KR20020083558A - High-density cultivating apparatus for phytoplankton - Google Patents

Abstract

PURPOSE: A micro-algae culturing device is provided, therefore pH in a medium can be maintained by supplying CO2 into the medium, to stably culture the micro-algae in higher concentration. CONSTITUTION: The micro-algae culturing device comprises a transparent acryl culturing vessel(10) containing a cover, a pH sensor(16) and a dispersing device(18); a culturing vessel frame(20) containing numerous culturing vessels(10), and plurality of fluorescent lamps(22) supplying light to the culturing vessel(10); a pH regulator(24) supplying the culturing vessel(10) with a mixed gas of air and carbon dioxide through the dispersing device(18); an air pump(30) continuously supplying the pH regulator(24) with an air purified through an air filter(32); and a CO2 tank(34) supplying the pH regulator(24) with CO2.

Description

High-density cultivating apparatus for phytoplankton

The present invention relates to a high density culture apparatus for microalgae, and more particularly, to a high density culture apparatus for microalgae capable of stably adjusting the culture water pH of cells by supplying carbon dioxide necessary for photosynthesis.

Recently, due to environmental pollution and the aging of fishing grounds, the resources of bivalve shells have been greatly reduced, making natural seeding difficult. Therefore, the necessity of artificial seedling production of bivalve shellfish is increasing. For this purpose, it is important to secure mass culture technology of physical plankton excellent in quantity and quality. In order to produce artificial seedlings, the most fundamental task is to secure the qualitative and quantitative quantities of feed organisms necessary for the rearing of eggs and fry hatched in eggs.

Existing culture technology could not keep up with the demand because bile shellfish food could not be produced in high density in culture or seedling production. The reason for this is that the nutrient source is limited and the uniform nitrogen source is selected, and the pH, temperature, light intensity and gas supply rate are not properly adjusted.

On the other hand, since photosynthetic cells have a tendency to slow down cell proliferation due to an increase in pH of culture water, the method of adding hydrochloric acid and sodium hydroxide to adjust the pH has a disadvantage of enormous facility cost. .

Accordingly, the present invention has been made in view of the above-described problems, and provides a high-density culture apparatus for microalgae that can stably adjust the culture water pH of cells by supplying carbon dioxide and cultivating a large amount of cells for a long time. Its purpose is to.

In order to achieve the above object, the present invention is a transparent acrylic culture tank having a lid and a pH sensor and an air disperser installed in the culture water filled therein, and the culture tank is equipped with a plurality of the culture tank A culture water tank equipped with a plurality of fluorescent lamps for supplying light, a pH controller for controlling the pH of the culture water by mixing air and carbon dioxide and supplying the culture water tank through the disperser, purifying the air filter through the pH filter An air pump for continuously supplying the air, and a CO ₂ tank for supplying carbon dioxide to the pH regulator.

It further comprises an air / CO ₂ regulator for controlling the amount of air and carbon dioxide coming out of the air pump and CO 2 tank to the PH regulator.

The pH controller includes a mixing tank for mixing air and carbon dioxide, a solenoid valve for selectively blocking carbon dioxide supplied to the mixing tank, and a controller for adjusting pH in response to a signal of the pH sensor.

According to the high-density culture apparatus for microalgae according to the present invention, it is possible to stably adjust the pH to the culture water of the cell by supplying a mixture of carbon dioxide and oxygen required for photosynthesis of the microalgae.

1 is a block diagram showing a culture apparatus according to the present invention,

Figure 2 is a perspective view showing a culture tank of the culture apparatus according to the present invention,

Figure 3 is a schematic diagram showing the culture water tank of the culture apparatus according to the present invention,

Figure 4 is an internal configuration of the PH control box according to the present invention,

5 is a growth graph of galvana according to pH control using carbon dioxide according to the present invention.

Explanation of symbols on the main parts of the drawings

10: culture tank 12: lid

14 cock part 16 pH sensor

18: Disperser 20: Culture water tank

22: fluorescent lamp 24: pH controller

25: mixing tank 26: solenoid valve

27: controller 28: air valve

29: CO ₂ valve 30: air tank

32: filter 34: CO ₂ tank

36: Air / CO ₂ regulator

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

1 is a configuration diagram showing a culture apparatus according to the present invention, Figure 2 is a perspective view showing a culture tank of the culture apparatus according to the present invention.

In the culture apparatus according to the present invention, as shown in Figure 1, the culture water tank 10 and the culture water tank 20, the air and carbon dioxide equipped with the culture water tank 10, the culture water tank is filled therein Mixing and supplying the culture water tank 10 to adjust the pH of the culture water pH 24, the air pump 30 for continuously supplying air to the pH regulator 24, and the pH regulator 24 It includes a CO ₂ tank 34 for supplying carbon dioxide to.

