KR20120052438A - Device for cultivating micro algae - Google Patents

Abstract

PURPOSE: An apparatus for culturing microalgae is provided to enhance production capacity and to enable enough stirring of culture liquid. CONSTITUTION: An apparatus for culturing microalgae comprises: a culture container(10) which contains culture liquid containing microalgae and is made of light transmittable materials; a connection tubes(20a,20b) which is connected between upper ends and lower ends of the culture container; a circulation tube(30); and a culture liquid circulation device(40) which applying predetermined pressure to the culture liquid.

Description

Microalgae Culture Apparatus {DEVICE FOR CULTIVATING MICRO ALGAE}

The present invention relates to a microalgae cultivation apparatus, and more particularly, it is possible to increase the production capacity by connecting a plurality of culture vessels made of a light transmitting material in series through a connecting tube and a circulation tube, through the culture medium circulation means The present invention relates to a microalgae cultivation apparatus capable of obtaining high productivity by allowing sufficient agitation of the culture solution while circulating the culture container sequentially.

Microalgae, photosynthetic organisms, are cultured as feeds for aquaculture in order to absorb carbon dioxide and produce useful components such as vitamins, amino acids, pigments, proteins, polysaccharides, and fatty acids by photosynthesis. Moreover, this kind of microalgae is also used as a means for treating carbon dioxide which is one of the causes of global warming, and in recent years, a culture apparatus for culturing a large amount of this has been studied.

In general, the microalgae culturing apparatus for culturing photosynthetic microalgae for the purpose of immobilizing carbon dioxide mainly uses sunlight as the light for photosynthesis, and carbon dioxide is configured to inject air or a mixture of carbon dioxide and air into the culture medium. Apparatuses can be broadly divided into large-scale cultivation outdoors (open system) and microbial culture photobiological culture vessel (closed system).

In the case of open culture apparatus including pond type, it has been mainly using a reaction facility in the form of a lake or a large pond and is commercialized in some countries. Open cultivation devices, however, have the advantages of low initial investment and ease of maintenance, but include contamination, difficulty in separation and purification, low cell concentrations, high levels of mass (particularly nitrogen sources), high water quality and quantity requirements, irregular weather conditions, Due to problems such as high labor costs, the installation is extremely limited. In particular, since the effective light transmission is not made inside the open culture apparatus, the growth rate of the cells is low, the growth yield of the cells is low, and a large installation space is required to remove a large amount of carbon dioxide.

Therefore, in recent years, various types of closed culture apparatuses have been proposed for culturing microalgae in a culture vessel by placing a culture solution in a culture vessel, injecting a gas containing carbon dioxide into the culture solution, and injecting visible light. The closed type culture apparatus called indoor type has the disadvantage of relatively high initial investment cost and maintenance and maintenance cost compared to the open type culture device installed outdoors, but it can be expected to have high cell growth rate and easy operation condition control. Closed cultivation apparatus that is mainly used currently include a general stirred culture vessel, plate culture vessel, tubular culture vessel, columnar culture vessel and the like.

In general, since the capacity per installation area of the closed culture device is smaller than that of the open culture device, the production capacity is small.

In addition, in the case of a closed culture apparatus, algae are cultured at a high concentration to compensate for a small production capacity and to increase high productivity. As the concentration of the microalgae increases, the algae are not exposed to light due to the shadow effect of the microalgae. There is a problem that the microalgae may not be generated, and without sufficient agitation of the culture solution in the culture vessel, the algae cannot be uniformly received and cannot achieve high productivity.

In addition, in the closed culture apparatus, microalgae form colonies in the culture vessel and are precipitated, so that light permeation is blocked and the culture efficiency is significantly reduced. When the microalgae precipitate in the culture vessel, the growth of bacteria is caused. You will have this corrupting problem.

The present invention was made in recognition of the above problems, an object of the present invention is to connect the culture vessels in series to increase the production capacity, as well as sufficient agitation of the culture liquid while circulating the culture vessels sequentially with the rising power of carbon dioxide or air The present invention provides a microalgae culturing apparatus capable of obtaining high productivity and preventing microalgae from adhering to the culture vessel wall or preventing precipitation on the bottom of the culture vessel, thereby maintaining a high culture effect over a long period of time.

In order to achieve the above object, the microalgae culturing apparatus according to the present invention includes a culture medium containing a microalgae therein in a cylindrical shape, and is made of a material that transmits light so that light reaches the culture medium, and a plurality of Culture vessels are arranged in the vertical direction in the vertical direction; A connecting tube alternately connected between the upper end portions and the lower end portions of neighboring culture vessels such that the plurality of culture vessels are connected in series with each other in a longitudinal direction; A circulation tube connected between ends of the plurality of culture vessels in which the connection tubes of the pair of culture vessels are arranged at the outermost side thereof are not connected; And a culture medium circulation means for applying a predetermined pressure to the culture solution such that the culture solution accommodated in the culture vessel is stirred and the culture solution is sequentially moved and circulated to another culture vessel through the connecting tube and the circulation tube. It is done.

