KR101278146B1 - Cultivating system of seaweed using hot discharging water of power plant - Google Patents

Abstract

PURPOSE: A system for culturing a large amount of marine algae and microalgae using hot waste water from a power plant is provided to maintain productivity of marine algae and microalgae which are sensitive by temperature change, to use the hot waste water as cooling water of the power plant, and to discharge the hot waste water as cooling water without change of water temperature in the sea. CONSTITUTION: A culturing system comprises a warm water discharging pipe(12), a warm water pipe(16), one or more water tank devices(20), and a cooling water pipe(18). The warm water discharging pipe is used for discharging hot waste water from a power plant(10) and a factory. The warm water pipe is connected to the warm water discharging pipe and transfers warm water. The water tank device is connected to the warm water pipe at one side and is used for culturing sea algae and microalgae. The cooling water pipe is connected to the other side of the water tank device for transferring the cooling water. The culturing system has an inner tank and an outer tank. The outer tank stores warm water, and is connected to the warm water pipe at one side and with the cooling water pipe at the other side. The inner tank is mounted in the outer tank and contains a culture medium, the sea algae, and the microalgae. A separate space is formed between the inner tank and the outer tank and is filled with warm water.

Description

CULTIVATING SYSTEM OF SEAWEED USING HOT DISCHARGING WATER OF POWER PLANT}

The present invention relates to a mass culture system of algae and microalgae using the power plant warm water, and more specifically, the power plant on the water drainage to stably produce algae and microalgae regardless of environmental changes by using the warm water waste water that is discarded as wastewater of the power plant It relates to a seaweed and microalgae mass culture system using.

Recent algae Efforts to obtain and industrialize various useful materials through microalgae biomass are underway in various fields at home and abroad. In addition, algae and microalgae are known to have a higher ability to absorb and reduce carbon dioxide, a major cause of global warming, compared to land plants.

Therefore, research is being actively conducted on high density mass culture and efficient and steady harvesting of algae and microalgae at home and abroad. However, Korea has four distinct seasons, and depending on the type, there is a cold season that is less than 25 ℃, which is the normal growth temperature for seaweed and microalgae, so it is very difficult to produce a steady harvest. For this, a large amount of energy is required, which is low in efficiency due to an increase in production cost.

In order to solve this problem, the industrial law using waste heat of power plants has been in the spotlight. Power plant on-water drainage is a by-product of electric energy production, and the temperature is high as water is taken away when condensing the remaining steam by the generator turbine, and the hot water is being sent directly to the sea, which is damaging the marine environment. In addition, the deterioration of the marine environment continues to increase due to the increase in power plant construction.

The temperature of the hot water discharged from the power plant is 7 ~ 13 ℃ higher than the ambient temperature. The water temperature is the second most important environmental factor after the light in the marine ecosystem, and the geographical distribution of marine life is determined by the water temperature. All physical and chemical reaction rates and reaction results in the water also vary with temperature, and the enormous energy loaded on the marine ecosystem in the form of warm water changes the water temperature distribution in the surrounding waters and affects the marine ecosystem directly or indirectly. to be.

Therefore, it is necessary to develop a technology that can reduce the amount of warm water discharged by maintaining the temperature of the algae and microalgae cultivation temperature by using the power plant warm water drainage, and recover the sea water temperature in the natural state to enter the sea.

An object of the present invention is to solve the problems as described above, and used with a tank capable of mass cultivation that can be connected to the hot water supply device and the hot water supply for maintaining the temperature of the seaweed and microalgae mass cultivation tank in the hot water drainage outlet in the power plant It is to provide a large-scale algae and microalgae cultivation system using power plant warm water to recycle hot water.

Another object of the present invention is to provide a mass culture system of algae and microalgae using a power plant on-water drainage to stably produce a large-scale culture of algae and microalgae regardless of environmental changes by using the warm waste water to be discharged to the power plant wastewater. .

Still another object of the present invention is to provide a mass culture system of algae and microalgae using a power plant on-water drainage having an inner tank and an outer tank so that the algae and microalgae can be incubated in a large amount by a bath.

