SU1033080A1 - Method of aeroponic cultivation of plants - Google Patents

Abstract

CflOCOiS of AEROPIC CULTIVATION OF EFFICIENCY OF PLANTS, including the periodic moistening of the root from the plant steels with a nutrient solution and the removal of excess solution from the growing plant to the collection tank, so as to ensure the removal of excess solution x nevomomosti, in re: airvoor, a vacuum is created to collect nutrient solution, and a vessel with a hydrophilic capillary-porous septum with a gap relative to the bottom is used as a vegetative-1 vessel. spine, wherein perepal vegetatsnonnm pressure between the vessel and the reservoir for collecting the solution is less than the critical pressure partitions. I 00 00 o eo

Description

The invention relates to crop production and is intended for the cultivation of plants in weightless conditions. There is a known method of growing plants without soil, in which the plant roots are sprayed with a nutrient solution in the form of an aerosol, and when the roots of the vegetation vessel reach the roots, the liquid nutrient solution is fed to its bottom 1. Drainage the nutrient solution from the vegetation vessel to the reservoir the collection of nutrient solution is carried out due to gravity forces. In zero gravity, this method is unacceptable. . The aim of the invention is to ensure the removal of excess nutrient solution in the collection tank during the cultivation of plants under abnormal conditions. This goal is achieved by creating a vacuum in the reservoir to collect the nutrient solution, and a container is used as a vegetative vessel, inside which there is a hydrophilic capillary porous wall, so that a gap is formed between the wall and the inner surface of the container. The pressure created between the vegetation vessel and the reservoir to collect the nutrient solution is less than the critical pressure of the septum, thereby preventing air from the vegetation vessel from entering the fluidized lines. The drawing shows a diagram of an apparatus for carrying out the method. The device contains a vegetative vessel 1 with a planting lid 2 in which plants 3 are placed. Vessel 1 is placed a hydrophilic capillary-porous partition 4 with a gap relative to the inner surface of vessel 1, forming a cavity 5, and a spraying device 6. Reservoir 7 To collect the nutrient solution, diaphragm 8 is divided into cavities 9 and 10. Cavity 9 is connected to vacuum and pressure sources (not shown). The cavity 10 is connected by a pipe 11 to the cavity 5 of the growing vessel 1 and the pipe 12 with a spraying device 6. On the pipe; The wires 11 and 12 are fitted with check valves 13, and 14. The method is carried out as follows. The plants 3 are located in the lid 2, which is placed on the vegetation vessel 1. The plant roots are sprayed with a spraying device 6 periodically sprayed with a nutrient solution coming from the cavity 10 of the tank 7 under the effect of pressure 1 that is excessive with respect to the vegetation vessel and generated by an external source. After spraying is completed, cavity 9 creates a vacuum not exceeding the critical pressure of the capillary-porous septum 4. Under the effect of this pressure drop, the nutrient solution from the vegetation vessel 1 enters the cavity 10 of the reservoir 7 through the capillary-porous barrier 4. The return valves 13 and 14 provide the necessary direction of movement pi. solution through pipelines. ; The method of aeroponic growing of plants in weightlessness makes it possible to study in detail the features of the development of the root system of plants in weightlessness and to create space greenhouses characterized by a minimum weight (due to the absence of a substrate and a small circulating volume). .

Claims (1)

METHOD FOR AEROPONIC CULTIVATION OF PLANTS, including periodically moistening the root system of plants with a nutrient solution and removing excess solution from the vegetation vessel to the collection tank, so that, in order to ensure removal of excess solution in the conditions zero gravity, a vacuum is created in the reservoir for collecting the nutrient solution, and a container is used as a vegetation vessel, inside which there is a hydrophilic capillary-porous partition with a gap relative to the bottom of the container, cm pressure drop between the pots and collection reeervuarom solution below the critical pressure partitions.