JP2021194634A - Method of forcibly causing dew condensation phenomenon to produce a large amount of fresh water by separating seawater into seawater with high salt concentration and fresh water - Google Patents

Abstract

To provide a method for producing a large amount of fresh water through separation of seawater into seawater with a high salt concentration, and fresh water.SOLUTION: A method for producing fresh water from seawater, in which seawater (8) is sprayed in a dome-shaped plastic house (3) by a sprayer (15) and heated by use of solar heat from outside so that the seawater is separated into seawater containing salt (NaCl) and fresh water (9). Since fresh water (9) has a light specific gravity, it becomes water vapor (5), which condenses on the inside of the plastic house (3), thereby forming water droplets (6). The seawater containing salt (Nacl) falls on the surface of sand layer (2) inside the plastic house (3) due to its heavy specific gravity. The dropped seawater containing a large amount of salt (NaCl) is collected to make sun-dried salt (17).SELECTED DRAWING: Figure 5

Description

The purpose is to forcibly cause a dew condensation phenomenon and separate seawater into seawater with a high salt concentration and freshwater to produce a large amount of freshwater.

A greenhouse with a dome shape (3), a greenhouse with a dome shape made of acrylic plate (3), a greenhouse made of glass plate (3), or a greenhouse made of other materials (3) (hereinafter, In the greenhouse (3) or greenhouse (3) for short, seawater (8) is introduced into the greenhouse (3) using the ejector (15). Inside the vinyl house (3) where 8) is sprayed and a large amount of seawater is sprayed, the seawater (8) with the seawater (8) sprayed is outside the vinyl house (3). When the sprayed seawater (8), which is heated using solar heat, is heated using solar heat, the fine particles in the sprayed state of the seawater (8) contain water containing salt (Nacl). And fresh water (9), which is water that does not contain any salt (Nacl), and fresh water (9), which is the separated water, has a light specific gravity and becomes water vapor (5), which is vinyl. Inside the house (3), water vapor (5) becomes water droplets (6) and dew condensation occurs. On the other hand, since the water containing salt (Nacl) has a heavy specific gravity, it falls on the surface of the surface layer (2) of the desert inside the vinyl house (3), and the surface layer inside the vinyl house (3) ( The water containing a large amount of salt (Nacl) that has fallen into 2) is collected to form sun-dried salt (17). In this way, seawater (8) made into fine particles in a sprayed state is converted into solar heat. Forcibly causes a dew condensation phenomenon between seawater (8) containing a large amount of salt (Nacl) and fresh water (9) by heating using ) Is contained in a large amount of seawater (8) and fresh water (9), and the purpose is to invent and discover that a large amount of fresh water (9) can be produced.

The purpose is to purify fresh water from seawater using the dew condensation phenomenon, which is generated by the temperature difference between the inside and the outside, which is the temperature difference between the inside and outside, and to produce and provide fresh water.

It is generated by the temperature difference between the inside and the outside, which is the temperature difference between the inside and outside. The purpose is to provide seawater.

Seawater with high salinity is generated by the temperature difference between the inside and outside, which is the temperature difference between the inside and the outside. The purpose is to manufacture and provide sun-dried salt using.

Twenty-five percent of the land on earth is barren land, largely because there is no fresh water. In this barren land, fresh water is purified from seawater at a very low cost to produce fresh water. The purpose is to provide that this barren land can be utilized as an agricultural land by being able to supply fresh water.

Twenty-five percent of the land on earth is barren land, largely because there is no fresh water. In this barren land, fresh water is purified from seawater at a very low cost to produce fresh water. By being able to supply fresh water, this barren land can be used as a land for agriculture.

