JPH07108101A - Liquid production and device therefor - Google Patents

Abstract

PURPOSE:To accelerate the evaporation of liquid in a method for producing liquid by which the 1st liquid is evaporated and the vapor is condensed to produce the 2nd liquid by feeding the 1st liquid to an evaporation accelerating means consisting of a porous material to rapidly increase the surface area of the liquid. CONSTITUTION:When the method is applied to a seawater desalination device, in an evaporation tank 1 to be evacuated by a vacuum pump 7, an evaporation accelerating means 2 consisting of a porous material, such as continuous porous ceramics is installed, and a heater 5 for heating seawater through a heat exchanger pipe 21 is installed there. Seawater is fed to the evaporation accelerating means 2 from a seawater feeder 4 through a water spray pipe 44, and steam evaporated in the vaporization accelerating means 2 is brought into contact with a heat exchange pipe 28 of a condenser 6 and condensed to afford fresh water. At this time, an air current is delivered to the evaporation accelerating means 2 by a fan 40 to rapidly evaporate seawater that has permeated the porous ceramics of the evaporation accelerating means 2, thereby accelerating the evaporation.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid forming method and a liquid forming apparatus for extracting fresh water from, for example, seawater.

[0002]

2. Description of the Related Art The evaporation method has been known as a method for extracting fresh water from seawater. In this evaporation method,
It was important to efficiently evaporate seawater and efficiently condense the evaporated water vapor. Factors for efficiently evaporating seawater include temperature, pressure, and surface area. That is, evaporation is better promoted by increasing the temperature of seawater, lowering the pressure of the atmosphere, and increasing the surface area of seawater.

As a method for increasing the surface area of seawater, it has been conventionally known to atomize seawater (see, for example, Japanese Utility Model Publication No. 3-44639).

[0004]

In the conventional spray-type evaporation method, it is extremely possible to completely separate the sprayed seawater from the steam evaporated from the sprayed seawater and to condense only the steam to obtain fresh water. It was difficult. Therefore, it is an object of the present invention to provide a liquid forming method and a liquid forming apparatus that increase the surface area of a liquid without using spraying to promote evaporation.

[0005]

In order to achieve the above object, the present invention takes the following means. That is, the feature of the liquid forming method of the present invention is that the first liquid is evaporated and the evaporated liquid is condensed to form the second liquid. At this time, the surface area of the first liquid is increased through the porous substance, and the first liquid is evaporated from the porous substance.

Further, the first liquid is placed in a low pressure atmosphere,
In addition, it is characterized in that it heats and sends air to the porous material to promote evaporation. The liquid producing apparatus of the present invention is characterized in that an evaporation tank, an evaporation promoting means made of a porous substance provided in the tank, a depressurizing device for depressurizing the inside of the tank, and the evaporation promoting means. A first liquid supply device for supplying the first liquid; a heating device for heating the first liquid; and a condensing device for condensing the vapor evaporated from the evaporation promoting means to obtain the second liquid. There is a point.

The liquid producing apparatus of the present invention has, in addition to the above constitution,
An air blower for sending air to the evaporation promoting means may be provided. Further, in order to prevent clogging of the porous material, a cleaning device for cleaning the evaporation promoting means can be provided.

[0008]

According to the present invention, by supplying the first liquid to the evaporation promoting means made of a porous material, the first liquid covers the surface of the porous material and the surface area of the liquid is dramatically increased. Then, the first liquid is heated by the heating device to be warmed, and the pressure in the evaporation tank is reduced by the decompression device, whereby evaporation from the evaporation promoting means is promoted.

Further, by sending the wind to the evaporation promoting means by the blowing means, the evaporation from the evaporation promoting means is further promoted. Then, the vapor evaporated from the evaporation promoting means is condensed by the condenser and taken out as the second liquid.
When it is used for a long period of time, the porous material of the evaporation promoting means is clogged, and the evaporation promoting effect is reduced. Therefore, by regularly cleaning the evaporation promoting means with a cleaning device, the clogging can be prevented.

[0010]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows the entire structure of the liquid producing apparatus of the present invention, which is a seawater desalination apparatus for obtaining fresh water which is the second liquid from seawater which is the first liquid. Is embodied.

