JP2766855B2 - Flash tank for scale prevention - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a flash tank for flashing hot water to separate it into a gaseous phase and a liquid phase, and particularly contains a scale component such as geothermal water. It can be used in geothermal power generation and other various heat facilities, plants, and the like that handle fluids.

[Conventional technology]

As shown in FIG. 2, the conventional flash tank comprises a sealed container (2), to which hot water is supplied and flashed inside, and the generated steam is taken out from the upper portion of the container (2) and the remaining heat is removed. Water is taken out from the lower part of the container (2).

[Problems to be solved by the invention]

As can be seen from the above, the conventional flash tank is not designed to take into account the problem of scale adhesion. It is necessary to stop the operation and clean the inside of the container. As a result, continuous operation of the system cannot be performed, and the operation rate decreases.

Therefore, the main object of the present invention is to generate scale,
It is an object of the present invention to provide an improved structure of a flash tank and a method of preventing the scale thereof, which can prevent the adhesion and make the cleaning unnecessary, or can greatly reduce the frequency thereof.

[Means for solving the problem]

In the flash tank according to the present invention, the lower portion of the container, that is, the portion corresponding to the liquid phase has a double structure. That is,
A jacket is formed between the inner and outer walls of the double structure.

A fluid having a temperature different from the liquidus temperature in the container is supplied to the jacket.

The fluid temperature is adjusted according to the scale components contained in the hot water.

The inner wall of the double wall portion may be made of an elastic material such as rubber.

Further, the inner wall of the double wall portion may be made of a material having a different coefficient of thermal expansion from the scale, for example, a synthetic resin.

[Action]

In the flash tank according to the present invention, the portion corresponding to the liquid phase of the container has a double structure, so that various scale preventing operations can be performed.

First, a fluid having a temperature different from the liquidus temperature in the container is supplied to a jacket formed between the inner and outer walls, as controlled by temperature. The temperature of the fluid is adjusted according to the scale components contained in the hot water. For example, when a scale component such as silica SiO ₂ whose deposition temperature is lower than the source hot water temperature before flushing is contained, the temperature of the hot water stored in the container as a result of flushing becomes lower than that of the source hot water. Will occur. Therefore, in this case, heating is performed by setting the fluid temperature in the jacket higher than the liquidus temperature in the container. Thereby, the temperature of the liquid phase wall surface in the container to which the scale is to adhere is kept higher than the deposition temperature of the scale component, and the generation of scale is prevented.

Also, depending on the scale component, calcium carbonate CaCO
_{As shown in 3,} the solubility increases as the temperature decreases. It is considered that such scale components do not usually precipitate because the temperature of hot water after flushing decreases. However, when the source hot water already contains such a scale component up to the supersaturated state, the liquid phase, that is, the solvent is reduced by the flushing, so that the scale is generated. Therefore, in this case, the cooling is performed by lowering the fluid temperature in the jacket than the liquidus temperature in the container. As a result, the temperature of the liquid phase wall surface in the container to which the scale is to be attached is lowered to further dissolve the scale component, thereby preventing scale from being generated.

Next, when the inner wall of the double structure is made of an elastic material, it is possible to perform a scale prevention operation by pressure control. As an example, the pressure in the jacket formed between the inner and outer walls of the double structure is usually kept constant, and when desired, the inner wall is elastically deformed by reducing or increasing the pressure, thereby adhering to the wall. The scale can be peeled off.

A similar effect is obtained when the thermal expansion coefficient of the inner wall of the double structure portion is different from the scale and the thermal expansion coefficient.

The operation by temperature control and the operation by pressure control described above are:
Each of them can be selectively implemented alone or in combination.

〔Example〕

The flash tank shown in FIG. 1 has a supply pipe (4) for supplying source hot water and a vessel (20) to which a steam pipe (6) and a liquid pipe (8) are connected. The lower part of the container (20) has a double structure in a range corresponding to the liquid phase stored inside. That is, the inner wall (22) and the outer wall (24)
Thus, a jacket (26) is formed. The jacket (26) is sealed in this embodiment and has a fluid supply pipe (28) and a fluid discharge pipe (30) attached. The fluid supply pipe (28) branches off from the supply pipe (4) of the source hot water. In other words, in this embodiment, the hot water whose temperature has decreased after flushing is heated by supplying the source hot water before flushing to the jacket (26). If you do not use hot water as a heat source,
The fluid supply tube (28) connects to another suitable fluid supply.
The fluid discharge pipe (30) is connected to the liquid pipe (8)
And may be taken out separately.

When the liquid in the container (20) is cooled by the fluid in the jacket (26), the fluid supply pipe (28) is provided separately from the supply pipe (4) and is provided with a suitable cold heat source such as cooling water. Connect to

The fluid supply tube (28) or jacket (26) may be provided with a heater or other suitable device for heating or cooling.

The jacket (26) is not limited to a closed type as shown in the figure, but is preferably an open type or a disassemblable structure in consideration of cleaning of the inside of the jacket.

〔The invention's effect〕

As described above, according to the present invention, since the flash tank has a double structure, measures for preventing scale can be easily taken with a simple structure. Further, by adopting temperature control and / or pressure control, scale prevention or scale removal can be performed without stopping the operation of the system. Can be provided.

[Brief description of the drawings]

FIG. 1 is a schematic sectional view of a flash tank showing an embodiment of the present invention, and FIG. 2 is a schematic sectional view of a conventional flash tank. 20: Container 26: Jacket 22: Inner wall 24: Outer wall 28: Fluid supply pipe 30: Fluid discharge pipe

Claims (6)

(57) [Claims] 1. A flash tank in which hot water is flashed and separated into a gas phase and a liquid phase, wherein a portion corresponding to the liquid phase has a double structure. 2. The flash tank according to claim 1, wherein a fluid having a temperature different from the liquidus temperature in the flash tank is supplied between the inner and outer walls of the double structure portion. 3. The flash tank according to claim 2, wherein the temperature of the fluid is adjusted according to the scale component contained in the hot water. 4. The flash tank according to claim 1, wherein the inner side wall of the double structural part is made of an elastic material. 5. The flash tank according to claim 4, wherein the pressure between the inner and outer walls is changed. 6. The flash tank according to claim 1, wherein the coefficient of thermal expansion of the inner wall of the double structure portion is different from the coefficient of thermal expansion of the scale.