A greenhouse with a dome shape (3), a greenhouse with a dome shape made of acrylic plate (3), a greenhouse made of glass plate (3), or a greenhouse made of other materials (3) (hereinafter, In the greenhouse (3) or greenhouse (3) for short, seawater (8) is introduced into the greenhouse (3) using the ejector (15). Inside the vinyl house (3) where 8) is sprayed and a large amount of seawater is sprayed, the seawater (8) with the seawater (8) sprayed is outside the vinyl house (3). When the sprayed seawater (8), which is heated using solar heat, is heated using solar heat, the fine particles in the sprayed state of the seawater (8) contain water containing salt (Nacl). And fresh water (9), which is water that does not contain any salt (Nacl), and fresh water (9), which is the separated water, has a light specific gravity and becomes water vapor (5), which is vinyl. Inside the house (3), water vapor (5) becomes water droplets (6) and dew condensation occurs. On the other hand, since the water containing salt (Nacl) has a heavy specific gravity, it falls on the surface of the surface layer (2) of the desert inside the vinyl house (3), and the surface layer inside the vinyl house (3) ( The water containing a large amount of salt (Nacl) that has fallen into 2) is collected to form sun-dried salt (17). In this way, seawater (8) made into fine particles in a sprayed state is converted into solar heat. Forcibly causes a dew condensation phenomenon between seawater (8) containing a large amount of salt (Nacl) and fresh water (9) by heating using The background technology is that we have invented and discovered that it is possible to produce a large amount of fresh water (9) by separating it into seawater (8) containing a large amount of) and fresh water (9). ..

The solution is that fresh water can be purified from seawater to produce fresh water and provide fresh water by using the dew condensation phenomenon, which is generated by the temperature difference between the inside and outside, which is the temperature difference between the inside and outside. do.

A greenhouse with a dome shape (3), a greenhouse with a dome shape made of acrylic plate (3), a greenhouse made of glass plate (3), or a greenhouse made of other materials (3) (hereinafter, In the greenhouse (3) or greenhouse (3) for short, seawater (8) is introduced into the greenhouse (3) using the ejector (15). Inside the vinyl house (3) where 8) is sprayed and a large amount of seawater is sprayed, the seawater (8) with the seawater (8) sprayed is outside the vinyl house (3). When the sprayed seawater (8), which is heated using solar heat, is heated using solar heat, the fine particles in the sprayed state of the seawater (8) contain water containing salt (Nacl). And fresh water (9), which is water that does not contain any salt (Nacl), and fresh water (9), which is the separated water, has a light specific gravity and becomes water vapor (5), which is vinyl. Inside the house (3), water vapor (5) becomes water droplets (6) and dew condensation occurs. On the other hand, since the water containing salt (Nacl) has a heavy specific gravity, it falls on the surface of the surface layer (2) of the desert inside the vinyl house (3), and the surface layer inside the vinyl house (3) ( The water containing a large amount of salt (Nacl) that has fallen into 2) is collected to form sun-dried salt (17). In this way, seawater (8) made into fine particles in a sprayed state is converted into solar heat. Forcibly causes a dew condensation phenomenon between seawater (8) containing a large amount of salt (Nacl) and fresh water (9) by heating using The solution is to invent and discover that it is possible to produce a large amount of fresh water (9) by separating it into seawater (8) containing a large amount of) and fresh water (9). ..

It has the effect of purifying fresh water from seawater using the dew condensation phenomenon to produce fresh water.

In addition, there is an effect that fresh water can be purified from seawater to produce fresh water and provide fresh water by using the dew condensation phenomenon, which is generated by the temperature difference between the inside and the outside, which is the temperature difference between the inside and outside. ..

Furthermore, the salt concentration is generated by the temperature difference between the inside and the outside, which is the temperature difference between the inside and outside. It has the effect of producing high seawater.

In addition, the salt concentration is increased by purifying fresh water from seawater to produce fresh water using the dew condensation phenomenon, which is caused by the temperature difference between the inside and outside, and increasing the salt concentration of the seawater. It has the effect of being able to produce sun-dried salt using high seawater.

In addition, 25% of the land on earth is barren land, largely because of the lack of fresh water, where fresh water is purified from seawater at a very low cost to produce fresh water. By being able to produce water and supply fresh water, there is an effect that this barren land can be used as a land for agriculture.

