increases and the value of I _np becomes greater than the value _I , the error signal at the output of the subtracting device acquires a negative value, which leads to a change in the polarity of the signal by output of the PI controller and reverse operation of the mechanism drive to a greater opening of the jaws of the crimping device until the equality I _s = I _np +Δ is restored, where |Δ|≤Δ _add .

This process will be carried out continuously during the smear removal process with a dynamic error due to the PI controller adjustment coefficients.

The use of the proposed technical solution will make it possible to create a device for automating the control of removed alpha contamination of a fuel rod, the use of which will make it possible to significantly simplify the process of determining alpha contamination while ensuring the required degree of accuracy.

Claims (1)

A device for automating control of the removed alpha contamination of a fuel element, containing a device with a wiping tape, a mechanism for crimping the tape to the surface of the fuel element, a spring block, a force sensor and a normalizing converter, a linear motion drive, characterized in that it additionally includes a device for setting the crimping force, subtracting device and a proportional-integrating controller, while the output of the device for setting the compression force is connected to the first non-inverting input of the subtracting device, the output of the normalizing converter of the force sensor is connected to the second subtracting input of which, the output of the subtracting device is connected to the input of the proportional-integrating controller, the output of which is connected to the input linear drive motor.

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