In addition, the microalgae culture apparatus according to the present invention, the culture medium circulation means, the culture in a state in communication with the connecting tube which is connected to the lower end of the culture vessel in at least one culture vessel of the plurality of culture vessels The air bubble inner through-hole which is erected up and down in the inside of the container, and an air pump for generating air bubble by pumping carbon dioxide or air to the lower end of the air bubble inner through-through, generated through the air pump The air bubble rises vertically along the air bubble inner through-hole and applies a predetermined pressure to the culture solution.

In addition, the microalgae culture apparatus according to the present invention, the culture vessel is characterized in that the inner bottom surface is formed in a concave curved shape at the lower end is connected to the inner wall curved.

The microalgal culture apparatus according to the present invention by the configuration as described above can not only increase the production capacity by connecting the culture vessel in series, but also sufficient agitation of the culture liquid while the culture medium is circulated in a sequential manner by the ascending force of carbon dioxide or air High productivity can be obtained and the shape of the curved bottom surface prevents adhesion of microalgae to the culture vessel wall or precipitation on the bottom of the culture vessel, thereby maintaining a high culture effect over a long period of time.

1 is a block diagram showing a microalgae culture apparatus according to an embodiment of the present invention
Figure 2 is a cross-sectional view showing the structure of the culture vessel of the microalgae culture apparatus according to an embodiment of the present invention

Hereinafter, with reference to the embodiment shown in the drawings will be described in detail the microalgae culture apparatus according to the present invention.

1 is a block diagram showing a microalgae culture apparatus according to an embodiment of the present invention, Figure 2 is a cross-sectional view showing the structure of the culture vessel of the microalgae culture apparatus according to an embodiment of the present invention.

Looking at the drawings, the microalgal culture apparatus according to the present invention comprises a culture vessel 10, a connecting tube 20, a circulation tube 30, and a culture medium circulation means (40).

The culture vessel 10 is a material that contains a culture solution containing a microalgae that photosynthesis therein is a material for transmitting light so that light for photosynthesis of the microalgae can reach the culture medium, for example, polycarbonate It is made of the same material as (PC).

In addition, the culture vessel 10 is formed in a cylindrical shape, the inner bottom surface 11 is formed in a concave curved shape at the lower end is curvedly connected to the inner wall 12. That is, as shown in Figure 2 is not formed an angled corner between the bottom surface 11 and the inner wall 12 of the culture vessel 10 is the lower end when the culture medium is pressurized by the culture medium circulation means 40 By inducing a smooth convection or flow of the culture in the to facilitate the agitation of the culture, as well as to prevent the precipitation of microalgae to the bottom surface (11).

On the other hand, the culture vessel 10 is arranged in a plurality of vertically arranged in the horizontal direction, the plurality of culture vessels 10 are connected to each other in series and the circulation of the culture medium by the connecting pipe 20 and the circulation pipe 30 to be described later Possibly connected. In an embodiment of the present invention, as shown in Figure 1, a total of 14 culture vessels 10 is shown in a vertical arrangement in the horizontal direction.

The connecting tube 20 is configured to connect the plurality of culture vessels 10 in series along the lengthwise direction of the upper connection tube 20a and neighboring culture vessels connecting the upper ends of the adjacent culture vessels. It consists of a lower connecting pipe (20b) for connecting the lower end with each other, the upper connecting pipe (20a) and the lower connecting pipe (20b) so that the plurality of culture vessels 10 can be connected in series with each other in the longitudinal direction Alternately placed.

On the other hand, the upper connecting pipe (20a) is connected to the vent pipe (V) that can be discharged to the outside gas such as oxygen generated by photosynthesis of microalgae, the lower connecting pipe (20b) to discharge the culture solution to the outside A drain pipe (D) capable of connecting is connected to any one of the culture vessels (10a) disposed on the outermost side of the plurality of culture vessels (10) sea water supply pipe that can supply seawater to the culture vessel (10) I) is connected.

The circulation tube 30 is configured to enable the circulation of the culture solution in a state in which the plurality of culture vessels 10 are connected to each other in series along the longitudinal direction by the connecting tube 20. ) And the connecting pipe 20 of the pair of culture vessels 10 a and 10 b disposed at the outermost side thereof is connected to each other.