A greenhouse with a dome shape (3), a greenhouse with a dome shape made of acrylic plate (3), a greenhouse made of glass plate (3), or a greenhouse made of other materials (3) (hereinafter, In the greenhouse (3) or greenhouse (3) for short, seawater (8) is introduced into the greenhouse (3) using the ejector (15). Inside the vinyl house (3) where 8) is sprayed and a large amount of seawater is sprayed, the seawater (8) with the seawater (8) sprayed is outside the vinyl house (3). When the sprayed seawater (8), which is heated using solar heat, is heated using solar heat, the fine particles in the sprayed state of the seawater (8) contain water containing salt (Nacl). And fresh water (9), which is water that does not contain any salt (Nacl), and fresh water (9), which is the separated water, has a light specific gravity and becomes water vapor (5), which is vinyl. The inside of the greenhouse (3) becomes water vapor (5) and becomes water droplets (6) to form dew. On the other hand, the water containing salt (Nacl) has a heavy specific gravity, so the greenhouse inside the greenhouse (3) The water containing a large amount of salt (Nacl) that has fallen on the surface layer (2) inside the greenhouse (3) that falls on the surface of the surface layer (2) is collected and combined with the sun-dried salt (17). In this way, the seawater (8) in which the seawater (8) is sprayed into fine particles is heated using solar heat to form a seawater (8) containing a large amount of salt (Nacl). A dew condensation phenomenon is forcibly caused in fresh water (9), and seawater (8) containing a large amount of salt (Nacl) is separated from seawater (8) and fresh water (9) is separated into fresh water (9). The invention and discovery of the ability to produce a large amount of water in 9) has the effect of being able to revegetate the land, which is a barren desert area, as agricultural land.

