KR101190586B1 - Experimental apparatus for culturing a microorganism by light - Google Patents

Abstract

The present invention relates to a photosynthetic microbial photoculture experiment apparatus, and more particularly, to a photosynthetic microbial photoculture experiment apparatus capable of finding optimal conditions for photoculturing photosynthetic microorganisms.
The photosynthetic microbial photoculture experiment apparatus according to the present invention includes a temperature sensor, a temperature control unit, a light emitting unit, and a control unit. The temperature sensor measures the temperature of the chamber containing the flask in which the photosynthetic microorganisms are stored in order to culture the photosynthetic microorganism. The temperature control means adjusts the temperature of the storage chamber. The light emitting unit includes a plurality of red lights and a plurality of blue lights, and the flask is seated thereon. The control unit may blink the light emitting unit and adjust the light quantity and the light ratio of the red light and the blue light.
According to the present invention, by providing a photosynthetic microbial photoculture experiment apparatus capable of irradiating light quantity and light wavelength ratio and flashing and continuous light emission, it is possible to determine the optimum conditions suitable for photosynthetic microbial culture.

Description

Experimental apparatus for culturing a microorganism by light}

The present invention relates to a photosynthetic microbial photoculture experiment apparatus, and more particularly, to a photosynthetic microbial photoculture experiment apparatus capable of finding optimal conditions for photoculturing photosynthetic microorganisms.

In line with the global trend of green growth and renewable energy, research on carbon dioxide reduction, bio energy and active substance production through microalgae cultivation has attracted attention.

In order to cultivate microalgae in large quantities, it is necessary to introduce a customized culture method suitable for various species. For this purpose, it is essential to establish the ecological characteristics and optimum culture conditions of various microalgae in microalgae research. For this purpose, a light experiment apparatus for culturing photosynthetic microorganisms is used.

Figure 3 is a conventional photosynthetic microbial photoculture experiment apparatus. Conventional photosynthetic microbial photocultivation experiment apparatus is a light experiment using a fluorescent lamp (3). That is, a large number of fluorescent lamps 3 are installed in the storage chamber that houses the flask 1 in which the photosynthetic microorganisms to be cultured are stored. Therefore, after receiving the flask (1) storing the photosynthetic microorganism inside the storage chamber was irradiated with a fluorescent lamp (3) to perform a photoculture experiment.

Since the conventional photosynthetic microbial photoculture apparatus used only a fluorescent lamp, there was a problem in that it was not possible to find an optimal light condition suitable for photosynthetic culture of photosynthetic microorganisms.

In addition, the conventional photosynthetic microbial photoculture apparatus has a problem that can not match the individual light preference characteristics according to various species.

In addition, the conventional photosynthetic microbial photoculture experiment apparatus has a problem that can not find the optimum temperature conditions suitable for the culture of photosynthetic microorganisms.

The present invention is intended to solve the above problems. An object of the present invention is to provide a photosynthetic microbial photocultivation experiment apparatus that can find the optimal photo conditions suitable for the photocultivation of photosynthetic microorganisms.

In addition, an object of the present invention is to provide a photosynthetic microbial photoculture experiment apparatus capable of tailoring light preference characteristics to various species.

In addition, an object of the present invention is to provide a photosynthetic microbial photoculture experiment apparatus that can find the optimal temperature conditions suitable for the culture of photosynthetic microorganisms.

The photosynthetic microbial photoculture experiment apparatus according to the present invention includes a temperature sensor, a temperature control unit, a light emitting unit, and a control unit. The temperature sensor measures the temperature of the chamber containing the flask in which the photosynthetic microorganisms are stored in order to culture the photosynthetic microorganism. The temperature control means adjusts the temperature of the storage chamber. The light emitting unit includes a plurality of red lights and a plurality of blue lights, and the flask is seated thereon. The control unit may blink the light emitting unit and adjust the light quantity and the light ratio of the red light and the blue light.

According to the present invention, by providing a photosynthetic microbial photoculture experiment apparatus capable of irradiating light quantity and light wavelength ratio and flashing and continuous light emission, it is possible to determine the optimum conditions suitable for photosynthetic microbial culture.

1 is a perspective view of photoculture of photosynthetic microorganisms using one embodiment of a photosynthetic microorganism photoculture experiment apparatus according to the present invention;
2 is a conceptual diagram of the embodiment shown in FIG.
3 is a conceptual diagram of a conventional photosynthetic microbial photoculture experiment apparatus.

1 and 2 will be described an embodiment of the photosynthetic microbial photoculture apparatus according to the present invention.

The photosynthetic microbial photoculture experiment apparatus according to the present invention includes a temperature sensor 11, a temperature control unit 13, a light emitting unit 15, and a control unit 21. The temperature sensor 11 measures the temperature of the chamber 10 in which the flask 1 in which the photosynthetic microorganisms are stored is accommodated in order to culture the photosynthetic microorganisms.

The temperature regulating means 13 adjusts the temperature of the storage chamber 10. The temperature sensor 11 and the temperature control means 13 can be used to determine the optimal temperature conditions for photosynthetic microorganisms to be cultured.

The light emitting unit 15 includes a red light 17 made of a plurality of LEDs and a blue light 19 made of a plurality of LEDs, and a flask 1 is mounted thereon. The flask 1, on which the photosynthetic microorganisms are stored, is placed on the light emitting unit 15 to irradiate the flask 1 with light.

The control unit 21 may blink or continuously operate the light emitting unit 15 at regular time intervals. The controller 21 may adjust the light quantity and the light ratio of the red light 17 and the blue light 19 of the light emitting unit 15. That is, the control unit 21 may irradiate the flask 1 continuously with light or blink at regular time intervals. Therefore, a more efficient energy transfer method can be found for culturing photosynthetic microorganisms. In addition, the controller 21 may adjust the ratio of the red light 17 and the blue light 19 irradiated to the flask 1. For example, the ratio of blue light and red light can be adjusted in a ratio of 10: 0, 5: 5, 7: 3, 3: 7, 0:10 and the like. And the control unit 21 may adjust the intensity of the light amount irradiated to the flask (1). Through this, it is possible to find the optimal conditions for culturing photosynthetic microorganisms.

Using the photosynthetic microbial photoculture apparatus of the present embodiment, it is possible to perform photosynthetic microbial photocultivation experiments for various light wavelength ratios, various light amounts, various temperature conditions of the storage chamber, and various flashing times. Through this, the optimum conditions for culturing photosynthetic microorganisms for various species can be found.

1: flask 3: fluorescent lamp
10: accommodation room 11: temperature sensor
13 temperature control means 15 light emitting unit
17: red light 19: blue light
21: control unit

Claims (1)

A temperature sensor for measuring the temperature of a storage chamber in which the flask containing the photosynthetic microorganisms is stored in order to culture the photosynthetic microorganisms;
Temperature control means for adjusting the temperature of the accommodation chamber;
A light emitting unit having a plurality of red lights and a plurality of blue lights and having the flask seated thereon;
And a control unit capable of blinking the light emitting unit and controlling a light quantity and a light ratio of the red light and the blue light.

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