CS209376B1 - A method for filtering in-flow during flow cultivation of autotrophic microorganisms and apparatus for performing this method - Google Patents

Abstract

The invention relates to the field of cultivation of autotrophic microorganisms. The essence of the infrafilter according to the invention is that it is formed by a translucent plate, on the edge of which a device for supplying water to the entire width of the outer surface of the translucent plate is arranged, while the edges of this translucent plate are provided with a seal against the penetration of surface water into the cultivation space.

Description

(54) An In-line Filtering Method for Flow-through Cultivation of Autotrophic Microorganisms and Devices for Performing the Method

The invention relates to the field of cultivation of autotrophic microorganisms.

The essence of the infrafilter according to the invention is that it consists of a translucent plate, on the edge of which a water supply device is provided for the entire width of the outside surface of the translucent plate, the edges of the translucent plate being sealed against penetration of surface water into the culture space. ,

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200376

The invention relates to a method for filtering infrared radiation in a flow-through culture of autotrophic microorganisms and an infrafilter for carrying out the method.

So far, the actual culture systems for the cultivation of autotrophic microorganisms, especially algae and cyanobacteria, are mostly built as open troughs in which the cultured suspension flows.

In this device it is practically impossible to control the operating temperature of the suspension, in view of the large heat input, whether from the sun or artificial light sources. Especially in systems using artificial sources of light, it is necessary to prevent all thermal energy from entering the suspension. its own atmosphere, therefore it is preferably built as closed.

Another problem is the tempering of this cover, respectively. The ceiling, which, since it must be transparent, practically made of sheet glass, must be protected from the effects of heat.

At present, most closed devices use a converter fluid filter in the form of a cuvette filled with water or an iodine solution of a suitable salt that captures most of the infrared radiation. The liquid is thus heated and it is necessary to solve its cooling, while it is also necessary to solve the question of thermal stress of the transparent cells through which the radiation passes.

Preferably p METHOD equipment _(In accordance with one invention is the possibility of temperature control, the cultured solution simple, yet highly efficient manner, resulting in the creation of optimal conditions for the cultivation of autotrophic microorganisms at relatively low investment and operating costs.

The essence of the method according to the invention is that the infrared radiation is filtered off with a layer of water running down an inclined translucent plate above the culture space.

The essence of the infrafilter according to the invention is that it consists of a transparent plate with a slope of 0.2-90 ° with respect to a general horizontal plane, at the edge of which

Claims (2)

SUBJECT What is claimed is: 1. A method of filtering infrared radiation in a flow culture of autotrophic systems, characterized in that the infrared radiation is filtered through a layer of water running down an inclined translucent plate over the culture space. _F 2. A device for carrying out the method according to claim 1, wherein a device is provided for supplying water over the entire width of the exterior surface of the translucent plate, the edges of the translucent plate being provided with a seal against penetration of surface water into the culture space. An example of an infrafilter for carrying out the method of the invention is shown in the drawing representing an axonometric view of a culture space provided with an infrafilter. In the figure, the culture space 8 in which the cultured suspension 9 flows flows is inclined at an angle of about 0.22 ° -90 °. The culture space 8 is covered in the upper part by an infiltration formed by a translucent plate 1 at its upper edge 2, a device 6 for providing a water supply 10 for the entire width of the outer surface of the translucent plate 1 is provided. 1 are fitted with a gasket 7 · The flowing water infrafilter consists of a translucent plate 1 above the actual cultivation space 8. Suitably, the effervescent water in a thin layer of a few millimeters evenly flows down the top surface of the translucent plate 1 into a tank (not shown) in which a cooling device is maintained, keeping the water temperature of the infrared filter at the desired value. The edges of the translucent plate 1 need to be secured against the ingress of running water into the culture chamber 8, which can be done in various ways, for example by using a waterproof sealant, boards1 above the ijevel, running water levels, etc. Due to the toxp, the free water level of the infrafilter evaporates, a substantial part of the thermal energy supplied by the thermal radiation of the light sources is dissipated. ..,. ,, Appropriate adjustment of the infrafilter temperature makes it possible to prevent condensation of water vapor from the atmosphere inside the cultivation device, thus avoiding a reduction in the permeability of the ceiling glass for efficient photosynthetic radiation towards the suspension. The water infrafilter thus designed is applicable to devices with a slope of 0.5% to 200%, i.e. 0.22-90 °. OF THE INVENTION 1 characterized in that it consists of a translucent plate (1) with a slope of 0.2-90 ° with respect to a general horizontal plane, on the edge of which (2) a water supply device (6) is provided for the entire width of the translucent plate (1) wherein the edges (2,3,4,5) of the translucent plate (1) are provided with a seal (7).