SU783340A1 - Unit for culturing photoautotrophic microorganisms - Google Patents

Description

The invention relates to the field of cultivation of photoautotrophic microorganisms, for example, chlorella, and can be used in the microbiological industry and agriculture.

Known installations for the industrial cultivation of photoautotrophic microorganisms, in which the light-receiving chamber is formed by a series of 10 pipes made of translucent material through which a suspension of microalgae circulates. Luminescent lamps are placed perpendicular to the pipes. The installation includes one row of pipes and one row of light sources [TJ.

The main disadvantage of this installation is that the coefficient of utilization of light energy is low due to the one-way illumination of pipes with suspension. With one-sided illumination, the loss of light energy in the surrounding space increases and the optimal conditions for the light saturation of the entire layer of the microalgae suspension are not ensured.

A plant for culturing phototrophic microorganisms is known, including light receiving elements, a light source, a collection and distribution collector, a pump, a heat and a heat exchanger [Ύ].

However, this installation has a rather significant specific volume and is mainly designed for the use of natural light; the use of artificial light sources in a single-row installation leads to significant losses of light energy into the environment.

The aim of the invention is to lower energy consumption and increase the usability of the installation.

This is achieved by the fact that the light receiving elements and light sources are made in the form of one-piece cassettes, 2Q which are equipped with travel locks and are installed parallel to each other on the distribution and prefabricated collectors, the inputs of the cassettes being connected via flexible hoses to the distribution manifold, and the outputs of the cassettes with the collecting manifold .

In FIG. 1 shows a structural diagram of the installation; in FIG. 2 30 the same, top view.

iiWtetes

The installation contains light reception. elements 1 and light sources 2, / 6, which together form “cassettes.” The outputs 3 and entrances 4 of the cassettes are equipped with travel locks 5 and, through flexible hoses 6, are connected to the collector, collector 7 and distribution manifolds 8 of the entire installation. The cassettes 'are mounted parallel to each other and with the help of travel locks are moved' along the guide rails of the collectors 7 and 8. ...........

The installation also has a gas exchanger 9, a pump 10, a drum 11 with a cable 12. ’

An ear is welded to each cassette 13. Shirts are welded to the prefabricated and distribution manifolds, which are connected to the coolant supply system (not shown) by means of nozzles 14 '.

Installation works as follows. . ,

Suspension of microalgae by pump 10 is fed into the intake elements 1 through the distribution manifold 8, flexible hose 6 and to the input of the cartridges 4. Further, the suspension, passing through the light receiving elements, the output of the cartridges 3 and the collecting manifold 7, enters the gas exchanger 9th and returns to pump 10. In gas exchange 9, oxygen is taken and the suspension is carbon dioxide.

The stabilization of the temperature of the suspension at the optimum level is carried out by supplying a cooling agent to a decrease 8.

When replacing or cleaning light sources and light-receiving elements, the hook of the flexible cable .12 is inserted into the eyelet 13 of the corresponding cassette, and with the help of the drum 11 the package of cassettes is opened so that free access to light sources and light-receiving elements is opened.

Claims (2)

The invention relates to the field of cultivation of photoautotrophic microorganisms, for example chlorella, and can be used in the microbiological industry and agriculture. Installations for the industrial cultivation of photoautotrophic microorganisms are known, in which the light receiving chamber is formed by a series of tubes made of a translucent material through which the microalgae suspension circulates. Perpendicular to the pipes are L10Mescent lgiips. The installation includes one row of tubes and one row of fl3 light sources. The main disadvantage of this installation is that the utilization of light energy is low due to one-sided illumination of pipes with slurry. With one-sided illumination, the loss of light energy into the surrounding space increases and optimal conditions are not provided for the saturation of the entire microalgae suspension layer. A known installation for the cultivation of phototrophic microorganisms MOB, which includes light-receiving elements, a light source, collection and distribution manifolds, a pump, a heat and gas generator 22. However, this installation has a rather significant specific volume and is designed mainly for the use of natural light — the use of artificial light. light sources in one installation leads to significant losses of light energy into the surrounding environment. The aim of the invention is (Reducing energy consumption and improving the usability of the installation. This is achieved by the fact that the light-receiving elements and light sources are made in one-piece cassettes, which are equipped with running clamps and are installed parallel to each other on the distribution and collection manifolds, and the cassette inputs are connected by means of flexible hoses with a distribution manifold, and cassette outlets - by a qo collector manifold. Figure 1 shows a constructive installation diagram; Figure 2 is the same, top view - -: rL-: Sf e sa. 3 -. nS «j- fV --- J -, The installation contains light-emitting elements JL and source 9.f, breaking off into the system is 1s sets. Outlets 3 and inputs 4 of the cassettes are equipped with moves with clamps 5 by means of flexible hoses 6 sdd | yenyo soobneno4 7 and distributor 1M 8 collectors of the entire installation. The cassettes are installed parallel to each other and {f using chassis clamps to reiteitita TCH along direction 1 (chycim collector 7 and 8.. ,,,, .. ..:: ,,;.,: - .., .- .L,., Installation or no. Also gas exchanger 9, pump 10, drum 11 with a cable 12. An eyelet 13 is welded to each cassette. Shirts are welded to the prefabricated and distribution manifolds, which with the help of nozzles 14 connect to the chaff of the supplying agent (not shown). The installation works as follows. . Suspension of microalgae nasr 10 1P1BJE zy B; cWef npHeHHee-sftefeBTH 1 with distribution cable 8, flexible hose b and at the entrance of the cassettes 4. Next, slurry, pass through the wind-receiving elements, the output of the cassettes 3 and the collecting manifold 7, comes into the gas exchanger 9 and ITT returns to pump 10. gas exchange Nike 9, oxygen is taken off and Pn1YED | hery eenzyyy carbon dioxide gas Stabilizes the temperature of the suspension at an optimal level by supplying a cooling agent to jb-jib 8. 0 When replacing or cleaning light sources and light-receiving elements, the hook fpbqa 12 is inserted into the ear 13 of the corresponding cassettes, and with the help of the drum 11, the cassettes are pushed apart in such a way that free access to the light sources and light receiving elements is opened. The invention The apparatus for the cultivation of phototrophic microorganisms, including light-transmitting elements, light sources, collection and distribution manifolds, a pump, heat and gas cooler; The fact that, in order to reduce energy consumption and increase the ease of operation of the installation, the light receiving elements and light sources are made in non-removable cassettes that are equipped with running clamps and are installed one parallel to the other in distribution and collection manifolds, moreover, the inputs of the cassettes are connected via flexible hoses to the distribution manifold, and the outlets to the collecting manifold. Sources of information accepted by the Alliance for the attention of the expertise 1.TP11defined plants for the cultivation of microalgae. REVIEW M., ONTITI-Microbioprom, 1973. J 2. USSR authoring certificate №565933, cl. C 12 V 1/10, 1973 (prototype).