The culture tank 10, as shown in Figure 2, to cover the lid 12 on the top to prevent contamination from species other than the culture species, the coke portion 14 is formed on one side of the cultured cells It is supposed to be withdrawn. As shown in FIG. 1, the pH sensor 16 and the disperser 18 are provided on the culture water of the culture water tank 10. The culture tank 10 is preferably made of a transparent acrylic material so that light is transmitted well.

As shown in FIG. 3, the culture water tank 20 has a plurality of culture lights 10 having an internal space to be mounted thereon, and supplies light to both sides of the culture water tank 10 ( 22). Here, the fluorescent lamp 22 is preferably provided with a switch to turn on / off individually to adjust the illuminance as needed.

As shown in FIG. 4, the pH regulator 24 includes a mixing tank 25 for mixing air and carbon dioxide, a solenoid valve 26 for selectively blocking carbon dioxide supplied to the mixing tank 25, and It is composed of a controller 27 for adjusting the pH in response to the signal of the pH sensor 16. Here, when the controller 27 detects the pH higher than the pH set by the pH sensor 16 of the culture tank 10, the controller 27 operates the solenoid valve 26 to supply carbon dioxide. On the other hand, if it detects below the pH set by the pH sensor 16 of the culture tank 10 receives the signal to stop the operation of the solenoid valve 26 to stop the supply of carbon dioxide. On the other hand, the pH regulator 24 is provided with an air valve 28 and a CO ₂ valve 29 in each of the lines for supplying air and carbon dioxide to be able to selectively block the air and carbon dioxide supply.

Returning to FIG. 1, the air pump 30 continuously supplies air to the pH regulator 24 through a supply line, and purifies and supplies air through the air filter 32. The CO ₂ tank 34 is configured to supply carbon dioxide to the pH regulator 24 through a supply line.

On the other hand, the culture apparatus according to the present invention, as shown in Figure 1, by adjusting the amount of air and carbon dioxide from the air pump 30 and CO ₂ tank 34 to supply to the pH regulator 24 / It may be configured to further include a CO ₂ regulator 36.

5 is a growth graph of galvana according to pH control using carbon dioxide according to the present invention.

In the culture apparatus according to the present invention, as shown in Table 1 and Figure 5, the experimental microalgae was used as isocrhysis Galbana (Isocrhysis Galbana), the density once a day while adjusting the pH value to 7,7.5,8 Cell growth was examined using a Thomas Halogen Plate.

Experiment Maximum Reach Time (day) Density (ⅹ10 ⁷ ccll / ml) SGR control 3 1000 0.77 8 3 1493 0.90 7.5 3 1473 0.90 7 3 1425 0.89

The experimental results showed the highest daily growth rate of 0.90 at pH 8 and the highest density of 1.5ⅹ10 ⁷ ccll / ml. These results are due to the artificial control of light and culture environment for microalgae such as isocrisis galvana in the culture apparatus.

According to the configuration of the embodiment of the present invention, it is possible to supply light to adjust the illumination to both sides of the culture tank 10 of the transparent acrylic material, and to control the air and carbon dioxide to adjust the pH value to the culture water of the culture tank 10 The microalgae can be cultured at a high density by supplying the microalgae.

According to the high-density culture apparatus for microalgae according to the present invention as described above, the cells can be cultured at high density with only the nutrients and the required amount required for cell growth, unlike the existing one, it is possible to stably supply the food required for the bivalve culture. . In addition, the culture apparatus of the present invention can reduce the cost of preparing a medium required for the growth of microalgae, thereby reducing the cost of farming, thereby securing international competitiveness in export to aquaculture.

Claims (3)

A transparent acrylic culture tank (10) having a lid (12) at the top and a pH sensor (16) and a disperser (18) installed on the culture water filled therein; A culture water tank 20 in which a plurality of the culture water tanks 10 are mounted and a plurality of fluorescent lamps 22 for supplying light to the culture water tank 10 are provided; A pH controller (24) for controlling the pH of the culture water by mixing air and carbon dioxide and supplying the culture water tank (10) through the disperser (18); An air pump (30) for continuously supplying purified air to the pH controller (24) via an air filter (32); And A CO ₂ tank 34 for supplying carbon dioxide to the pH regulator 24; High density culture apparatus for microalgae including. The method of claim 1, High-density for microalgae, characterized in that it further comprises an air / CO ₂ regulator 26 for supplying to the pH regulator 24 by adjusting the amount of air and carbon dioxide from the air pump 30 and the CO ₂ tank 34 Incubator. The method according to claim 1 or 2, The pH regulator 24 includes a mixing tank 25 for mixing air and carbon dioxide, a solenoid valve 26 for selectively blocking carbon dioxide supplied to the mixing tank 25, and a signal from the pH sensor 16. High density culture apparatus for microalgae, characterized in that consisting of a controller for adjusting the pH to receive 27.