KR101427382B1 - Block type culture tank for micro algae - Google Patents

Abstract

The present invention relates to a block type microalgae culture tank, and more particularly, to a method and apparatus for cultivating a microalgae culture tank having various types and sizes according to an area where a culture tank is required by providing a conventional integrated culture tank And more particularly to a block-type microalgae culture tank capable of inserting a light source and a temperature-controlling fluid into each assembly block, thereby enabling a constant temperature control in a culture tank.
In the present invention, a culture tank for culturing microalgae is formed of a plurality of blocks, and the culture tank block is provided in a container-like structure when the culture tank block is assembled, and the culture tank block is composed of four corner type blocks and at least one or more rectangular blocks A groove portion having an inner diameter smaller than the outer diameter of the block side surface is formed on one side surface of the block and the other side surface of the block is formed so as to correspond to the groove portion and inserted into the groove portion, And the inside of the micro-algae culture tank is connected to the micro-algae culture tank.

Description

Block type culture tank for microalgae

The present invention relates to a block-type microalgae culture tank, and more particularly, to a method and apparatus for cultivating a microalgae culture tank having various types and sizes according to an area where a culture tank is required by providing a conventional integrated culture tank And more particularly to a block-type microalgae culture tank capable of inserting a light source and a temperature-controlling fluid into each assembly block, thereby enabling a constant temperature control in a culture tank.

In Korea, a reservoir formed by various dams such as multipurpose dams due to lack of water resources is used as an important water source. However, due to rapid urbanization and industrialization, many rivers contaminated by domestic sewage, factory wastewater and livestock waste wastewater become water sources More than half of the domestic appeals are eutrophicated or in progress as they enter the resort.

To solve this problem, the government has invested heavily in sewage treatment projects such as converting the existing activated sludge process to advanced treatment process. However, domestic sewage has a very low organic matter content, which limits the effective removal of nitrogen and phosphorus, which are the causes of eutrophication. Recently, phosphorus chemical treatment has been introduced for effluent from wastewater treatment plants.

However, even if chemical treatment such as treatment water or flocculation of biological treatment process, which is a domestic high-level sewage treatment process, is applied, the concentration of phosphorus in effluent water is 0.5 ~ 1.0 mg / L, . In addition, as regulations on total phosphorus in sewage treatment plants have been strengthened, more than 200 billion won per year is used for chemical treatment of phosphorus. Secondly, there is a problem of chemical pollution caused by the use of chemical flocculant. It is urgent to present it to the solution.

In addition, since marine dumping of livestock wastewater is completely prohibited in 2013, it is inevitable that the sewage treatment plant is linked to the sewage treatment plant, and the water quality standard of discharged water at the treatment plant is also very low.

In order to solve this problem, the advanced treatment method of sewage using algae treatment to remove nitrogen and phosphorus from discharged water by using microalgae having a high accumulation function for nitrogen and phosphorus in the effluent of the secondary treatment water of the sewage treatment plant, . When nitrogen and phosphorus are removed by using microalgae, not only the treatment efficiency is higher than that of the conventional chemical treatment process, but also the treatment cost can be reduced, and it is possible to produce energy using the microalgae cultured in the process And so on.

In order to commercialize microalgae culture, it is necessary to cultivate outdoors. However, since the outdoor culturing tanks are installed in a fixed form on the ground in the form of an integrated bathtub using concrete or the like, once installed culture tanks can not be changed or moved, and a device for maintaining the temperature according to external temperature changes There is a problem that it must be provided separately. Currently, the temperature is controlled by controlling the temperature through a vinyl house facility or by using a sprinkler.

Temperature control using a greenhouse is a primary defense against sudden temperature fluctuations and seasonal temperature changes in the cultivation of a greenhouse, and a culture tank is installed inside a greenhouse. In this case, there is a problem that an expensive vinyl house facility is required. Especially, the vinyl house of tempered glass or transparent plastic is used as the outer appearance, the first temperature is controlled by opening and closing the side and the roof, and the second temperature is controlled by installing the large and cold air conditioner inside. Therefore, there is a problem that the facility cost is high and the operation cost is relatively large.

