KR20120001413A - A flow mixing device to mitigate thermal stratification in pipe - Google Patents

Abstract

PURPOSE: An internal flow mixing device of a piping member is provided to minimize the generation of a thermal layer by installing a mixing device capable of mixing a heat within a pipe. CONSTITUTION: An internal flow mixing device(100) of a piping member is installed between pipes in order to alleviate a thermal layer which is generated within a pipe by the density difference of low temperature liquid and high temperature liquid. A plurality of guiding holes(110) induces the low temperature liquid having high density which is flown in the bottom side within the pipe to the upper side of the pipe. Left and right sides of the guiding hole are formed to be penetrated. The low temperature liquid and the high temperature liquid are mixed for reducing temperature difference through the guiding hole. The guiding hole is diagonally formed into a ventury shape in order to multiply the speed of fluid.

Description

A flow mixing device to mitigate thermal stratification in pipe}

The present invention relates to an internal flow mixing device of the piping member, and more particularly, the thermal layer by relieving the thermal layer generated by the flow of low-temperature and high-temperature liquid flowing between the heating member is generated through the thermal mixing layer The present invention relates to an internal flow mixing device of a piping member in which a thermally stratified layer is formed so as to reduce thermal stress and bending of a pipe and a pipe support generated due to the phenomenon.

In general, in order to prevent the reactor coolant from flowing into the pressurizer at the beginning of the heating operation for starting a nuclear power plant, the preheater is operated inside the pressurizer to maintain a higher pressure than the reactor coolant system by increasing the coolant temperature and pressure in the pressurizer. Done.

Accordingly, the high temperature coolant inside the pressurizer having increased temperature and pressure flows into the reactor coolant system through the pressurizer jungle tube, and the coolant level of the pressurizer starts to fall. At this time, the high temperature coolant conveyed to the pipe portion of the pressurizer jungle pipe forms a thermal layer without being mixed with each other due to the density difference due to the temperature difference with the low temperature coolant stagnated in the pipe.

Specifically, the thermal stratification is generated in the nuclear power plant piping as the hot and cold liquids flow together in the main water supply pipe connected to the pressurizer slide plate and the steam generator and the reactor coolant system in the transient operation state. In particular, it occurs when hot fluid and cold fluid are not layered and mixed in the main water supply pipeline and the reactor coolant system during transient conditions such as heating for commissioning or operation at high temperature of the nuclear power plant.

As described above, the thermal stratification phenomenon generated in the nuclear power plant piping may cause thermal stress that was not considered in the piping design, thereby causing the pipe welding part to crack or bend due to the fatigue phenomenon, which may damage the piping support. The thermal stress is generated in the portion occupying the low temperature fluid in the pipe, thereby providing a cause of cracking in the pipe, the main cause of unnecessary displacement of the pipe and overloading the pipe. .

The present invention has been made to solve the conventional problems as described above, an object of the present invention by installing a mixing device that can mix the heat in the pipe between the heat generating layer is minimized by minimizing the generation of heat layer It is an object of the present invention to provide an internal flow mixing device for piping members in which a thermally stratified layer is generated so as to minimize the occurrence of bending stress in the piping.

The objects and advantages of the present invention will be described in more detail below, and will be further embodied by the examples. Further objects and advantages of the invention can be achieved by the means and combinations thereof shown in the claims.

In order to achieve the above object, the present invention is installed between the pipes so as to alleviate the thermal layer generated in the pipe due to the density difference of the fluid as the low-temperature fluid and the high-temperature fluid flows together, the upper side in the pipe It is provided with a plurality of guide holes to be inclined up and down to guide the low-density high-temperature fluid flowing to the lower side of the pipe, and to guide the high-density low-temperature fluid flowing from the lower side in the pipe to the upper side of the pipe, It provides an internal flow mixing apparatus of a piping member generating a thermal layer by allowing a low temperature fluid and a high temperature fluid to be mixed with each other in the pipe as it passes through the guide hole. .

