KR200429914Y1 - heat exchanger clening apparatus - Google Patents

Abstract

The present invention relates to an ultrasonic cleaning apparatus for a steam generator to effectively remove sludge deposited inside the steam generator using an ultrasonic transducer.

The constituent means of the ultrasonic generator of the steam generator according to the present invention, in the ultrasonic generator of the steam generator, a circular metal rod, one end of which is welded and fixed perpendicularly to the outer wall of the tube plate, and the other end of the circular metal rod is fixedly connected to the ultrasonic wave It characterized in that it comprises an ultrasonic transducer for generating and transmitting, and a power supply for supplying power to the ultrasonic transducer.

Steam Generator, Ultrasonic, Cleaning

Description

Ultrasonic cleaning apparatus of steam generator {heat exchanger clening apparatus}

1 is a schematic diagram of an ultrasonic cleaning apparatus and a steam generator of a steam generator according to an embodiment of the present invention.

2 is an enlarged view of a portion “A” of FIG. 1.

3 is an enlarged view of a portion “B” of FIG. 2.

Explanation of symbols on the main parts of the drawings

1: Steam generator 2: Tube

3: ultrasonic transducer 4: round metal rod

5: one end of a round metal rod 6: the other end of a round metal rod

7: female thread shape 8: outer tube wall

9 welding part 10 signal transmission part

11: Female thread 12: Male thread

13: heat pipe 14: hot water

16: sludge 17: ultrasonic signal

18: tube support plate 19: gap

20: inside the heat pipe 30: power supply

The present invention relates to an ultrasonic cleaning apparatus for a steam generator to effectively remove sludge deposited inside the steam generator using an ultrasonic transducer.

A structure of a general steam generator will be described with reference to FIG. 1.

The heat transfer tube 13 is densely arranged inside the steam generator 1, and the hot water 14 discharged from the reactor flows inside the heat generator tube, and low-temperature water (not shown) flows to the outside. The heat exchange takes place and the uncontaminated low temperature water 15 is converted into steam of high temperature and high pressure, which is generated by rotating turbines and generators by the force of the steam.

However, the sludge 16 accumulates in the steam generator 1 according to the number of years of operation, thereby lowering the heat transfer efficiency of the steam generator 1 heat transfer pipe 13 and causing damage to the heat transfer pipe 13. A phenomenon that shortens the life occurs.

If the components of the sludge 16 are mainly iron oxide or copper oxide, the components of the sludge are solidified and fixed between the heat transfer tubes 13, and if they are fixed between the two heat transfer tubes, stresses are generated in the heat shrinkage and expansion processes, causing damage. The sludge 16 flows inside the steam generator at a high speed, and also wears the heat pipe.

Existing methods for removing the sludge 16 deposited in the steam generator 1 include a mechanical cleaning method for removing sludge by spraying a high speed through a nozzle by pressing clean water, and a metal component constituting the sludge. Two types of chemical cleaning methods are used, in which a chemical substance capable of selectively dissolving is injected into a steam generator to dissolve and remove solidified sludge.

In the case of the mechanical cleaning method, sludge can be removed relatively easily, but if it solidifies due to the high temperature and high pressure environment when the steam generator (1) is operated, it is not easy to remove, and it precipitates on the back side of the heat pipe that cannot directly inject high pressure water. There is a problem such that the sludge can not be removed.

On the other hand, in the chemical cleaning method, sludge removal efficiency is excellent because the sludge inside the steam generator is dissolved by chemicals, but the highly toxic chemicals are used to melt metal oxides such as iron oxide and copper oxide, thus generating a large amount of secondary waste. Let's do it.

Complementing the advantages and disadvantages of these two methods, there is a method of using the ultrasonic transducer to finely decompose and remove the solid component of the sludge. When the ultrasonic transducer (3) is mounted inside or outside the steam generator (1), the inside of the steam generator is filled with water and the ultrasonic transducer is operated to generate ultrasonic waves. Cavitation is generated by the resonance phenomenon of ultrasonic waves in the water, and this cavitation is sludge. Decomposes and removes the sludge to the outside of the steam generator.

However, the method of installing the ultrasonic transducer 3 inside the steam generator 1 has two major problems. First, cavitation occurs only around the ultrasonic transducer and does not penetrate deep into the bundle of heat pipes.

Ultrasonic waves are relatively well transmitted in water, but are disturbed by the gaseous components dissolved in the water. Especially when the heat pipes are densely arranged, the ultrasonic waves are blocked by the air inside the heat pipes. Occurs.