That is, this seawater desalination apparatus comprises an evaporation tank 1, an evaporation promoting means 2 made of a porous substance provided in the tank 1, and a decompression device for decompressing the inside of the tank 1.
3, a seawater supply device (first liquid supply device) 4 for supplying seawater (first liquid) to the evaporation promoting means 2, a heating device 5 for heating the seawater, and water vapor evaporated from the evaporation promoting means 2. It is mainly composed of a condenser 6 for condensing and obtaining fresh water (second liquid).

The evaporation tank 1 is a tank that can be opened and closed and can be sealed, and a lower portion of the tank 1 is a seawater storage portion that stores seawater up to a predetermined position.
A part of the heating device 5 is provided in the seawater reservoir. The evaporation promoting means 2 is provided at a water surface position of the seawater reservoir. In the upper space of the evaporation tank 1, the condensing device
Part of 6 is provided.

The decompression device 3 has a vacuum pump 7,
The pump 7 and the upper part of the evaporation tank 1 are provided with a first pipe 8
Connected through. In the middle of this first pipe 8
Valve 9 is provided. The first pipe 8 between the first valve 9 and the evaporation tank 1 is provided with a second valve 10 for opening to the atmosphere.
Is provided. The seawater supply device 4 includes a seawater pumping pump 11, a seawater preheating tank 12, and a seawater circulation pump 13
Have and. Seawater pump 11 and seawater preheat tank 12
And are connected via the second pipe 14. Preheating tank
The seawater circulation pump 13 and the evaporation tank 1 are connected in series via a third pipe 15. This evaporation tank
The third valve on the third pipe 15 between the 1 and the seawater circulation pump 13
16 are provided. Drain pipe to seawater preheating tank 12
17 are provided.

Further, an overflow pipe 18 is connected above the water surface of the seawater reservoir of the evaporation tank 1, and the overflow pipe 18 is connected to the seawater preheating tank 12. The overflow pipe 18 is provided with a fourth valve 19. A fifth valve 20 for drain is provided at the bottom of the evaporation tank 1. The evaporation promoting means 2 is made of a porous material, and in this embodiment, the porous material is made of continuous multi-porous ceramics. This continuous multi-porous ceramic is
It is formed into a ball shape having a diameter of 6 to 10 mm and is integrally assembled with a net or the like. This evaporation promoting means 2 has its lower part immersed in the seawater stored in the seawater storage part of the evaporation tank 1 and its upper part protruding above the water surface.
It is arranged exchangeably in the evaporation tank 1.

The heating device 5 includes a heat exchange pipe 21 arranged in the seawater reservoir of the evaporation tank 1 and an evaporation tank.
1, a hot water tank 22 installed outside, and a hot water circulation pump
23 and a heating unit 24. The heat exchange pipe 21, the hot water tank 22, the hot water circulation pump 23, and the heating unit 24 are the fourth pipes.
25 connected in series. The heating section 24 is provided in the condenser 27 of the heat pump 26 so that heat can be exchanged.

The condensing device 6 comprises a condensing pipe 28 arranged in an upper space of the evaporating tank 1 and an evaporating tank 1
Cold water tank 29 installed outside the cold water circulation pump 30
And a cooling unit 31. Condensing pipe 28, cold water tank
29, the cold water circulation pump 30, and the cooling unit 31 are the fifth pipe 32.
Are connected in series. The cooling unit 31 is provided in the evaporator 33 of the heat pump 26 so that heat can be exchanged.

Further, the condensing device 6 includes an evaporation tank 1
Inside, a fresh water collecting tray 34 arranged below the condensing pipe 28, a fresh water tank 35 arranged outside the evaporation tank 1, and a sixth connecting the tray 34 and the fresh water tank 35. It has a pipe 36 and a sixth valve 37 provided in the sixth pipe 36. The heat pump 26 includes a compressor 38 for compressing a refrigerant, the condenser 27 for condensing the compressed refrigerant, and an expansion valve for vaporizing the liquefied refrigerant.
39 and the evaporator 33 are connected in series.