Figure 1 shows seawater (8) as fresh water (9), or agricultural water, or seawater with high salinity (8) inside a greenhouse or greenhouse (3) using solar heat. ), Or seawater with a high salt concentration (8) containing a large amount of minerals as a seasoning, or seawater with a high salt concentration (8) as a raw material for a seasoning, or table salt that is kind to the human body. FIG. 1 shows a schematic vertical sectional view of a greenhouse (3), which is a simple means for producing fresh water (9), which can be separated from the sun-dried salt using solar heat. .. Figure 2 shows that this seawater (8) is used as fresh water (9), which is used as drinking water using solar heat, or agricultural water, and seawater (8), which has a high salinity, using solar heat. A greenhouse (3), which is a simple means for producing fresh water (9) that can be separated, is buried directly above the foamed styrene box (1), for example, in the farmland where pineapples are cultivated. FIG. 2 shows a schematic vertical cross-sectional view showing that it can be installed in the part of the plant and used as agricultural water necessary for cultivating and growing pineapple. Figure 3 shows fresh water (9) or seawater (8) (hereinafter abbreviated as aqueous solution (22)) using solar heat inside a greenhouse or greenhouse (3). Tropical eels, catfish, using a container (4) (hereinafter abbreviated as a water tank (12)) containing an aqueous solution (22) for the purpose of vaporizing and generating water vapor. Fish and shellfish such as sweetfish, loach, carp, eel, eel, salmon, eel, mackerel, Thailand, manakatsuo, horse mackerel, horse mackerel, mackerel, etc. are placed in a greenhouse or greenhouse (3) with fresh water (9) or FIG. 3 shows a schematic vertical sectional view showing that fish and shellfish can be cultivated inside the target water tank (12) for vaporizing seawater (8) to generate water vapor. Shows. Further, as shown in the figure of FIG. 3, a vinyl greenhouse or a greenhouse (3) is used for the purpose of further separating seawater (8) into sun-dried salt (17) and fresh water (9). ) Is blown with air (19) having a temperature of 100 ° C. or higher. Further, as shown in the figure of FIG. 3, a vinyl greenhouse or a greenhouse (3) is used for the purpose of further separating seawater (8) into sun-dried salt (17) and fresh water (9). ), Seawater (20) having a boiling point of 100 ° C. or higher is sent to the atomizer (15) and passed through the atomizer (15) installed inside the greenhouse or the greenhouse (3). High humidity seawater (20) is sprayed inside a greenhouse or a greenhouse (3). Further, FIG. 3 shows a vertical cross-sectional view in which plants such as lawn, pineapple, strawberry, watermelon, and tomato can be cultivated on the cultivated land (11) in the figure of FIG. FIG. 4 shows a desert area where the daytime temperature is 50 ° C. or higher for the purpose of cultivating various various plants using the aqueous solution (22) which is seawater (8). Or, plant plants in a greenhouse (3) that is highly airtight and sealed, which is installed in a desert area or an area with a high salt concentration (hereinafter referred to as desert). When seawater (8) is drained using a sprayer (15) inside a greenhouse or greenhouse (3) for the purpose of cultivation, the aqueous solution (22), which is seawater (8), becomes vinyl. The internal temperature of the greenhouse or greenhouse (3) rises to around 80 ° C. by being heated by solar heat. From this, the aqueous solution (22), which is the seawater (8) sprinkled inside the greenhouse or the greenhouse (3), is vaporized into steam. The internal temperature of this greenhouse or greenhouse (3) is around 80 ° C., and the humidity is such that the humidity of high temperature and humidity is 99% or more. By sprinkling an aqueous solution (22), which is a very small amount of seawater (8), inside this greenhouse or greenhouse (3), the humidity of high temperature and humidity is 99% or more both underground and underground in the desert. Will be possible. When the aqueous solution (22) which is seawater (8) is sprinkled inside a greenhouse (3) which is highly airtight and sealed, even a very small amount of the aqueous solution (22) which is seawater (8) can be used. By setting the humidity contained in the desert sand (21) to 99% or more both underground and underground, the desert sand (21) can grow plants. It will change the soil (21). Due to the invention and discovery of this phenomenon, various plants such as strawberries, watermelons, melons, melons, mangoes, tomatoes, apples, and oranges can be found inside a highly airtight and sealed greenhouse or greenhouse (3). FIG. 4 shows a schematic vertical sectional view showing a cultivated land (11) in which persimmons, pears, bananas, pineapples, Satsuma potatoes, etc. can be cultivated. Further, as shown in the figure of FIG. 4, a vinyl greenhouse or a greenhouse (3) is used for the purpose of further separating seawater (8) into sun-dried salt (17) and fresh water (9). ) Is blown with air (19) having a temperature of 100 ° C. or higher. Further, as shown in the figure of FIG. 4, a vinyl greenhouse or a greenhouse (3) is used for the purpose of further separating seawater (8) into sun-dried salt (17) and fresh water (9). ), Seawater (20) having a boiling point of 100 ° C. or higher is sent to the atomizer (15) and passed through the atomizer (15) installed inside the greenhouse or the greenhouse (3). High humidity seawater (20) is sprayed inside a greenhouse or a greenhouse (3). Further, FIG. 4 shows a vertical cross-sectional view in which plants such as lawn, pineapple, strawberry, watermelon, and tomato can be cultivated on the cultivated land (11) in the figure of FIG. What is shown in FIG. 5 is exactly the same as the content described in FIG. However, as shown in FIG. 5, seawater (8) is replaced with fresh water (9) inside a greenhouse (3) or a greenhouse (3) (hereinafter, abbreviated as vinyl house (3)). Seawater (8) is sprayed inside the greenhouse (3), and seawater (8) is sprayed inside the greenhouse (3) using a pump (16) for the purpose of separating a large amount of salt and sun salt (17). Using 15), the seawater (8) is sprayed inside the vinyl house (3) and a large amount of the seawater (8) is sprayed. As a result, a large amount of seawater (8) is vaporized into water vapor inside the hot and humid vinyl house (3). This water vapor adheres to the inner wall of the vinyl house (3) and becomes water droplets (6). In order to collect these water droplets (6) to make drinking water, agricultural water, or other domestic water, a tub-shaped object (1) is formed inside the vinyl house (3) to collect fresh water (9). It's watering. From this, seawater (8) is sprayed inside the vinyl house (3) using a sprayer (15), and fresh water (9) and sun-dried salt (17) are separated using solar heat. FIG. 5 shows a schematic vertical cross-sectional view in which fresh water (9) can be produced from seawater (8) very easily, which enables a large amount of water to be produced. Further, as shown in the figure of FIG. 5, the inside of the vinyl house (3) is for the purpose of further separating the seawater (8) into the sun-dried salt (17) and the fresh water (9). Air (20) of 100 ° C. or higher is blown into the room. Further, as shown in the figure of FIG. 5, the inside of the vinyl house (3) is for the purpose of further separating the seawater (8) into the sun-dried salt (17) and the fresh water (9). Seawater (20) having a boiling point of 100 ° C. or higher is sent to the atomizer (15), and the high humidity seawater (8) is sent through the atomizer (15) installed inside the vinyl house (3). ) Is sprayed inside the vinyl house (3), and a schematic view of a vertical sectional view is shown in FIG. Furthermore, as shown in Fig. 5, the location is 5-3-7 Torikai, Settsu-shi, Osaka, the company name is manufactured and sold by Super Industry Co., Ltd., and the product name is SFJ3200. FIG. 5 shows a schematic diagram in which when seawater (8) is sprayed inside the greenhouse (3), the spray amount is 300 liters of seawater (8) per hour. ..