In addition, it is difficult to control the temperature with homeostasis. This is because the temperature difference between the culture medium in the culture tank and the inside of the vinyl house is significant and the temperature control inside the culture tank can not be rapidly progressed even if the temperature inside the vinyl house is changed. It is difficult to keep the temperature of the greenhouse constantly. Therefore, in order to keep the temperature of the culture tank at a constant level only by the temperature control inside the greenhouse, the additional cost is required.

The temperature control using the sprinkler is controlled by controlling the temperature through the vaporizing heat by using the sprinkler installed outside the incubation tank in a way that is always used at a high temperature and a lot of sunshine and in a region with low climate change. In this case, there is a problem that it is difficult to control the temperature in the geographical position and climate of our country, although it is easy in the desert area where the temperature deviation is large and consumes a lot of water and the specific climate is maintained. Particularly, this method does not become warm, and even if the sprinkler is rotated by using water having a high temperature, it consumes a large amount of energy, which is very inefficient.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems of the prior art. That is, an object of the present invention is to provide a method and apparatus for easily forming and changing a culture tank having various shapes and sizes according to an area where a culture tank is required, and in particular, a light source and a temperature- The present invention relates to a block-type microalgae culture tank capable of constant temperature control within a tank.

Technical Solution In order to achieve the above object, the present invention provides a culture tank for culturing a microalgae, the culture tank being formed of a plurality of blocks and having a container-like structure when the culture tank block is assembled, Shaped block and at least one rectangular block, and a groove portion having an inner diameter smaller than the outer diameter of the block lateral surface is formed on one side surface, and the other side surface of the block is formed to correspond to the groove portion, And the inside of the culture tank block is connected when the groove corresponding part is inserted into the culture tank.

In addition, the culture tank block of the present invention is formed by winding a vinyl tube of a double layer in a coil shape. One end of the vinyl tube is connected to the other end of the next culture tube block vinyl tube and the outside is sealed by a separate fastening means, Wherein the temperature regulating fluid is introduced through the vinyl tube of the incubation block and the temperature regulating fluid flows out through the vinyl tube of the last incubation block to circulate the temperature regulating fluid in the whole culture tank. Thereby providing a culture tank.

The block-type culture tank according to the present invention is formed into a plurality of block types unlike the conventional culture tank which was unchangeable when installed once, so that the culture tank having various shapes and sizes can be easily installed And it is possible to easily change the size of the culture tank installed according to the seasonal external temperature and the microalgae to be cultivated. In addition, since the light source and the temperature control fluid can be inserted into each of the assembling blocks, it is possible to control the temperature constantly in the incubator.

1 is a perspective view of a block-type microalgae culture tank according to an embodiment of the present invention;
FIG. 2 is a perspective view showing the insertion structure of the block-type microalgae culture tank shown in FIG. 1. FIG.
3 is a perspective view of a block-type microalgae culture tank according to another embodiment of the present invention.
FIG. 4 is a perspective view showing the connection structure of the block-type microalgae culture tank shown in FIG. 3;

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

FIG. 1 is a perspective view of a block-type microalgae culture tank according to an embodiment of the present invention, and FIG. 2 is a perspective view illustrating an insertion structure of the block-type microalgae culture tank shown in FIG.

As shown in FIG. 1, the block type microalgae culture apparatus according to the present invention comprises four edge type culture block 110a and a plurality of rectangular culture block 110b corresponding to the corners of the culture tank, When assembled, it is constructed as a large container-like structure, and its overall shape is composed of a structure similar to the contour of an on-track stadium where a semicircular space is integrated with both longitudinal sides of a rectangular space.

