KR19990085997A - Section structure of distilled water passage of seawater desalination evaporator - Google Patents

Abstract

The present invention relates to a cross-sectional structure of the distilled water passage of the seawater desalination evaporator. The object of the present invention is to improve the material composition and welding method, to facilitate the operation, to shorten the manufacturing period, and to reduce the cost of raw materials. To provide a cross-sectional structure.

The present invention is a cross-sectional structure of the distilled water passage of the conventional seawater desalination evaporator,

The front wall and bottom plate in contact with fresh water are made of thick carbon steel base plate and thin stainless steel plate (CLAD), and the distilled water bottom plate, gutter and partition plate in contact with sea water is thickened with low price stainless steel plate. Distilled water passage cross-sectional structure eliminates lining work by using a thin clad (Cu-Ni) plate with a strong corrosion-resistant copper-nickel plate.

Description

Section structure of distilled water passage of seawater desalination evaporator

The present invention relates to a cross-sectional structure of the distilled water passage of the seawater desalination evaporator, and in particular, distilled water condensed after distillation in the structure of a multi-stage flash (MSF) evaporator that obtains drinking water or industrial water by evaporating and desalting seawater. In the distillation channel of the evaporator, the evaporated water vapor is condensed on the surface of the heat pipe and falling down and relates to the cross-sectional structure of the distillation channel for transporting the distilled water out of the evaporator.

In general, seawater desalination evaporators use highly corrosion-resistant copper-nickel (Cu-Ni) steel plates because they handle highly corrosive seawater, which prohibits contact with distilled water, which is not only expensive but also harmful to humans. Doing.

Therefore, most of seawater desalination facilities use copper-nickel (Cu-Ni) steel plates for contact with seawater and stainless steel plates for distilled water.

However, the seawater desalination evaporator is complicated and difficult to fabricate because the structure is complicated and partially different materials are used.

In particular, the distilled water passage of the seawater desalination evaporator, as shown in Figures 1 and 2, because the distilled water is transported inside and the seawater flows to the outside, the work method is complicated and fabricated by attaching steel plates of different materials. There is a problem that it takes a long time, resulting in a large production cost.

Conventionally, a partition plate for blocking contact between distilled water and a front wall, bottom plate, and heated seawater of an evaporator composed of copper-nickel (Cu-Ni) material is contacted with distilled water. To the distilled water was attached a thin stainless steel sheet.

FIG. 3 is a view showing the conventional technology. The partition plate and the trough forming the distillation channel are attached with a thin stainless steel sheet to a thick copper-nickel (Cu-Ni) steel plate, and the front wall and the bottom plate of the evaporator are carbon steels. It shows that the stainless steel plate is attached to (Carbon Steel).

Here, the hatched part is a part where fresh water comes into contact, so the copper-nickel (Cu-Ni) component harmful to human body is lined with a stainless steel plate on a copper-nickel (Cu-Ni) steel sheet to prevent direct contact with fresh water. Due to the narrow working space, there are problems such as generation of harmful gases as well as structural deformation during lining work, deterioration of work efficiency and high production cost.

The partition plate, the distilled water gutter and the distilled water bottom plate are parts of the copper-nickel (Cu-Ni) steel plate, which is expensive, lining the stainless steel plate thereon.

4 and 5 are diagrams showing the front wall and the bottom plate of the evaporator. In order to prevent corrosion, copper-nickel (Cu-Ni) steel sheets are attached on the carbon steel to the material of the seawater contacted to prevent corrosion. What is used is a clad steel plate.

Therefore, the conventional distilled water channel as described above is difficult to secure a working space when the stainless steel sheet is attached because it is a narrow space, a lot of deformation occurs after welding as well as a lot of harmful gases during welding, there are many difficulties in the operation and expensive Since copper-nickel (Cu-Ni) steel sheet is used as a base material and a relatively inexpensive stainless steel sheet is attached, there is a problem in that a material cost is required.

An object of the present invention for solving the above problems is to improve the material composition and welding method to facilitate the operation, shorten the production period and reduce the raw material cost to provide a cross-sectional structure of the evaporator distillation channel of the economic structure have.

The object of the present invention as described above in the evaporator passage cross-sectional structure of a conventional seawater desalination evaporator,

The front wall and the bottom plate which are in contact with fresh water are made of thick carbon steel base plate and thin stainless steel plate (CLAD).

Distilled water bottom plates, gutters and partition plates in contact with sea water are made of stainless steel sheets with low cost, and the lining work is eliminated by using thin copper-nickel (CLAD) plates with high corrosion resistance. It is achieved by providing a distilled water passage cross-sectional structure of the seawater desalination evaporator.

1 is a structure of the seawater desalination evaporator,

2 is a cross-sectional view taken along the line A-A of FIG.

3 is a cross-sectional view of a conventional distillation channel,

4 is a conventional evaporator front wall (FRONT WALL),

5 is a conventional evaporator bottom plate (BOTTOM PLATE),

6 is a cross-sectional view of the distillation channel of the present invention;

7 is an evaporator front wall of the present invention (FRONT WALL),

8 is a BOTTOM PLATE of the present invention.

The configuration and operation of the embodiment of the present invention to accomplish the object as described above and to perform the task for eliminating the conventional drawbacks will be described in detail with reference to the accompanying drawings.

6 is a cross-sectional view of the distillation channel of the present invention,

7 is an evaporator front wall of the present invention,

8 is an evaporator bottom plate of the present invention,

In the evaporator passage cross section structure of a conventional seawater desalination evaporator,

The front wall and the bottom plate which are in contact with fresh water are made of thick carbon steel base plate and thin stainless steel plate (CLAD).

Distilled water bottom plates, troughs and partition plates that come in contact with sea water are thickened with low-cost stainless steel plates and thinly clad with corrosion-resistant copper-nickel (Cu-Ni) plates to eliminate lining work. Distilled water passage cross section structure of desalination evaporator.

The distilled water passage produced by the present invention is made of a clad steel sheet in which a stainless steel sheet is attached to carbon steel as a material of a portion of the front wall and the bottom plate contacted with distilled water as shown in FIGS. 7 and 8.

Therefore, the distillation channel of the present invention having the cross-sectional structure as described above does not need to be welded to the stainless steel sheet in a narrow space, so that deformation due to welding does not occur and no harmful gas is generated during welding.

The cross-sectional structure of the present invention as described above is on the copper-nickel (Cu-Ni) steel sheet because the conventional copper-nickel (Cu-Ni) steel sheet is four times more expensive than the stainless steel sheet to improve the inefficient working method Without the welding work to attach stainless steel plate, the base material is made of low-cost stainless steel plate and the expensive copper-nickel (Cu-Ni) material is used as clad (CLAD) material to improve the work efficiency. In addition, the manufacturing cost can be greatly reduced, and thus there is an advantage that the desalination evaporator can be manufactured very economically.

Claims (1)

In the evaporator passage cross section structure of a conventional seawater desalination evaporator, The front wall and the bottom plate which are in contact with fresh water are made of thick carbon steel base plate and thin stainless steel plate (CLAD). Distilled water bottom plates, troughs and partition plates that come in contact with sea water are thickened with low-cost stainless steel sheets and thinly clad with corrosion-resistant copper-nickel (Cu-Ni) plates to eliminate lining work. Distilled water passage cross-sectional structure of the seawater desalination evaporator.