Therefore, the ultrasonic transducer 3 shows a relatively easy cleaning effect, but it is difficult to effectively clean the inside of a large device such as a steam generator. Second, the inside of the steam generator is relatively narrow, relatively strong radiation is emitted, the heat pipe is about 1mm thick and very weak to impact.

Ultrasonic transducers with relatively large outputs are not easy to enter into the steam generator due to their large size, and there is always a risk of damaging the heat transfer tubes during the movement of the ultrasonic transducers.

In the prior art, US Pat. No. 6,290,778 B1 describes a method of cleaning a scale or sludge by inserting an ultrasonic transducer into a heat exchanger to generate cavitation while moving to various places. The most similar prior art is another US patent 6,572,709 B1.

This patent utilizes a device that puts an ultrasonic transducer inside a steam generator used in a nuclear power plant and transfers it vertically to move the ultrasonic transducer to the top of the steam generator while generating cavitation inside the steam generator to disassemble and remove sludge. The method is described.

In the case of these two US patents, an ultrasonic transducer is introduced into the steam generator, and the transducer is transferred to generate a cavitation inside the steam generator.

The present invention is designed to solve the problems of the prior art as described above, the ultrasonic transducer is attached to the outer tube plate portion of the steam generator, the ultrasonic wave transmitted through the tube plate generates cavitation on the tube plate surface, tube support plate surface, heat transfer tube surface It is an object of the present invention to provide an ultrasonic cleaning apparatus for a steam generator that can remove sludge, scale, coating, etc. deposited on the surface of a tube plate, tube support plate, heat transfer tube, etc. by this cavitation.

The construction means constituting the ultrasonic cleaning device of the steam generator of the present invention proposed to solve the technical problem as described above, In the ultrasonic cleaning device of the steam generator, one end is welded and fixed perpendicularly to the outer wall of the tube plate, and And an ultrasonic transducer fixedly connected to the other end of the circular metal rod to generate and transmit ultrasonic waves, and a power supply unit for supplying power to the ultrasonic transducer.

In addition, the ultrasonic transducer is fixedly connected to the tartan of the circular metal rod to transmit an ultrasonic signal, characterized in that it comprises a signal transmission unit having a cylindrical shape.

In addition, the other end of the circular metal rod is formed with a female screw shape, the female screw shape is also formed in the signal transmission portion fixedly connected to the other end of the circular metal rod, the other end of the signal transmission portion and the circular metal rod is fixedly connected through a male screw It is characterized by.

In addition, one end of the circular metal rod is characterized in that it has a conical shape.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the ultrasonic cleaning apparatus of the steam generator of the present invention consisting of the above configuration means.

1 is a schematic view of an ultrasonic cleaning apparatus of a steam generator and a steam generator according to an embodiment of the present invention, Figure 2 is an enlarged view of the "A" part of Figure 1, Figure 3 is an enlarged view of the "B" part of Figure It is also. A description with reference to FIGS. 1 to 3 is as follows.

The constituent means of the ultrasonic generator of the steam generator according to the present invention includes a circular metal rod 4 having one end 5 welded and fixed perpendicularly to the tube plate outer wall 8, and the other end 6 of the circular metal rod 4. And an ultrasonic transducer 3 fixedly connected to generate and transmit ultrasonic waves, and a power supply unit 20 for supplying power to the ultrasonic transducer 3.

The ultrasonic transducer 3 is fixedly connected to the tartan 6 of the circular metal rod 4 to transmit an ultrasonic signal, and has a signal transmission unit 10 having a cylindrical shape. The female screw shape 7 is formed at the other end 6 of the circular metal rod 4, and the female screw shape is also formed at the signal transmission part 10 fixedly connected to the other end 6 of the circular metal bar 4. 11) is formed, and the signal transmission unit 10 and the other end 6 of the circular metal rod 4 is fixedly connected through the male screw (12). On the other hand, one end 5 of the circular metal rod 4 preferably has a conical shape.

In the present invention, the ultrasonic transducer 3 is attached to the outer wall 8 of the steam generator 1. The components to be attached to the steam generator tube plate to attach the ultrasonic transducer (3) is in the shape of a circular metal rod (4), one end (5) is conical shape and the other end (6) is a female screw (7).