That is, a desired number of the rectangular culture blocks 110b are inserted between the four corner type culture blocks 110a corresponding to each corner of the container shape, thereby controlling the length and width of the culture tank. Accordingly, the culture tank having various shapes and sizes can be easily installed according to the topography of the area where the culture tank is required, and the size of the culture tank installed according to the seasonal external temperature and the type of microalgae to be cultivated can be easily changed .

As shown in FIG. 2, one side surface of the culture tank blocks 110 is formed with a groove 120 having an inner diameter smaller than the outer diameter of the block side surface, and the other side surface of the block is inserted corresponding to the groove 120 And the respective blocks are connected to each other by a structure in which they are respectively inserted into the blocks located beside the blocks, so that the blocks can be firmly engaged with each other, and at the same time, And the inside of the culture tank block is connected to the inside of the culture tank block through the structure in which the block is inserted.

The connection structure of the culture tank block in the present invention is described as one groove 120 and the groove corresponding portion 130 which is inserted therein. However, the present invention is not limited thereto, and a plurality of And the other side surface of the block is connected to the plurality of grooves so as to be inserted into the grooves, and an opening is formed inside each of the grooves, so that the inside of the culture tank block is connected when the culture tank block is joined It is obvious that any connection method can be used as long as it has a structure in which the incubation block such as having a structure can be connected and the inside thereof is connected.

In the incubation block 110, a plurality of light emitting units (not shown) are provided to provide light energy of constant brightness to the microalgae in the incubation tank, and temperature control A tube (not shown) through which the fluid can circulate may be inserted. In addition, the inside of the incubation block may be double formed by the partition, and a plurality of light emitting portions may be located on one side and a tube through which the temperature regulating fluid may circulate may be inserted on the other side.

For this purpose, it is preferable that the incubation block 110 according to the present invention is made of tempered glass, polycarbonate or acrylic material having excellent permeability and mechanical strength so as to utilize light energy as much as possible. In addition, a reflective plate may be provided on one side of the incubation block 110 to diffuse the light of the light emitting unit in the incubation tank, or may be coated with a polyvinyl chloride (PVC) sheet or a polyethylene sheet (PE sheet) And the outer wall of the incubation block 110 is kept at an external temperature by using a heat insulating material. At the same time, it is preferable to prevent the outflow of the culture liquid, which is located inside the incubation tank, by treating the boundary of the inner block of the incubation tank with a waterproof material such as silicone after the block type incubation tank is embedded in the bottom at a certain depth.

A plurality of partition plates 210 are installed at the center of the culture tank and are arranged in the same longitudinal direction as the culture tank according to the length of the culture tank. Thus, the inner space of the culture tank is divided into a land track type And the culture water in the culture tank is formed in a structure in which the culture water in the culture tank is circulated in one direction along the track-shaped water channel by driving the floating aquarium 220.

The structure of the floating aquarium 220 can be used as it is widely used in fish farms and other water treatment facilities. A brief description will be given of the structure. A motor is built in the main body, and the bi- The impeller for generating and stirring the water stream by pushing the culture water while being rotated is mounted on both sides of the main body and the buoyancy maintaining buoyancy for floating on the surface of the culture water is attached to the lower side of the main body.

The motor of the floating aberration is selectively driven by the controller and its driving is controlled by the controller, and the speed at which the culture water is circulated by controlling the rotation speed of the floating aberration by operating the controller from the outside, That is, the flow rate of the cultured water can be controlled. Thus, by providing a floating aberration in the culture tank, the culture water in the culture tank can be circulated along with the channel and stirred at the same time.

FIG. 3 is a perspective view of a block-type microalgae culture tank according to another embodiment of the present invention, and FIG. 4 is a perspective view illustrating a connection structure of the block-type microalgae culture tank shown in FIG.

3, the block-type microalgae culturing apparatus according to another embodiment of the present invention includes a double-layered vinyl tube coiled into a single culture block 310, Is connected to the other end of the next block vinyl tube and is assembled in such a way that it is sealed by a separate fastening means 320, so that the vinyl tube of the whole assembled block is connected to one tube.