In order to achieve the above object, the seaweed algae and microalgae mass culture system using a power plant on-water drainage according to an embodiment of the present invention,

Hot water discharge pipes for discharging warm water from a power plant or a factory; A hot water pipe connected to the hot water discharge pipe to transfer hot water; At least one water tank device connected to one side of the hot water pipe and for culturing algae and microalgae therein; And a cooling water pipe connected to the other side of the water tank device to transfer the cooling water from the water tank device.

The water tank device, so that the hot water pipe is connected to one side and the cooling water pipe is connected to the other side, so as to have a structure of a hot water bath, an external tank for storing hot water; And an inner tank installed inside the outer tank and containing a culture solution, algae, and microalgae.

Spaced spaces are formed between the inner tank and the outer tank, and the hot water introduced by the hot water pipe is filled in the space.

According to another embodiment of the present invention, a large-scale algae and microalgae cultivation system using a power plant warm water drainage system includes: a hot water discharge pipe for discharging warm water from a power plant or a factory; A hot water pipe connected to the hot water discharge pipe to transfer hot water; At least one water tank device connected to one side of the hot water pipe and for culturing algae and microalgae therein; And a cooling water pipe connected to the other side of the water tank device to transfer the cooling water from the water tank device.

The water tank apparatus, the outer tank that can store the fluid to have a structure of the bath; An inner tank installed inside the outer tank and containing a culture solution, algae, and microalgae; And a heat exchanger installed in a space formed between the inner tank and the outer tank, one side of which is connected to a hot water pipe and the other side of which is connected to a cooling water pipe.

The heat exchanger includes: a first heat exchanger tube zigzag in both vertical directions of the space; And a second heat exchange tube zigzag in the horizontal direction of the bottom surface of the space.

One side of the hot water pipe is provided with a supply control valve for controlling the supply of hot water, one side of the cooling water pipe is characterized in that the discharge control valve for controlling the discharge of the heat exchange is performed.

Characterized in that the temperature sensor is further installed in the inner tank or the outer tank.

According to the present invention, the temperature of the wastewater of the power plant waste heat is used to maintain the temperature of the algae and microalgae large-scale culture tank, there is an effect that can continuously maintain the production of algae and microalgae sensitive to temperature changes.

According to the present invention, the wastewater used in the wastewater discharged to the sea, and the wastewater used by the algae and microalgae cultivation tanks, can be used again as a power plant cooling water and discharge cooling water that does not change the water temperature in the sea. Resource cyclic effect can be realized.

According to the present invention, it is possible to obtain the effect of culturing a large amount of algae and microalgae contained in the inner tank by flowing the warm water of the power plant between the inner tank and the outer tank.

1 is an exemplary view schematically showing a seaweed and microalgae mass culture system using a power plant on-water drainage according to the present invention.
Figure 2 is a view showing an embodiment of a water tank apparatus for culturing seaweeds and microalgae according to the present invention.
3 is a cross-sectional view of Fig.
Figure 4 is a view showing another embodiment of the water tank apparatus for culturing seaweeds and microalgae according to the present invention.
5 is a cross-sectional view of FIG. 4.

Hereinafter, various embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exemplary view schematically showing a seaweed and microalgae mass culture system using a power plant on-water drainage according to the present invention.

Algae and microalgae mass culture apparatus according to the present invention should be installed using the space around the power plant or factory 10 for efficient cultivation. The water tank device 20 installed in the space around the power plant corrects the temperature in the incubator due to the seasonal temperature drop due to the warm water discharged from the power plant. It is a structure that can cycle resources.

As shown in FIG. 1, the power plant or the factory 10 uses seawater through the seawater inlet pipe 11 to use the cooling water at the time of condensation through the condenser, and the used cooling water has a temperature due to heat taken away during condensation. It is increased to be converted into warm water, the converted hot water is discharged to the sea through the hot water discharge pipe (12).

The algae and microalgae mass culture system according to the present invention, the hot water pipe 16 is connected to the hot water discharge pipe 12 to transfer hot water, one side is connected to the hot water pipe 16 and the seaweed and microalgae therein A water tank device 20 for culturing, and a coolant pipe 18 connected to the other side of the water tank device 20 to transfer the coolant from the water tank device 20.

A hot water switching device 15 is installed at the coupling portion of the hot water discharge pipe 12 and the hot water pipe 16 to replenish hot water through the hot water pipe 16 when the temperature in the water tank device 20 decreases. Do it. The hot water switching device 15 may be operated automatically or manually.

