RU91338U1 - PLANT FOR GROWING MICROALGAE - Google Patents

Abstract

A plant for growing microalgae, mainly chlorella, including a frame, a container for a suspension of microalgae installed in it, in which at least one glass shell is placed vertically with lamps and a fan installed underneath, characterized in that the tank for a suspension of microalgae made of translucent material and luminescent lamps are located over the entire area of the side walls of the tank, the installation is additionally equipped with an aquarium pump that provides mixing the suspension with an air compressor, which serves to supply carbon dioxide through sprayers mounted on the bottom of the tank around the shell, and a cooling device for automatic temperature control.

Description

The utility model relates to the microbiological industry, namely, to the technology of growing unicellular algae, mainly planktonic, namely chlorella.

A known installation for growing microalgae, in particular, chlorella, including placed on the frame of a container for a suspension of microalgae, in which cylindrical glass shells are mounted vertically with lamps stationary in them. The tank is equipped with fans installed under the shells and used to supply air into the latter when the temperature of the suspension exceeds the optimum temperature of cultivation. The installation is equipped with a suspension temperature sensor located inside the tank and the associated temperature controller connected to the fans (RU No. 2268923 C1, publ. 01.27.2006).

The disadvantage of this setup is the low productivity of the chlorella suspension and the inability to obtain a cell concentration above 50-60 million cells per ml. The design of the installation does not allow the use of lamps of higher power to increase the intensity of light flux as a necessary condition for increasing the intensity of photosynthesis and limits the possibility of increasing the density of cells in suspension to a concentration of 50-60 million in 1 ml. An increase in the illumination of the chlorella suspension due to an increase in the power of the lamps located inside the cylindrical glass shells of the installation, above a certain value, leads to the fact that the fans located under the cylindrical glass shells do not provide effective heat dissipation from these lamps. This leads to overheating of the suspension and disruption of the cultivation regimen. An increase in the density of microalgae cells during cultivation leads to a decrease in their illumination with increasing distance from light sources to the walls of the tank and the formation of significant dimming zones. As a result, cells located near light sources receive excessive illumination, while cells located near the walls of the tank remain unlit. In the installation there is no mixing of the suspension during the cultivation process, which also leads to an undesirable increase in the effect of uneven distribution of the light flux between the algae cells and the irrational use of electrical energy.

The disadvantage of this installation is the lack of a constant supply of carbon dioxide in the suspension. The design of the installation does not allow for a constant supply of carbon dioxide into the suspension as a necessary condition for the cultivation of chlorella. According to the description of the operation of the installation, it follows that carbonation of the chlorella suspension is carried out only once at the time the installation is put into operation: “... a nutrient medium containing the necessary components and saturated with carbon dioxide is poured into the container and the chlorella suspension is introduced into it until the required initial cell density. " A one-time method for saturating the nutrient medium with carbon dioxide is not able to provide the necessary need for chlorella cells in carbon dioxide under the asynchronous principle of microalgae cultivation, i.e. in conditions of constant illumination of a suspension of chlorella with artificial lighting sources.

The technical result of the utility model is to provide a high intensity of algal photosynthesis by increasing the light flux and achieving uniform illumination of chlorella cells in the entire volume of the tank, creating intensive mixing of the culture and constant supply of the required amount of carbon dioxide into it, as well as ease of maintenance of the unit as a result of automatic regulation of the optimum cultivation regimen.

This technical result is achieved by the fact that the following design of a plant for growing microalgae is proposed, including a frame, a container for a suspension of microalgae installed in it, in which at least one glass shell with lamps placed in it and a fan installed underneath is located for supplying air inside the shell, inside the tank is a suspension temperature sensor associated with the cooling device. The microalgae suspension tank is made of translucent material and fluorescent lamps are located over the entire area of the side walls of the tank, the unit is additionally equipped with an aquarium pump for mixing the suspension, an air compressor that serves to supply carbon dioxide through sprayers mounted on the bottom of the tank around the shell and cooling device.

In the proposed plant for growing chlorella, the walls of the container for a suspension of microalgae are made of a transparent material, for example, plexiglass, through which additional illumination of chlorella cells from all sides of the side wall area is created by using fluorescent lamps that emit a minimum of thermal energy. This arrangement of fluorescent lamps allows you to evenly distribute light energy throughout the installation and at the same time avoid overheating of the suspension. The uniformity of illumination of microalgae cells, with an increase in chlorella density, is achieved by constantly mixing the suspension with at least one aquarium pump, which can be mounted on suction cups on the inner side of the tank wall. At the same time, the possibility of using lamps permanently installed in cylindrical glass shells of much greater power is provided by automatic thermal control using a cooling device (for example, an aquarium refrigerator). Carbon dioxide is supplied to the chlorella suspension from the cylinder through an air compressor and atomizers mounted on the bottom of the installation tank around the shells.

The utility model is illustrated by drawings, in which Fig. 1 schematically shows a longitudinal section of the installation, Fig. 2 is a section along A-A of Fig. 1, Fig. 3 is a view along BB of Fig. 2.