Example 1 is to forcibly cause a dew condensation phenomenon to separate seawater into seawater having a high salt concentration and freshwater to produce a large amount of freshwater.

Example 2 is a case where fresh water can be purified from seawater to produce fresh water by using the dew condensation phenomenon, which is generated by the temperature difference between the inside and the outside, which is the temperature difference between the inside and the outside.

It is generated by the temperature difference between the inside and the outside, which is the temperature difference between the inside and outside. Example 3 is the production of seawater.

Seawater with high salinity is generated by the temperature difference between the inside and outside, which is the temperature difference between the inside and the outside. It is referred to as Example 4 that the sun-dried salt can be produced by using.

Twenty-five percent of the land on earth is barren land, largely because there is no fresh water. In this barren land, fresh water is purified from seawater at a very low cost to produce fresh water. In Example 5, this barren land can be utilized as an agricultural land by being able to supply fresh water.

A greenhouse with a dome shape (3), a greenhouse with a dome shape made of acrylic plate (3), a greenhouse made of glass plate (3), or a greenhouse made of other materials (3) (hereinafter, In the greenhouse (3) or greenhouse (3) for short, seawater (8) is introduced into the greenhouse (3) using the ejector (15). Inside the vinyl house (3) where 8) is sprayed and a large amount of seawater is sprayed, the seawater (8) with the seawater (8) sprayed is outside the vinyl house (3). When the sprayed seawater (8), which is heated using solar heat, is heated using solar heat, the fine particles in the sprayed state of the seawater (8) contain water containing salt (Nacl). And fresh water (9), which is water that does not contain any salt (Nacl), and fresh water (9), which is the separated water, has a light specific gravity and becomes water vapor (5), which is vinyl. Inside the house (3), water vapor (5) becomes water droplets (6) and dew condensation occurs. On the other hand, since the water containing salt (Nacl) has a heavy specific gravity, it falls on the surface of the surface layer (2) of the desert inside the vinyl house (3), and the surface layer inside the vinyl house (3) ( The water containing a large amount of salt (Nacl) that has fallen into 2) is collected to form sun-dried salt (17). In this way, seawater (8) made into fine particles in a sprayed state is converted into solar heat. Forcibly causes a dew condensation phenomenon between seawater (8) containing a large amount of salt (Nacl) and fresh water (9) by heating using ) Is separated into seawater (8) containing a large amount of fresh water (9) and fresh water (9) can be produced in a large amount as Example 6.

It may be possible to purify fresh water from seawater using the phenomenon of dew condensation to produce fresh water.

In addition, there is a possibility that fresh water can be purified from seawater to produce fresh water by using the dew condensation phenomenon, which is generated by the temperature difference between the inside and the outside, which is the temperature difference between the inside and outside.

Furthermore, the salt concentration is generated by the temperature difference between the inside and the outside, which is the temperature difference between the inside and outside. May be able to produce high seawater.

In addition, the salt concentration is increased by purifying fresh water from seawater to produce fresh water using the dew condensation phenomenon, which is caused by the temperature difference between the inside and outside, and increasing the salt concentration of the seawater. It may be possible to produce sun-dried salt using high seawater.

In addition, 25% of the land on earth is barren land, largely because of the lack of fresh water, where fresh water is purified from seawater at a very low cost to produce fresh water. By being able to produce water and supply fresh water, there is a possibility that this barren land can be used as a land for agriculture.