As illustrated in FIG. 1, one or more of the water tank devices 20 may be installed as necessary. Accordingly, the hot water pipe 16 may be branched and connected to each water tank device 20.

Cooling water switching device 30 may be installed at one end of the cooling water pipe (18). The coolant switching device 30 is connected to a coolant return pipe 31 for returning the coolant to the power plant or factory 10, and a coolant discharge pipe 33 for discharging the coolant to the sea.

The cooling water return pipe 31 is connected to one side of the sea water inlet pipe 11, it is possible to introduce the cooling water into the power plant or factory (10).

The hot water discharge pipe (12), hot water pipe (16), cooling water pipe (18), cooling water return pipe (31), cooling water discharge pipe (33) and sea water inlet pipe (11) are all coated with a plastic polymer or anticorrosive paint or It can be made of stainless steel pipe.

Looking at the operation of the seaweed and microalgae mass culture system according to the present invention.

As indicated by the arrows in FIG. 1, the hot water discharged from the power plant or the factory 10 may be introduced into the hot water pipe 16 by the operation of the hot water switching device 15. The hot water introduced into the hot water pipe 16 is heat-exchanged while passing through the water tank device 20 to heat the culture solution filled in the water tank device 20 to an appropriate temperature, and converts itself into cooling water. The coolant heat exchanged while passing through the water tank device 20 is transferred through the coolant pipe 18.

The conveyed coolant may be introduced into the power plant 10 through the coolant return tube 31 and reused as coolant according to the operation of the coolant switching device 30, or may be discharged into the sea via the coolant discharge pipe 33. have.

Figure 2 is a view showing an embodiment of a water tank apparatus for culturing seaweeds and microalgae according to the present invention, Figure 3 is a cross-sectional view of FIG.

As shown in Figures 2 and 3, the water tank apparatus according to an embodiment of the present invention has a water bath type of the water bath system having an inner tank 61 and an outer tank 63. That is, the inner tank 61 is installed by the plurality of support members 65 in the inside of the outer tank 63, and the space S spaced apart between the inner tank 61 and the outer tank 63. This is the structure that is formed.

The space S spaced between the inner tank 61 and the outer tank 63 is filled with hot water supplied from the hot water pipe 16, and the inner tank 61 contains a culture solution 50 and the culture solution. In 50, various seaweeds and microalgae are cultured.

 The hot water filled in the space S is discharged through the cooling water pipe 18 after heating the culture solution 50 contained in the inner tank 61 by heat exchange.

One side of the hot water pipe 16 is provided with a supply control valve 41 for controlling the supply of hot water, the supply control valve 41 is controlled by the controller 80.

One side of the cooling water pipe 18 is provided with a discharge control valve 43 for controlling the discharge of hot water filled in the space (S), the discharge control valve 43 is controlled by the controller 80 do.

One side of each of the inner tank 61 and the outer tank 63 is provided with a temperature sensor 27, the controller 80 by sensing the temperature of the culture medium 50 and the temperature of the hot water filled in the space (S) from time to time By transmitting to), it is possible to control the supply control valve 41 through the control unit 80 to adjust the supply of hot water.

For example, through the control of the controller 80, when the temperature of the culture medium 50 is lower than the set temperature, the hot water supply can be introduced into the space (S) by opening the supply control valve 41, the culture medium ( When the temperature of 50) reaches the set temperature, the supply control valve 41 is closed to stop the hot water flowing into the space (S).

In addition, even when the temperature of the hot water filled in the space (S) is lower than the set temperature, the hot water supply can be introduced into the space (S) by opening the supply control valve 41, the hot water (filled in the space (S) When the temperature of 55 reaches the set temperature, the supply control valve 41 is closed to stop the hot water flowing into the space S.

A cover 21 that can be opened and closed may be installed at an upper portion of the tank 23. Therefore, when the snow or rain in the open part can be blocked by covering the cover (21). The cover 21 may be made of a transparent material.

4 is a view showing another embodiment of a water tank apparatus for culturing seaweeds and microalgae according to the present invention, Figure 5 is a cross-sectional view of FIG.