Installation for growing microalgae includes placed on the frame 1 tank 2 made of translucent material. Glass shells 3 are vertically installed in the tank, in which artificial lighting lamps 4 are permanently fixed, connected to power sources 5. The tank 2 is equipped with fans 6 installed under the shells 3, which are fixed to the frame 1 using brackets 7. Holes are made in the places of fastening of the shells 8. The upper part of the shell is fastened with a cover with a hole 9 on the metal frame 10. The temperature sensor 11 is mounted on the inside of the tank, immersed in a suspension of chlorella and connected to cooling devices m 20. Fans 6 work simultaneously with the operation of stationary lamps 4 in vertically mounted glass shells 3. The upper lamp 4 is attached using a metal pipe 13 to the bracket 14, which is mounted on the frame 10. The lower lamp using a pipe 13 is attached to a metal plate 15 fixed to the frame 1.

On the outside of the side walls of the tank 2, fluorescent lamps 16 are connected, connected to power sources 17. To create the directivity of the illumination from the fluorescent lamps into the container with suspension, reflectors 18 are used.

Aquarium pump 19 is immersed in a suspension of chlorella and mounted on the inner side of the side wall of the tank 2. The cooling device 20 is installed separately from the installation and is connected to it with special hoses. Depending on the design of the cooling device, its cooling element can be located directly in the suspension of chlorella.

Carbon dioxide is supplied from the cylinder 21 to the air compressor 22. From the output of the air compressor 22 mixed with air, carbon dioxide is supplied via flexible tubes 23 to the air atomizers 24, which are fixed around the glass shells 3 at the bottom of the tank 2.

Installation works as follows. A nutrient medium containing the necessary components and saturated with carbon dioxide is poured into a container 2 and a suspension of chlorella is introduced into it until the required initial cell density is reached.

By lamps placed in cylindrical glass shells, the necessary initial illumination of the liquid medium is created, in which the cultivation of the chlorella microalgae proceeds. In the process of cultivation, there is an increase in cell density and a decrease in the transparency of the culture, as a result of which gradually darkening zones are formed in the suspension at the walls of the vessel, which leads to uneven illumination of the cells and slows down the growth of biomass. In the formation of dimming zones include fluorescent lamps located throughout the entire area outside the transparent side walls of the installation’s tank, which allows achieving uniform illumination of chlorella cells throughout the installation. An increase in the illumination of the suspension is also achieved through the use of more powerful lamps located in vertically mounted cylindrical glass shells. The use of lamps of higher power leads to additional heating of the suspension, while the fans installed under the shells and used to cool the suspension by supplying air into the latter do not provide effective cooling, which leads to overheating of the suspension and violation of cultivation conditions. To effectively maintain the optimum cultivation temperature, the installation provides for the use of an aquarium refrigerator that automatically maintains the required temperature of the suspension. During cultivation, when the temperature rises above the optimum, which is 33 ° C, the aquarium cooler automatically turns on to ensure thermal control of the suspension. When the temperature of the suspension reaches 32.5 ° C, the cooling device is automatically turned off. Mixing the suspension with an aquarium pump reduces the deposition of chlorella cells, ensures a uniform distribution of nutrients in the culture medium and improves the uniformity of illumination of chlorella cells. Carbon dioxide is supplied to the suspension from the air compressor, mixing in it with air in an optimal proportion of 1-2% and then through air sprays located at the bottom of the tank.

This arrangement of fluorescent lamps from the outside of the translucent walls of the tank provides uniform illumination of the suspension throughout the installation. Additional illumination of chlorella cells is provided by low-power fluorescent lamps, eliminating undesirable heating of the suspension. The use of lamps located inside cylindrical glass shells of greater power allows several times to increase the illumination of the suspension. Using an aquarium refrigerator allows you to effectively maintain the desired temperature range in automatic mode. Stirring the suspension through an aquarium pump promotes an even distribution of nutrients in the culture medium, prevents chlorella cells from settling and improves the uniformity of illumination of the suspension. The constant supply of carbon dioxide in a mixture with air through an air compressor ensures optimal saturation of the chlorella suspension with carbon dioxide. Ensuring high cultivation intensity due to increased illumination of the culture, uniform illumination of cells in the entire volume, optimal saturation of the suspension with carbon dioxide and mixing of the suspension, without increasing the capacity of the setup, allows to double its productivity and achieve a cell concentration in the suspension of about 90-100 million cells in 1 ml. Thus, the amount of chlorella biomass obtained in this installation for the same cultivation time increases four times.

The proposed installation for the growth of chlorella allows for high productivity and the resulting cell density in suspension due to the creation of conditions for a more intensive cultivation regimen in it, as well as to improve the convenience and safety of servicing the installation.

Claims (1)

A plant for growing microalgae, mainly chlorella, including a frame, a container for a suspension of microalgae installed in it, in which at least one glass shell is placed vertically with lamps and a fan installed underneath, characterized in that the tank for a suspension of microalgae made of translucent material and luminescent lamps are located over the entire area of the side walls of the tank, the installation is additionally equipped with an aquarium pump that provides mixing the suspension with an air compressor, which serves to supply carbon dioxide through sprayers mounted on the bottom of the tank around the shell, and a cooling device for automatic temperature control.