In an embodiment of the present invention, as shown in Figure 1, the lower end of the pair of culture vessels (10a, 10b) disposed on the outermost side of the plurality of culture vessels 10, the lower end of the other culture vessels and neighboring It was configured to be connected to the connecting pipe (20b), it was configured to enable the circulation of the culture solution by interconnecting the upper end to the circulation pipe (30).

The culture medium circulation means 40 is configured to prevent the microalgae from being immersed by gravity to allow death of the culture solution contained in the culture vessel 10 and at the same time the culture solution is connected to the connecting tube 20 and the circulation. It is configured to apply a predetermined pressure to the culture solution to be sequentially moved and circulated to another culture vessel 10 through the pipe 30, in one embodiment of the present invention air bubble inner through-hole 41 and the air pump And (42).

The air bubble inner through-hole 41 is at least one of the plurality of culture vessels (10a, 10c) in one embodiment of the present invention two culture vessels 10a disposed at one side and the center , 10c) is configured to stand up and down inside the culture vessels 10a and 10c in communication with the lower connection pipe 20b connected to the lower end of the air pipe 42, and the air pump 42 is an air pipe. It is configured to generate air bubbles by pumping carbon dioxide or air to the lower end of the air bubble inner through-hole 41 through (A).

As described above, the air bubble generated through the air pump 42 rises vertically along the air bubble inner through pipe 41, and the negative pressure generated at the lower end of the air bubble inner through pipe 41 is Through the lower connection pipe 20b, the culture medium in the neighboring culture vessel 10 is pulled downward, and the culture solution is connected to the upper part due to the pressure that the air bubble is ejected to the upper end of the air bubble inner through-41. It is moved to another culture vessel 10 connected through the tube 20b or the circulation tube 30.

In addition, the air bubble generated through the air pump 42 is carbon dioxide or carbon dioxide containing air, and carbon dioxide is an energy source for photosynthesis, and the air bubble serves to promote photosynthesis of microalgae.

Microalgae culture apparatus according to the present invention by the organic combination of the components as described above can not only increase the production capacity by connecting a plurality of culture vessels 10 in series, the carbon dioxide through the culture medium circulation means 40 Alternatively, while the culture medium is circulated through the plurality of culture vessels 10 sequentially along the connecting tube 20 and the circulation tube 30 by the upward force of air, sufficient agitation of the culture solution may be performed to obtain high productivity, and the culture Due to the shape of the curved bottom surface 11 of the container 10, it is possible to prevent microalgae from adhering to the culture surface of the culture vessel 10 or to settle on the bottom surface of the culture vessel 10 to maintain a high culture effect over a long period of time. It will have an effect.

The microalgae culture apparatus described above and shown in the drawings is only one embodiment for carrying out the present invention, and should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is defined only by the matters set forth in the claims below, and the embodiments which have been improved and changed without departing from the gist of the present invention will be apparent to those skilled in the art. It will be said to belong to the protection scope of the present invention.

I Seawater Supply Pipe
D drain pipe
A Air Piping
V vent
10 Culture Vessel
11 bottom surface
12 sidewalls
20 connector
20a upper connector
20b bottom connector
30 circulation tube
40 Culture medium circulation means
41 Air bubble inner clearance
42 air pump

Claims (3)

A culture vessel containing a microalgae in a cylindrical shape and made of a material that transmits light so that light reaches the culture solution, and a plurality of culture vessels arranged in a vertical direction in a horizontal direction;
A connecting tube alternately connected between the upper end portions and the lower end portions of neighboring culture vessels such that the plurality of culture vessels are connected in series with each other in a longitudinal direction;
A circulation tube connected between ends of the plurality of culture vessels in which the connection tubes of the pair of culture vessels are arranged at the outermost side thereof are not connected;
And a culture medium circulation means for applying a predetermined pressure to the culture solution such that the culture solution accommodated in the culture vessel is agitated and the culture solution is sequentially moved and circulated to another culture vessel through the connecting tube and the circulation tube. Microalgae culture apparatus. The method of claim 1,
The culture medium circulation means, inside the air bubble erected up and down inside the culture vessel in communication with the connecting tube connected to the lower end of the culture vessel in at least one culture vessel of the plurality of culture vessels And an air pump configured to generate air bubbles by pumping carbon dioxide or air to the lower end of the air bubble inner through tube, and the air bubbles generated through the air pump are along the air bubble inner through tube. Microalgal culture apparatus characterized in that the vertical rise and apply a predetermined pressure to the culture. The method according to claim 1 or 2,
The culture vessel, microalgae culture apparatus, characterized in that the inner bottom surface is formed in a concave curved shape at the lower end is connected to the inner wall curved.

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