The seawater desalination apparatus further comprises, in addition to the above configuration, an air blower 40 for sending air to the evaporation promoting means 2. The blower device 40 includes a fan 41 and a motor 42 that drives the fan 41. The fan 41 is arranged so as to blow air onto the surface of the evaporation promoting means 2. Further, the seawater desalination apparatus includes a cleaning device 43 for cleaning the evaporation promoting means 2 in order to prevent clogging of the porous material. The cleaning device 43 has a water sprinkling pipe 44 arranged above the evaporation promoting means 2, and the water sprinkling pipe 44 includes a third pipe 15 between the seawater circulation pump 13 and the third valve 16.
Is connected via a seventh pipe 45. This 7th pipe 45
And a seventh valve 46 is provided. The sprinkling pipe 44
Sprays seawater onto the evaporation promoting means 2 to prevent its clogging.

According to the embodiment of the present invention having the above construction, first, the fifth and seventh valves 20,46 are closed, and the second, third and fourth valves 10,16,19 are opened. Then, seawater is pumped up by the seawater pumping pump 11, and the seawater is supplied to the second pipe 14
Pass into the seawater preheating tank 12 through. The seawater in the seawater preheating tank 12 is supplied to the third pipe 15 by the seawater circulation pump 13.
Is supplied to the evaporation tank 1 via. Evaporation tank 1
When the water level rises to reach the overflow pipe 18, the seawater returns to the seawater preheating tank 12 through the overflow pipe 18. In this state, the seawater pumping pump 11 is stopped. Then, the seawater circulates between the seawater preheating tank 12 and the evaporation tank 1.

The second valve 10 is closed, the first valve 9 is opened, and the vacuum pump 7 reduces the atmospheric pressure in the evaporation tank 1 to a predetermined atmospheric pressure. When the pressure reduction is completed, the first valve 9 is closed and the atmospheric pressure in the evaporation tank 1 is maintained at a predetermined low pressure value. At this time, by operating the heat pump 6 and the hot water circulation pump 23, the hot water heated by the heating unit 24 is transferred to the heat exchange pipe.
21 and heats the seawater in the evaporation tank 1. In this example, the seawater is heated to about 70-80 ° C.

Further, since the lower part of the evaporation promoting means 2 is immersed in seawater, the seawater permeates the porous ceramics and moves to the upper part by the capillary phenomenon, so that the surface area of seawater increases dramatically. Further, the blower device 40 is used for the evaporation promoting means 2
Since the wind is sent to the seawater, the seawater that has penetrated into the porous ceramics of the evaporation promoting means 2 is rapidly vaporized. The vaporized water vapor rises.

In the upper condenser 6, the heat pump 26,
By operating the cold water circulation pump 30, the cold water cooled in the cooling unit 31 is supplied to the condensing pipe 28 to cool the steam. The cooled water vapor condenses and the water droplets are stored in the tray 34. When a certain amount of fresh water accumulates on the tray 34, the second
The valve 10 is opened to bring the inside of the evaporation tank 1 to atmospheric pressure, and then the sixth valve 37 is opened to collect the fresh water in the tray 1 into the fresh water tank 35. Once collection is complete, the second and sixth valves
10, 37 are closed, the first valve 9 is opened, the inside of the evaporation tank 1 is decompressed by the vacuum pump 7, and the above process is repeated.

When the seawater in the evaporation tank 1 evaporates, the water level of the seawater decreases, and the overflow pipe 18 stops flowing, the seawater pumping pump 11 is operated to adjust the water level. If the operation is continued for a longer period of time, the concentration of seawater in the evaporation tank 1 will increase.Therefore, in order to maintain the specified concentration, the seawater pumping pump 11 is activated and new seawater is supplied to the preheating tank 12 so that the drainage water is drained. Drain high-concentration seawater from the pipe 17.

When operating for a longer time, the evaporation promoting means
Since the eyes of the porous ceramic 2 are clogged with salt, the cleaning device 43 cleans the evaporation promoting means 2. That is, the third valve 16 is closed and the seventh valve 46 is opened to sprinkle seawater from the sprinkling pipe 44 onto the evaporation promoting means 2 to wash away the adhering salt. This high concentration seawater is discharged to the outside by opening the fifth valve 20. At this time, the second valve 10 is opened to bring the atmospheric pressure in the evaporation tank 1 to atmospheric pressure.