In addition, in the present invention, the guide hole is formed to be inclined in the form of a venturi is characterized in that the speed is increased when the fluid passes through the guide hole.

In addition, in the present invention, the internal flow mixing device is characterized in that the pipe and the screw thread having a shape corresponding to each other is screwed together.

In addition, in the present invention, the internal flow mixing device is characterized in that the flange and the pipe coupling.

In addition, in the present invention, the mixing device is characterized in that the welded and the pipe.

Therefore, the internal flow mixing device of the piping member generating the thermal layer according to the present invention is a low-temperature fluid and high temperature so that the low temperature fluid and the high temperature fluid in the piping system, such as power plants can be suppressed that the thermal layer phenomenon occurs due to the difference in density By allowing the fluid to be mixed, the temperature difference of the inner wall of the pipe is reduced, thereby reducing the bending displacement due to the thermal stress of the pipe.

1 is a configuration diagram schematically showing a state in which an internal flow mixing device according to the present invention is installed in a piping of a power plant.
FIG. 2 is an enlarged view of main parts of the internal flow mixing device shown in FIG. 1.
3 is a side view of FIG. 2.
4 is a state diagram schematically showing a state in which a fluid flows.
5 to 7 is an exemplary view schematically showing the coupling of the internal flow mixing device and the pipe according to the present invention.
FIG. 8 is a side view schematically illustrating a guide hole formed in an internal flow mixing device according to the present invention having a venturi shape.

Hereinafter, the configuration and effect of the internal flow mixing apparatus of the piping member in which the thermally stratified layer is generated will be described in detail with reference to the preferred embodiments and the accompanying drawings.

1 is a schematic view showing a state in which an internal flow mixing device according to the present invention is installed in a piping of a power plant, FIG. 2 is an enlarged view of main parts of the internal flow mixing device shown in FIG. 1, and FIG. 3 is a side view thereof. 4 is a state diagram schematically showing a state in which a fluid flows, and FIGS. 5 to 7 are diagrams schematically showing a state in which a pipe is coupled with an internal flow mixing device according to the present invention. 4 is a side view schematically illustrating a guide hole formed in the internal flow mixing device according to the present invention in the form of Venturi.

In the internal flow mixing apparatus 100 of the piping member in which the thermal layer is generated according to the present invention, even if the same fluid has a relatively high temperature, the density decreases. On the contrary, when the temperature decreases, the density increases. ) It is characterized in that the low-temperature fluid and the high-temperature fluid inside. That is, when the pressurizer 10 of the power plant and the pipe 20 are connected, the thermal layer is prevented from occurring by inducing a mixture of the low temperature fluid and the high temperature fluid to intersect with a large temperature difference.

As shown in FIG. 1, the internal flow mixing device 100 of the piping member in which the thermal layer is generated in accordance with the present invention is installed on the pipe 20 connected to the pressurizer 10 to be a high temperature fluid and a low temperature fluid. The fluid serves to allow the fluids to mix with each other when moving.

As shown in FIGS. 2 and 3, the inner flow mixing device 100 of the piping member in which the thermally stratified layer is generated has a plurality of guide holes 110 formed therein. That is, since the plurality of guide holes 110 are formed to penetrate both left and right sides and are inclined upward or downward at various angles from the left to the right in the drawing, the fluid passing through the inner flow mixing device 100 is It spreads toward the top and bottom of the pipe.

For example, as shown in Figure 4, the hot fluid introduced in the direction of the arrow ① is passed through the inner flow mixing device 100 in accordance with the present invention through the guide hole 110 and the top and bottom of the pipe 20 It will be divided into sides. And, the low temperature fluid introduced in the direction of arrow ② is also divided into the upper and lower sides of the pipe 20 through the guide hole 110 while passing through the internal flow mixing device 100 according to the present invention ① The high temperature fluid introduced in the direction of the arrow and the low temperature fluid introduced in the direction of arrow 2 are to be mixed in the pipe 20.