In addition, fresh water (9) and sun-dried salt (17) are used inside the greenhouse (3) or greenhouse (3) (hereinafter abbreviated as vinyl house (3)) using the sun's heat to convert the seawater (8) into a vinyl house (3). ) And may be able to be separated.

Furthermore, for the purpose of separating a large amount of seawater (8) into fresh water (9) and sun-dried salt (17), seawater (8) is used inside the greenhouse (3) and a pump (10) is used. Then, the seawater (8) is sprayed in a large amount by using the sprayer (15) to spray the seawater (8) inside the vinyl house (3). As a result, a large amount of seawater (8) is vaporized into water vapor inside the hot and humid vinyl house (3). This water vapor adheres to the inner wall of the vinyl house (3) and becomes water droplets (6). In order to collect these water droplets (6) to make drinking water, agricultural water, or other domestic water, a tub-shaped object (1) is formed inside the vinyl house (3) to collect fresh water (9). It's watering. From this, seawater (8) is sprayed inside the vinyl house (3) using a sprayer (15), and fresh water (9) and sun-dried salt (17) are separated using solar heat. There is a possibility that fresh water (9) can be produced from seawater (8) very easily, which enables a large amount of work to be done.

A greenhouse with a dome shape (3), a greenhouse with a dome shape made of acrylic plate (3), a greenhouse made of glass plate (3), or a greenhouse made of other materials (3) (hereinafter, In the greenhouse (3) or greenhouse (3) for short, seawater (8) is introduced into the greenhouse (3) using the ejector (15). Inside the vinyl house (3) where 8) is sprayed and a large amount of seawater is sprayed, the seawater (8) with the seawater (8) sprayed is outside the vinyl house (3). When the sprayed seawater (8), which is heated using solar heat, is heated using solar heat, the fine particles in the sprayed state of the seawater (8) contain water containing salt (Nacl). And fresh water (9), which is water that does not contain any salt (Nacl), and fresh water (9), which is the separated water, has a light specific gravity and becomes water vapor (5), which is vinyl. Inside the greenhouse (3), water vapor (5) becomes water droplets (6) and becomes dew, while the water containing salt (Nacl) has a heavy specific gravity, so the greenhouse inside the vinyl house (3) The water containing a large amount of salt (Nacl) that has fallen on the inner surface layer (2) of this vinyl house (3) that falls on the surface of the surface layer (2) is collected and combined with the sun-dried salt (17). In this way, the seawater (8) in which the seawater (8) is sprayed into fine particles is heated using solar heat to form a seawater (8) containing a large amount of salt (Nacl). A dew condensation phenomenon is forcibly caused in fresh water (9), and seawater (8) containing a large amount of salt (Nacl) is separated from seawater (8) and fresh water (9) is separated into fresh water (9). Having invented and discovered that 9) can produce a large amount of water may be able to revegetate the land, which is a barren desert area, as agricultural land.