At this time, when the vinyl tube of the incubation block is wrapped in the downward direction from the upper part and one end of the vinyl tube is positioned at the lower part (310a), the vinyl tube of the next block is wound from the lower part to the upper part, (310b) so that one end of the vinyl tube can be easily connected to the other end of the next block vinyl tube.

In addition, the first block of the block-type culture tube is a tube through which a temperature control fluid is heated by a separate thermostat, and the tube of the last block vinyl tube is formed as a tube through which the introduced temperature control fluid flows , A temperature regulating fluid heated by a separate thermostat is circulated between the vinyl tube double layers of each block to keep the temperature of the entire incubation tank constant.

In addition, all or a part of each incubation block may be formed including the light emitting portion 330. That is, as shown in FIG. 4, a vinyl tube of a double layer is wound in the form of a coil around a light emitting portion 330 to form one block, so that light energy of constant brightness is always supplied to microalgae in the culture tank It is possible to keep the temperature inside the culture tank constant. For this purpose, each incubation block is preferably provided with a transparent vinyl tube to maximize the use of light energy.

At the same time, it is preferable to prevent the outflow of the culture liquid, which is located inside the incubation tank, by treating the block boundary inside the incubation tank with a waterproof material such as silicone after the block type microalgae culture tank is embedded at a certain depth.

As described above, the block-type microalgae culture tank according to the present invention is formed in a plurality of block-like shapes, so that a culture tank having various shapes and sizes can be easily installed in an area where a culture tank is required, And a constant temperature can be controlled.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. It will be obvious to those of ordinary skill in the art.

110, 310: culture tank block 120: groove
130: groove counterpart 210: partition plate
220: Floating aberration 320: Fastening means
330:

Claims (13)

In a culture tank for culturing microalgae,
Wherein the culture tank is formed into a plurality of blocks, and when the culture tank block is assembled, the culture tank is provided with a container-like structure.
In the culture tank block,
And comprises at least one corner block and at least one rectangular block,
In the culture tank block,
Wherein a plurality of light emitting units are provided on one side of the incubation block, and a tube through which a temperature control fluid can circulate is inserted into the other side of the culture tank.
delete The method according to claim 1,
In the culture tank block,
Wherein a groove portion having an inner diameter smaller than the outer diameter of the block side surface is formed on one side surface and a groove corresponding portion is formed on the other side surface of the block so as to be inserted into the groove portion.
The method of claim 3,
At the center of the groove portion and the groove corresponding portion,
And the inside of the culture tank block is connected when the groove corresponding portion is inserted into the groove portion.
The method according to claim 1,
In the culture tank block,
Characterized in that a plurality of light emitting units are provided.
The method according to claim 1,
In the culture tank block,
Wherein a tube through which a temperature control fluid can circulate is inserted into the block type microalgae culture tank.
delete The method according to claim 1,
In the culture tank block,
Characterized in that the block-shaped microalgae culture tank is made of tempered glass, polycarbonate or acryl-based material.
The method according to claim 1,
In the culture tank block,
Characterized in that the double-layered vinyl tube is formed by winding in the form of a coil.
10. The method of claim 9,
In the culture tank block,
And one end of the vinyl tube is connected to the other end of the next culture tube block vinyl tube, and the outside is sealed by a separate fastening means.
11. The method of claim 10,
Wherein the temperature-regulating fluid flows through the vinyl tube of the first incubation block and the temperature-regulating fluid flows out through the vinyl tube of the last incubation block to circulate the temperature-regulating fluid in the entire culture tank. Algae culture tank.
10. The method of claim 9,
In the culture tank block,
And a vinyl tube of a double layer is wound in a coil shape around the light emitting part and formed into a block type microalgae culture tank.
The method according to claim 1,
In the block-type microalgae culture tank,
Characterized in that the boundary of the incubation block is treated with a waterproofing material after a certain depth is buried in the bottom.

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