RU2654334C1 - Method for processing hydroponic nutrient solution - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture. Method for treating a hydroponic nutrient solution is provided, comprising treating the hydroponic nutrient solution with a physical action, in which quality acoustic and rotating electromagnetic fields are used. At the same time, magnetic cores are used to create acoustic and rotating electromagnetic fields in the form of a system of ferrite rings with electric windings, to which a three-phase AC voltage is applied in the resonant ultrasonic frequency range 32÷35 kHz.

EFFECT: invention provides stabilization of the pH value of the nutrient solution and maintenance of its purity within sixty days.

1 cl, 4 dwg, 2 tbl

Description

The method relates to agriculture, crop production, and in particular to the processing of a nutrient solution for hydroponic cultivation of plants.

There is a method of growing green hydroponic feeds, including the treatment of seed with activated water obtained by electrolysis, characterized in that for the purpose of a long, at least 7 days, preservation of the properties of the redox potential of an aqueous solution of catholyte with a pH from the range of 8 ÷ 9 and Eh = 350 ÷ 400 mV with active sparging with air into the cathode solution is introduced stabilizer - gelatin in a concentration of not less than 0.01 wt. %, which increases the energy of seed germination and growth of vegetative mass in combination with continuous aeroionic activation by air, prevents undesirable oxidative and microbiological reactions and increases the yield of green hydroponic feed by 8 ÷ 12% (analogue of the Russian Federation No. 2105449, class A01C 1/00, 1998 g.).

The disadvantage of this method is the complexity of the process due to the introduction of gelatin in the cathode solution, as well as bubbling.

The closest is a method of reducing hydroponic substrates, in which the substrates are washed and ultrasonically treated, characterized in that a zeolite is used as a substrate, which is washed with water, an aqueous suspension of the washed substrate is prepared, it is bubbled with air, ultrasonic treatment is performed, water is removed, and the substrate is washed and subjected to processing in a magnetic field with an induction of 100 ÷ 200 MT (RF No. 2280978, class A01G 31/00, 2006 - prototype).

A significant disadvantage of this method is the complexity of the process from a technological point of view, washing the substrates with water and sparging the air.

The technical result is the stabilization of the pH value of the nutrient solution and maintaining its purity without replacing the solution for sixty days.

The technical result is achieved by the fact that in the method of treating a hydroponic nutrient solution, including treating the hydroponic nutrient solution by physical action, according to the invention, acoustic and rotating electromagnetic fields are used as the latter, while a magnetic circuit from a system of ferrite rings with electric is used to create acoustic and rotating electromagnetic fields windings that are supplied with a three-phase alternating voltage in the resonant sound range with a frequency 32 ÷ 35 kHz.

The assimilation by plants of the main substances: phosphorus, nitrogen, potassium, magnesium, depends on the pH level. A significant problem of hydroponics is the change in the pH of the nutrient solution. This problem is solved by replacing the solution every two weeks. In turn, the correction of the pH value by means of acousto-magnetic action allows not to replace the solution within sixty days. If you mix in a solution of substances that are not enough for the normal growth of plants, it becomes possible not to change the solution until the end of the ripening of the plant fruits. Studies also prove that no algae growth was observed when the solution was treated with acousto-magnetic exposure, the solution remained clean and odorless throughout its life.

The novelty of the proposed method for processing a hydroponic nutrient solution consists in the combined action of acoustic and rotating electromagnetic fields emitted by the device, presented in the form of a magnetic circuit made of ferrite rings with electric windings, to which a three-phase alternating voltage is applied in the resonant sound frequency range 32 ÷ 35 kHz.

The features that distinguish the claimed technical solution from the prototype are aimed at achieving a technical result and were not identified when studying the level of this and related fields of science and technology and, therefore, meet the criterion of "inventive step".

The method of processing hydroponic nutrient solution is applicable in agricultural enterprises, crop production enterprises, as well as in specialized greenhouses, which meets the criterion of "industrial applicability".

The invention is illustrated by drawings, where in FIG. 1 shows a general view of a device for implementing a method for treating a hydroponic nutrient solution; in FIG. 2 - node for processing the nutrient solution; in FIG. 3 - connection diagram of the windings of the electromagnetic system; in FIG. 4 is a graph comparing the growth of peppers grown in treated and untreated hydroponic nutrient solution.

For clarity, only those details are presented that are necessary for understanding the essence of the invention, and the accompanying elements, well known to specialists in this field, are not presented.

A method of processing a hydroponic nutrient solution is carried out using a device for preparing a hydroponic nutrient solution, which consists of a mixing tank 1 for placing the nutrient solution with inlet pipelines 2, 3 and outlet pipe 4 with the nutrient solution processing unit 5 (Fig. 1), which is made in in the form of two cylindrical bodies 6 with grooves 7 located on the pipeline 4, metal nuts 8 with thread, fixing the cylindrical bodies on the pipeline and attached to the pipeline intami 9, nip dielectric washers 10 and 11 located inside housings four ferrite rings 12 set apart by a distance providing an exception rotating magnetic fields overlap. On each of the ferrite rings there are three windings 13 with terminals 14 connected according to the “star” scheme, the windings are interconnected in parallel and connected to a source of alternating three-phase voltage, which creates an alternating voltage in the resonant ultrasonic frequency range 32–35 kHz.