1 A tub or tub-shaped object, or cardboard box, or a box made of chemical products (1), or a container made of chemical products (1), or a foamed styrene box, or Nature Works, which is headquartered in the United States. A polylactic foam agricultural box (1) (hereinafter abbreviated as a tub-shaped object), which was researched and developed by, and whose raw material is a plant whose trade name is ingeo, for example, corn is made of the raw material. (1), or foamed styrene box (1), or polylactic foamed agricultural box (1), or polylactic acid foamed agricultural container (1), or box (1), or container (1))
2 Surface layer on the surface of desert or soil (hereinafter referred to as surface layer (2) for short)
3 Dome-shaped greenhouse (3), dome-shaped greenhouse made of acrylic plate (3), greenhouse made of glass plate (3), or greenhouse made of other materials (3) (hereinafter, Abbreviated as vinyl house (3))
4 Container for containing seawater (4) (hereinafter referred to as container (4) for short)
5 steam (5)
6 Steam (5), which is made by vaporizing seawater using solar heat to make steam (5), is a greenhouse made of glass plate with a gable roof shape (3) or a greenhouse made of acrylic plate with a dome shape (5). 3) Water vapor (6) (hereinafter referred to as water droplets) in which water vapor (5) adhering on the back surface of a greenhouse (hereinafter abbreviated as a vinyl house (3) or a greenhouse (3) made of an acrylic plate) is a water droplet. Abbreviated as water droplet (6))
7 Water droplets (6) adhering to the back surface of a gabled roof-shaped glass plate greenhouse (3) or a dome-shaped acrylic plate greenhouse (3) are collected from a gabled roof-shaped glass plate. A beverage made from seawater using solar heat to make fresh water using a tub-shaped object (7) mounted on the back of a greenhouse (3) made of glass or a greenhouse (3) made of dome-shaped acrylic plate. Target tub-shaped object (7) for collecting water (hereinafter, abbreviated as tub-shaped object (7))
8 seawater (8)
9 Fresh water (9)
10 Submersible pump (10) (hereinafter abbreviated as pump (10))
11 Cultivated land (11)
12 Aquarium (12) used for the purpose of aquaculture of fish and shellfish inside the vinyl house (3) (hereinafter, abbreviated as aquarium (12)).
13 Aquatic plants (Aquatic plants that absorb highly toxic ammonium ions excreted by fish and shellfish as fertilizer and decompose them into less toxic nitrite and nitric acid 13
14 Fence (14) for the purpose of separating fish and shellfish and aquatic plants (13) (hereinafter, abbreviated as fence (14))
15 Seawater (8) or fresh water (9) (hereinafter, abbreviated as an aqueous solution (15)) is passed through the aqueous solution (15) inside the vinyl house (3), and the vinyl house (3) A sprayer (15) or a sprinkler (15) used for the purpose of making the humidity inside the greenhouse 99% or more (hereinafter, abbreviated as a sprayer (15) or a sprinkler (15)).
16 pump (16)
17 Sun-dried salt (17)
18 Heavy oil for heating the inside of a vinyl house (3) or a greenhouse (3) (hereinafter abbreviated as vinyl house (3)), or a heater (18) (hereinafter abbreviated as fuel) that uses electricity as fuel. , Heater (18))
19 Air (19) heated to 100 ° C. or higher blown out from the heater (18) (hereinafter, abbreviated as high temperature air (19)).
20 Seawater (20) whose boiling point has been raised to 100 ° C. or higher, which is the boiling point (hereinafter, abbreviated as seawater (20)).
21 Sand (21) or soil (21)
22 aqueous solution (22)

Claims (2)

A method of producing fresh water from seawater, which is characterized in that a large amount of fresh water can be produced by forcibly causing a dew condensation phenomenon and separating the seawater into seawater having a high salt concentration and fresh water. A greenhouse with a dome shape (3), a greenhouse with a dome shape made of acrylic plate (3), a greenhouse made of glass plate (3), or a greenhouse made of other materials (3) (hereinafter, In the greenhouse (3) or greenhouse (3) for short, seawater (8) is introduced into the greenhouse (3) using the ejector (15). Inside the vinyl house (3) where 8) is sprayed and a large amount of seawater is sprayed, the seawater (8) with the seawater (8) sprayed is outside the vinyl house (3). When the sprayed seawater (8), which is heated using solar heat, is heated using solar heat, the fine particles in the sprayed state of the seawater (8) contain water containing salt (Nacl). And fresh water (9), which is water that does not contain any salt (Nacl), and fresh water (9), which is the separated water, has a light specific gravity and becomes water vapor (5), which is vinyl. Inside the house (3), water vapor (5) becomes water droplets (6) and dew condensation occurs. On the other hand, since the water containing salt (Nacl) has a heavy specific gravity, it falls on the surface of the surface layer (2) of the desert inside the vinyl house (3), and the surface layer inside the vinyl house (3) ( The water containing a large amount of salt (Nacl) that has fallen into 2) is collected to form sun-dried salt (17). Forcibly causes a dew condensation phenomenon between seawater (8) containing a large amount of salt (Nacl) and fresh water (9) by heating using sodium chloride (Nacl) from seawater (8). From seawater, which is characterized by inventing and discovering that it is possible to produce a large amount of fresh water (9) by separating it into seawater (8) and fresh water (9), which contain a large amount of fresh water. How to make fresh water.

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