KR950004538Y1 - Ocean corrosion simulation apparatus - Google Patents

Abstract

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Description

Seawater Corrosion Simulation Device for Vaporizer and Tube

1 is a perspective view of a tube specimen for a vaporizer.

2 is a state of use of the device according to an embodiment of the present invention.

3 is a longitudinal sectional view of FIG.

Figure 4 is a plan view showing a tube specimen insertion hole and the tube specimen inserted state of the apparatus according to the present invention.

5 is a plan view showing the tube specimen support and drain holes.

* Explanation of symbols for main parts of the drawings

1: simulation device 3: injection pipe

6: upper plate 7: tube specimen insertion hole

12: lower plate 14: sheet test vessel

17: pump 18: circulation tube

A: Tube Specimen B: Plate Specimen

The present invention relates to a seawater corrosion simulation device (simulation), and more particularly to a seawater corrosion simulation device for the vaporization tube and plate.

Liquid natural gas (LNG) is used by vaporizing a liquid state to a gaseous state when used. LNG vaporization passes through a tubing part as shown in FIG. 1. In this case, seawater flows along each bone and face of the tube. As you lower, the temperature rises to vaporize. However, since the seawater is used as a vaporizing medium, the tube material causes a lot of corrosion. For the purpose of this study, most of the plate materials are immersed in the seawater for several months to several years.

However, in the actual case, as mentioned above, the seawater continuously flows along the surface and the valleys of the tube material. Therefore, after experimenting with the plate material, the simulation test must be performed with the tube material. It is made near the flowing coast, and every time the specimen is observed, it has to go to the shore every time.

Accordingly, an object of the present invention is to provide a seawater corrosion simulation apparatus for solving the problems described above to make the test of the plate and tube material at the same time indoors.

Simulation device according to the present invention is located in the upper cover and opening and closing by the fastener, installed in the transverse direction at the inner top, connected by an external pump and the circulation pipe, the injection pipe with a plurality of injection holes are installed downward on the surface An upper layer formed at a lower portion of the upper plate, the upper plate having a tube specimen insertion hole formed in a shape such as a cross section of the tube specimen or slightly larger than a cross section of the tube specimen so as to be inserted into the tube specimen; The upper plate is closed and separated from the singer layer, and has an upper opening formed in the side, and a support positioned at the bottom and supporting the tube specimen inserted from the upper through the tube specimen insertion hole, and drain holes and a plurality of holes around the support. An intermediate layer consisting of a bottom plate on which the catchment is laid; And a plate test container having a plate sample having a plate opening and a bottom opening and closing portion formed on an upper side of the lower plate, and having a plate sample positioned at the bottom and tested therein, the seawater connected to the collecting hole and flowing into the collecting hole. The bottom layer consisting of a collecting pipe for collecting the plate test vessel, and a water outlet for sending seawater collected at the bottom to an external pump.

As described above, the device according to the present invention is integrally formed into an upper layer, an intermediate layer and a lower layer by an upper plate and a lower plate, and sprays seawater on the upper layer, and a seawater corrosion test on the tube specimen is performed on the middle layer. Using seawater used in the corrosion test, the bottom layer can be used for man.

The simulation device of the present invention can be made of acrylic or other synthetic resin material, and the pump for supplying seawater to the device is installed on both sides or on one side of the device, and the seawater can be transferred to both sides or one side by the injection pipe of the upper layer through the circulation pipe. Supply.

At this time, the seawater used is not necessary to supply seawater separately because the seawater used for the plate test in the lower layer is used again.

If only one side of the seawater is supplied by the pump, one end of the seawater that is not supplied from the injection pipe should be closed.

Each of the upper and lower openings respectively provided on one side of the middle and lower layers is installed on the inner side of the device of the present invention, i.e., on the inner side of the device of the present invention, in order to prevent seawater from flowing down the openings and exits of the passage. It is preferable.

On the other hand, the tube specimen insertion hole formed in the upper plate so that the tube specimen can be inserted is the same as the cross-sectional formation of the tube specimen so that the seawater sprayed through the injection hole can flow down evenly along the tube specimen, and the flow of seawater To ensure smoothness, it is advisable to make the insertion hole a little larger than the cross-sectional size of the tube specimen.

In addition, a drainage hole is formed in a radial direction around the tube specimen support so that the seawater flowing downward along the tube specimen can be discharged immediately without accumulation in the intermediate layer.

Some of the remaining seawater, which does not flow through the drain hole, is collected through the collecting hole into the plate specimen container of the lower layer through the collecting pipe, where the Y-shaped connector is in the middle of the collecting pipe to facilitate the collection of seawater through the collecting pipe. It is desirable to install it.

In addition, since the plate specimen container may move to the outlet port to prevent water extraction by the suction force of the pump in the lower layer, it is preferable to prevent the suction force of the pump from reaching the plate specimen container by forming the outlet port in a V shape.