An example of a specific implementation of the method of processing a hydroponic nutrient solution.

A dry substance or a mixture of the substances that make up the hydroponic nutrient solution is poured into the mixing tank 1 and water is supplied through the inlet pipelines 2, 3, stirred and the resulting solution is piped to the plants 4 through the processing unit 5, where it is subjected to the combined action of acoustic and rotating electromagnetic fields that are created when a three-phase alternating voltage is applied to the windings of ferrite rings 12, a rotating electromagnetic field is created around the windings 13 with the opposite systematic way of rotation in each of the ferrite rings and concentrated in the annular gap, where the nutrient solution flow. The proposed configuration of the windings allows the device to maximize the use of electromagnetic energy of the winding, creating a rotating electromagnetic field. The frequency of the electric current is selected so that a resonance of vibrations occurs at which the maximum radial magnetostrictive vibrations of the ferrite ring are observed, thereby creating ultrasonic wave vibrations in the working area of the device, and affecting the solution. As a result, simultaneously with a variable rotating electromagnetic field, the flow of the nutrient solution is influenced by acoustic vibrations emitted by the inner and outer surfaces of the ferrite rings, which contributes to a deeper (compared with known devices) change in the properties of the solution, stabilization of the optimal range of pH values of the nutrient solution.

For an experimental study, a laboratory setup of the circulation type was assembled. In its composition, the apparatus is powered from a pseudo-three-phase voltage source of 14 V. The current consumed by the apparatus is 200 mA. The solution is fed through a tube passing through the opening of the apparatus. Thus, the solution is exposed to acoustic and electromagnetic rotating fields.

As an object of study, a hydroponic solution is used, which is a mixture of substances (NH ₄ ) ₂ SO ₄ ; (NH ₄ ) HPO ₄ ; K ₂ SO ₄ ; Ca (NO ₃ ) ₂ ; MgSO ₄ with a given concentration and acidity. The solution is taken from the tank of the laboratory setup by means of a pump, passes through the working area of the apparatus, the filter is again poured into the tank, from which a sample is taken to measure the pH value. The pH value is measured at t = 18 ° C using an electronic pH meter KL 009 (1) A. To control the readings of the device, the pH value is checked with universal indicator paper. The initial pH of the solution is 6 units.

The results of the effect of processing on the pH of the hydroponic solution are shown in table 1.

As can be seen from table 1, the pH of the hydroponic solution increases from 6 to 6.9 (ΔрН = 0.9).

To confirm the results obtained in a laboratory setup, a “Floating platform” hydroponic system was made, in which plants are fixed directly on the platform itself, floating on the surface of a nutrient solution located in a container of 56 liters capacity, and their roots are constantly immersed in the solution. Roots are supplied with oxygen by blowing through a nutrient. air solution (aeration) and recirculation method (periodic change) of the solution. The solution through the pump was taken from the bottom of the container of the hydroponic installation, through the pump passed through the apparatus, the biological filter and merged in the upper part of the tank. The system proved to be effective in growing plants such as lettuce, pepper, onions, and eggplant.

Technical data of the device: dimensions of the ferrite ring, the length of the working gap, the number of turns and the diameter of the wire of the windings are selected depending on the amount of the treated solution per unit time.

The studies were carried out at two facilities. The solution for the first installation was not treated, and for the second, the solution was treated as the pH of the solution changed to 6. For the first forty-two days after transplanting pepper seedlings, a twice-diluted nutrient solution was used for the first installation. Then in the second week the plants are given a solution of normal concentration, initially the solution had a pH = 6.5; TDS = 720 PPM. A solution of normal concentration with pH = 5 was initially poured into the second installation; TDS = 645 PPM. The measurement results are presented in table 2. For young plants, the air supply intervals were 15 minutes during the day with an interval of 60 minutes, and at night - 15 minutes with an interval of 180 minutes. Illumination more than 6000 lux.

The results of the study are presented in table 2 "Results of experiments on growing peppers in a hydroponic plant" and on a graph comparing the growth of peppers grown in processed and untreated hydroponic nutrient solution (Fig. 4).

Thus, based on the obtained data from the research results, it can be concluded that the combined effect of acoustic and rotating electromagnetic fields emitted by a device presented in the form of a magnetic circuit from a system of ferrite rings with electric windings, to which a three-phase alternating voltage is applied in the resonant sound frequency range 32 ÷ 35 kHz, effectively stabilizes the pH of the nutrient solution in the desired range and eliminates the need to replace it within sixty days th and maintain its purity.

Claims (1)

A method of treating a hydroponic nutrient solution, including treating a hydroponic nutrient solution by physical action, characterized in that acoustic and rotating electromagnetic fields are used as physical impact, while magnetic circuits in the form of a system of ferrite rings with electric windings are used to create acoustic and rotating electromagnetic fields, which supply a three-phase alternating voltage in the resonant ultrasonic frequency range 32 ÷ 35 kHz.

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