FIG. 2 shows another embodiment of the present invention. In this example, the heating device 5 and the condensing device 6
1 is provided outside the evaporation tank 1, and the configurations of the blower 40 and the cleaning device 43 are different from those of the embodiment of FIG. 1, and other configurations are the same as those of the embodiment of FIG. Therefore, the same components as those of the embodiment of FIG. 1 are designated by the same reference numerals and the description thereof will be omitted.

That is, in this embodiment, the seawater preheating tank 12
The seawater inside is heated in the seawater / hot water heat exchange tank 47,
Supplied to evaporation tank 1. Further, the water vapor evaporated in the evaporation tank 1 is supplied to the condensation tank 49 via the steam extraction pipe 48. The condensing tank 49 is provided with the condensing pipe 28 of the condensing device 6.

Further, the condensation tank 49 and the evaporation tank 1
Is connected with a circulation pipe 50, and a blower is connected to the circulation pipe 50.
51 is interposed. Evaporating tank for this circulation pipe 50
The outlet in 1 is formed in a nozzle 52, and the nozzle 52 is directed to the evaporation promoting means 2 provided in the evaporation tank 1. That is, the blower device 40 is provided by the nozzle 52, the blower 51, and the like.
Is configured.

The evaporation promoting means 2 is supported by a cleaning device 43. The cleaning device 43 has a drive device 53 for moving the evaporation promoting means up and down. By driving the evaporation promoting means 2 up and down by the drive device 53 to immerse or elevate the entire evaporation promoting means 2 in seawater, salt adhering to the evaporation promoting means 2 can be washed away. still,
The present invention is not limited to the above embodiments. For example, the liquid producing apparatus of the present invention can be used not only as a seawater desalination apparatus but also as a sewage / clean water separation apparatus, an oil / water separation apparatus, or the like.

Although the heat pump 26 is used as the heat source of the heating device 5 and the condenser device 6, the present invention is not limited to this, and other heat sources such as a combustion heating device, an electric heating device, engine exhaust heat, or other A cooling device may be used. Furthermore,
The porous substance of the evaporation promoting means 2 is not limited to the continuous multi-porous ceramics, and may be any substance that can withstand the characteristics of the processing liquid. Further, the porous material is not limited to a ball-shaped material, and may be a stick-shaped material or the like.

[0030]

According to the present invention, since the surface area of the liquid is increased by using the porous material, evaporation is better promoted.

[Brief description of drawings]

FIG. 1 is an overall configuration diagram of a seawater desalination apparatus showing an embodiment of the present invention.

FIG. 2 is an overall configuration diagram of a seawater desalination apparatus showing another embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Evaporation tank 2 Evaporation promoting means 3 Decompression device 4 First liquid supply device 5 Heating device 6 Condensing device 40 Blower device 43 Cleaning device

Claims (5)

[Claims] 1. A liquid forming method of evaporating a first liquid and condensing the evaporated vapor to form a second liquid, wherein when evaporating the first liquid, a surface area of the first liquid is adjusted. A method for producing a liquid, which comprises increasing the amount of the first liquid through a porous substance and evaporating the first liquid from the porous substance. 2. The first liquid is placed in a low pressure atmosphere, and
The method for producing a liquid according to claim 1, wherein air is sent to the porous material to accelerate evaporation while heating. 3. An evaporation tank, an evaporation promoting means made of a porous material provided in the tank, a decompression device for decompressing the inside of the tank, and a first liquid supplied to the evaporation promoting means. 1 liquid supply device, a heating device for heating the first liquid, and a condensing device for condensing the vapor evaporated from the evaporation promoting means to obtain the second liquid apparatus. 4. The liquid producing apparatus according to claim 3, further comprising an air blower for sending air to the evaporation promoting means. 5. To prevent clogging of the porous material,
The liquid producing apparatus according to claim 3, further comprising a cleaning device that cleans the evaporation promoting means.