A cone-shaped portion formed at one end 5 of the circular metal rod 4 is welded perpendicularly to the tube plate outer wall 8 of the steam generator tube plate 2 to form a weld 9. The signal transmitting part 10 of the ultrasonic transducer processes the same female thread 11 as the female thread in the circular metal rod 4 shaped part and uses the male thread 12 to weld the circular metal rod 4 to the steam generator 1. ) And the ultrasonic transducer (3).

The part where the female screw 11 of the ultrasonic transducer 3 and the part of the circular metal rod 4 is joined is precisely processed to minimize the ultrasonic signal transmission loss at the interface because the ultrasonic energy is transmitted.

The ultrasonic signal 17 transmitted by the ultrasonic transducer 3 is transmitted to the heat transfer tube 13 along the tube plate 2. The ultrasonic signal 17 thus transmitted is transmitted to the plurality of tube support plates 18 along the heat transfer tube, and finally to the water filled in the steam generator 1, and the water receives the vibration energy of the ultrasonic wave to perform cavitation. The sludge deposited on the upper surface of the tube plate 2 and the heat transfer tube 13, the upper surface of the tube support plate 18, the gap 19 between the tube support plate 18 and the heat transfer tube 13 by this cavitation is fine. It breaks down and mixes with water.

The fine particles are mixed with water and sent to a water treatment system using a separate suction pump to filter out only solid materials and recycle clean water.

In addition, the ultrasonic signal 17 transmitted by the ultrasonic transducer 3 is transmitted to the heat transfer tube 13 to the water surrounding the heat transfer tube 13 to generate cavitation to deposit sludge, scale, film, etc. on the outer surface of the heat transfer tube Not only can be removed, but also delivered to the water inside the heat pipe 20 causes cavitation to remove the sludge or solidified scale, film, etc. deposited on the heat pipe inside (20).

Some sludge, scale, film or the like present in the steam generator 1 may not be easily decomposed in a short time despite the action of cavitation by the ultrasonic signal 17.

In this case, the cavitation using the ultrasonic transducer (3) described above is performed in the state of injecting a chemical cleaning solution capable of selectively dissolving sludge, scale, and film instead of water into the steam generator (1) and the inside of the heat pipe (20). Can be generated to increase the efficiency of removing sludge, scale, coating and the like.

As another application of this method, the sludge, scale, and sludge present inside the steam generator (1) instead of the conventional water used in the conventional mechanical steam generator sludge cleaning equipment for removing the sludge, scale, film, etc. for spraying high pressure water. In the state of spraying a chemical cleaning solution capable of selectively dissolving the coating, etc., the cavitation is generated by using the ultrasonic transducer (3) to simultaneously utilize the sludge removal effect due to the high-pressure water injection and the cavitation effect by the ultrasonic transducer (3). will be.

According to the ultrasonic cleaning device of the steam generator according to the present invention having the configuration and the preferred embodiment as described above, the problem that the cavitation must be generated while moving to several places by entering the steam generator, which is a disadvantage of the conventional steam generator ultrasonic cleaning equipment, In case of equipment failure, the problems caused by not easy repair, the difficulty of removing the equipment in a harsh environment such as the emission of strong radiation, and the narrow space inside the steam generator prevented the installation of the ultrasonic transducer where necessary.

In addition, the ultrasonic wave transmitted to the inside through the steam generator tube plate portion generates cavitation on the upper part of the tube plate, the upper part of the tube support plate, and the surface of the heat transfer tube where a lot of sludge is deposited, so that the sludge can be finely disassembled and removed. There is an advantage to enable efficient steam generator cleaning.

Claims (4)

In the ultrasonic cleaning device of the steam generator, A circular metal rod whose one end is welded and fixed perpendicularly to the outer wall of the tube sheet, An ultrasonic transducer fixedly connected to the other end of the circular metal rod to generate and transmit ultrasonic waves; Ultrasonic cleaning device of the steam generator comprising a power supply for supplying power to the ultrasonic transducer. The method according to claim 1, The ultrasonic transducer is fixedly connected to the tartan of the circular metal rod to deliver an ultrasonic signal, characterized in that the ultrasonic generator of the steam generator comprising a signal transmission having a cylindrical shape. The method according to claim 2, The other end of the circular metal rod is formed with a female screw shape, the signal transmission portion is fixed to the other end of the circular metal rod is formed in the female screw shape, the other end of the signal transmission portion and the circular metal rod is fixedly connected through a male screw Ultrasonic cleaning device of the steam generator characterized in. The method according to claim 3, Ultrasonic cleaning device of the steam generator, characterized in that one end of the circular metal rod has a conical shape.

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