In addition, the high temperature fluid in the direction of arrow 1 and the low temperature fluid in the direction of arrow 2 are mixed to have an average density and an average temperature, thereby preventing the thermal layer from being generated.

That is, when the low-temperature fluid and the high-temperature fluid flow inside the pipe 20 together, the relatively low-density high-temperature fluid is positioned above the pipe 20, and the high-density low-temperature fluid is the pipe ( 20) is located at the bottom, in this case, by mixing the low-temperature fluid and the high-temperature fluid through the internal flow mixing device 100 in which the guide hole 110 according to the present invention is the upper and lower temperature difference in the pipe 20 It is to be reduced to prevent the thermal layer is generated, thereby reducing the thermal stress and bending of the pipe 20 as a result.

In addition, the internal flow mixing device 100 of the piping member in which the thermally stratified layer of the present invention is coupled to the pipe 20 and the internal flow mixing device 100 as shown in FIG. 5 when combined with the pipe 20. The thread 111 may be screwed into a shape corresponding to each other, and as shown in FIG. 6, the bolt 20 may include a flange 120 on the outer circumferential surface of the pipe 20 and the internal flow mixing device 100. B) and the nut (N) may be coupled, as shown in Figure 7 may be coupled via welding (W) in the coupling structure in the pipe 20 and the internal flow mixing device 100 If the structure can be firmly coupled to the coupling structure is not limited.

In addition, in the present invention, the plurality of guide holes 110 formed in the mixing device may be formed to be closely intertwined in a lattice pattern in some cases so that internal flow may be more actively performed in the piping member. The hole 110 may be formed to be inclined in a horizontal or inclined venturi form (tube formed to increase the speed when the fluid passes through the tube) as shown in FIG. 8.

The present invention has been described in detail with reference to the embodiments of the present invention, but the scope of the present invention is not limited thereto, and the scope of the present invention is substantially equivalent to the embodiments of the present invention.

In addition, as shown in the above description, the technology of the internal flow mixing device of the piping member in which the thermal layer is generated according to the present invention is very simple, but the technical advantage of the present invention is very clear in that the technical effect is very large. Will do.

10 --- Pressurizer
20 ---- piping
100 ---- internal flow mixing device
110 ---- Information Hall
111 ---- Thread
V ---- bolt
N ---- nuts
W ---- welding

Claims (5)

It is installed between the pipe 20 so as to alleviate the thermal layer generated in the pipe 20 by the density difference of the fluid as the low-temperature fluid and the high-temperature fluid flows together, the upper side in the pipe 20 Both left and right sides are formed to penetrate the lower density of the high-temperature fluid flowing to the lower side of the pipe, and to guide the lower-density low-temperature fluid flowing from the lower side of the pipe 20 to the upper side of the pipe. And a plurality of guide holes 110 formed to be inclined upwardly or downwardly at various angles, and the low temperature fluid and the high temperature fluid pass from each other in the pipe 20 as they pass through the guide hole 110. The internal flow mixing device (100) of the piping member generating a thermal layer, characterized in that the mixture can reduce the temperature difference between the fluid. The method of claim 1, wherein the guide hole 110 is formed to be inclined in the form of a venturi so as to increase the speed when the fluid passes through the guide hole 110, the inner flow mixing of the piping member generating a thermal layer Device. The internal flow mixing apparatus of claim 1, wherein the internal flow mixing device 100 is screwed together with the pipes 20 and the threads 111 having a shape corresponding to each other. Mixing device. The inner flow mixing device of claim 1, wherein the inner flow mixing device (100) is coupled to the pipe (20) by forming a flange (120) on its outer circumferential surface. The internal flow mixing device of claim 1, wherein the internal flow mixing device (100) is coupled to the pipe by welding (W).

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