4 and 5 show a water tank apparatus according to another embodiment of the present invention, the same configuration as the water tank apparatus according to an embodiment of the present invention will be denoted by the same reference numerals, detailed description thereof also Since it has already been described, it will be omitted.

In the space (S) spaced between the inner tank 61 and the outer tank 63 is filled with a fluid 58, such as water, the heat exchange device 160 is installed in the fluid.

One side of the heat exchanger 160 is connected to the hot water pipe 16, the other side thereof is connected to the cooling water pipe (18).

The heat exchanger 160 includes a first heat exchanger tube 161 that is zigzag vertically on both sides of the space S, and a second heat exchanger tube 162 that is zigzag installed horizontally on the bottom surface of the space S. It includes.

The inlet of the first heat exchanger tube 161 and the second heat exchanger tube 162 is connected to the hot water pipe 16 to allow hot water to flow in. The outlet is connected to the coolant pipe 18 to cool the water. Is a structure that can be discharged.

In other words, the hot water transferred through the hot water pipe 16 flows branched into the first heat exchange pipe 161 and the second heat exchange pipe 162 and exchanges heat with the fluid 58 filled in the space S. Will be performed. The hot water subjected to the heat exchange is converted into cooling water and is transferred through the cooling water pipe 18.

The first heat exchanger tube 161 and the second heat exchanger tube 162 heat the fluid 58 filled in the space S by heat exchange, and the heated fluid 58 is heated by the hot water method. The culture medium filled in the tank 61 may be indirectly heated.

All configurations or operations other than the configuration of the heat exchanger 160 as described above are the same as the configuration or operation of the water tank apparatus according to an embodiment of the present invention.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

10: power plant 11: seawater inlet pipe
12: hot water discharge pipe 15: hot water switching device
16: hot water pipe 18: cooling water pipe
20: water tank device 30: coolant switching device
31: cooling water return pipe 33: cooling water discharge pipe
61: inner tank 63: outer tank
65: support member 80: control unit
160: heat exchanger 161: first heat exchanger tube
162: second heat exchange tube S: space

Claims (5)

Hot water discharge pipes for discharging warm water from a power plant or a factory; A hot water pipe connected to the hot water discharge pipe to transfer hot water; At least one water tank device connected to one side of the hot water pipe and for culturing algae and microalgae therein; And a cooling water pipe connected to the other side of the water tank device to transfer the cooling water from the water tank device.
The water tank device, so as to have a structure of a bath.
An external tank connected to one side of the hot water pipe and connected to the other side of the cooling water pipe to store hot water; And
And an inner tank installed inside the outer tank and containing a culture solution, algae, and microalgae.
Spaced space is formed between the inner tank and the outer tank, and the algae and microalgae mass culture system using a power plant on-water drainage, characterized in that the space is filled with hot water introduced by the hot water pipe. Hot water discharge pipes for discharging warm water from a power plant or a factory; A hot water pipe connected to the hot water discharge pipe to transfer hot water; At least one water tank device connected to one side of the hot water pipe and for culturing algae and microalgae therein; And a cooling water pipe connected to the other side of the water tank device to transfer the cooling water from the water tank device.
The water tank device, so as to have a structure of a bath.
An external tank capable of storing fluids;
An inner tank installed inside the outer tank and containing a culture solution, algae, and microalgae; And
It is installed in the space formed between the inner tank and the outer tank, one side is connected to the hot water pipe, the other side is a heat exchange device connected to the cooling water pipe; algae and microalgae mass culture system using a power plant warm water, characterized in that it comprises a. The method of claim 2,
The heat exchanger,
First heat exchange tubes zigzag in both vertical directions of the space; And
A second heat exchange tube is zigzag installed in the horizontal direction of the bottom surface of the space; Algae and microalgae mass culture system using a power plant on-water drainage comprising a. 4. The method according to any one of claims 1 to 3,
One side of the hot water pipe is provided with a supply control valve for regulating the supply of hot water, one side of the cooling water pipe is installed on the power plant, characterized in that the discharge control valve for controlling the discharge of the cooling water is performed heat exchanger is installed Seaweed and microalgae mass culture system using. 4. The method according to any one of claims 1 to 3,
Seaweed and microalgae mass culture system using a power plant warm water, characterized in that the temperature sensor is further installed in the inner tank or the outer tank.

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