Hereinafter, an embodiment of the present invention will be described in detail according to the accompanying drawings.

2 is a state diagram of an embodiment in which the present invention can be implemented, and a simulation apparatus 1 according to the present invention is schematically illustrated.

The cover 2 located at the top of the device 1 is made openable by a fastener such as a hinge 5, and the injection tube 3 horizontally installed directly under the cover is located outside the device 1 It is connected by the pump 17 and the circulation pipe 18 to spray the seawater downward through the injection hole 4 formed downward in the injection pipe 3 for the test seawater.

The upper layer and the middle layer are divided by the upper plate 6, and the upper plate 6 is provided with a tube specimen insertion hole 7 having the same shape as the cross section of the tube specimen so that the tube specimen A can be inserted from the top. .

4 is a plan view showing a state in which the tube specimen A is inserted into the tube specimen insertion hole 7, and the tube hole A is inserted into and inserted into the tube specimen insertion hole 7 slightly larger than this. It flows through the gap in specimen A.

At this time, the tube specimen is sealed at both ends so that the seawater flows only to the surface.

On the other hand, the middle layer which is separated from the upper layer by the upper plate 6, the upper opening 8 is installed from the inside of the middle layer on one side thereof, the lower portion is separated from the lower layer by sealing the lower plate 12. .

The lower plate 12 is provided with a tube specimen support 9 which can support the tube specimen A inserted from the upper through the tube specimen insertion hole 7, and the drainage hole 10 in the radial direction is installed in the periphery thereof. Thus, the seawater flowing down to the bottom can be drained directly to the lower layer.

5 is a plan view of the support and the drainage hole 10 laid around it.

The tube specimen support 9 can be determined according to the number of specimens to be tested, and illustrated in the drawing to test three specimens.

The lower layer, which is separated from the intermediate layer by the lower plate 12, has a lower opening 13 in the same shape as the upper opening 8 in one side thereof, and the lower opening is located higher than the middle of the lower layer. Do not let the decayed sea overflow.

On the bottom of the lower layer, a short specimen container 14 containing plate specimen B is disposed, and the plate specimen container is connected by the collecting hole 11 and the collecting pipe 15 of the lower plate 12.

The collecting pipe 15 is provided with a Y-shaped connector 16 to smooth the flow of seawater through the collecting pipe. In addition, a water outlet 19 is formed near the bottom of the lower layer to be connected to the external pump 17.

The pump has an end 20 for sending the seawater of the lower layer to the upper layer through the outlet 19, the end is preferably formed in a V shape so that the suction force of the pump does not fall into the plate test vessel.

The device of the present invention having the configuration as described above, in use, first open the cover (2) and put the tube specimen A through it and then placed on the tube specimen support (9) through the tube specimen insertion hole (7) of the upper plate .

On the other hand, the plate specimen B is installed in the plate specimen container 14 through the lower opening and closing (13).

Then, when the pump 17 is operated, the seawater injected into the injection pipe 3 of the upper layer through the circulation pipe 18 is injected downward through the injection hole 4 formed in the injection pipe to raise a certain level in the upper layer. After flowing down through the surface of the lower tube specimen A while maintaining, it is drained through the drain hole (10) installed around the tube specimen support (9) without being scattered and falls to the lower layer, and the seawater not through the drain hole (10) It is collected through the collecting pipe (15) through the collecting pipe (15) to the plate specimen container (14) to be used for the corrosion specimen of the plate specimen.

The seawater collected in the lower layer is sent back to the upper layer by the operation of the pump 17 so that the experiment can be continuously performed.

As described above, according to the present invention, as a simple device, a tube test as well as a plate test can be simultaneously performed under conditions similar to those of the real world.

Claims (1)

Cover 2 located in the upper portion and openable by fasteners 5, is installed in the transverse direction immediately below the cover 2, is connected by an external pump 17 and the circulation pipe 18, the surface A plurality of injection holes (4) in the downward direction of the injection pipe (3), and located in the lower portion of the same as the cross section of the tube specimen A so that the tube specimen A can be inserted, but slightly larger than the cross section of the tube specimen A An upper layer including an upper plate 6 having a tube specimen insertion hole 7 formed therein; The support plate (9) is hermetically separated from the singer layer by the upper plate (6), the upper opening (8) formed on the side, and the support (9) located at the bottom and supporting the tube specimen A inserted through the tube specimen insertion hole (7). An intermediate layer including a lower plate 12 having a plurality of collecting holes 11 and a drain hole 10 disposed around the support; And a plate test container 14 having the plate opening and closing plate 13 and the bottom opening 12 formed in the upper part, the bottom plate 12 having a plate specimen B to be tested therein, and the collecting hole 11. A water collecting pipe 15 connected to the water pipe to guide the seawater flowing through the water collecting hole into the plate test container; And a lower layer including a water outlet 19 for sending seawater collected at the bottom to an external pump 17, a vaporizer tube and a plate-type seawater corrosion simulation apparatus.