RU2497785C2 - Method of obtaining manure of prolonged action - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to agriculture. Method of obtaining manure of prolonged action includes introduction of zeolite particles with sizes 50-500 mcm into melt in quantity 5-15% of melt weight, with saturation of nano-channels of zeolite microparticles with nutrient medium of melt being realised by energy of ultrasonic fluctuations.

EFFECT: invention makes it possible to obtain manure, stable to dissolving and wash-out nutrient medium particles from it by subterranean waters, which ensures ecological safety of such manure and longstanding ability of nutrient medium absorption by root system of plants.

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Description

The invention relates to the field of the national economy "chemistry", to the sub-sector "production of mineral fertilizers" when using the technology of mixing microparticles of zeolites with a mineral nutrient medium, and to the industry "agriculture" when using the technology of mixing microparticles of zeolite with an organic nutrient medium.

The purpose of the method is to obtain a fertilizer that is resistant to dissolution and leaching of the nutrient medium particles from it by groundwater, which ensures the environmental safety of such fertilizer and the long-term possibility of absorbing the nutrient medium by the plant root system and mycorrhiza (mushroom root), which is facilitated by the unique properties of ion exchange of microparticles zeolite due to the network of nanochannels, the filling of which with a nutrient medium was the aim of the present invention.

The task in general is solved by the authors of the invention "Glass fertilizers of prolonged action" (RU 2163587 C1, 02.09.1999). The essence of this invention is to enclose a nutrient medium in a glass shell from washing it away by soil water and to allow the root system to penetrate into the glass to absorb the nutrient medium. The disadvantage of all glass fertilizers is the need for glass washing and the production of sufficiently large cylinders (diameter 5 mm and length 15 mm), which complicates their application in the soil, concentrates the nutrient mixture only in vitrified cylinders or in vitrified large granules, which forces the root system to branch in vain in the soil. To eliminate this, it is necessary to make the containers of the nutrient medium minimal, and their quantity in the soil maximum. To achieve this goal, passageways (rather than deaf ones like other minerals, for example, diatomite mineral) are suitable channels of the mineral zeolite (varieties of it - chabazite, clinoptilolite, mordenite, erionite), in which you can place the nutrient mixture . It was practically impossible to carry out, since the length of these channels of arbitrary shape in the section is very large compared to the size of the passage section of the channel, which is measured in nanometers (nm).

In the description of the patent (RU 2371427 C2) for “Fertilizer, organomineral prolonged action” it is written “Zeolite, by virtue of its porous structure,“ holds ”these components in itself, due to which they are absorbed by the plant gradually throughout the growing season”, the zeolite microparticles will be “Keep” nutrients in themselves if they manage to fill the nanoscale channels in the cross section over the entire volume of the zeolite particle. But this by simple mixing, bubbling, heating fails.

The authors of the patent (RU 2255926 C1) on the “Method for the biological activation of natural zeolites” do the same - they mix modernized tuff with a fraction size of up to 2 mm with an aqueous suspension of phosphate-mobilizing microorganisms without the use of heating to intensify the penetration of the solution into the canaliculi of particles, which only fills the mouths these canals.

In the claims (RU 2255926 C1) it is written: "A method for the biological activation of natural zeolites, including mechanical activation ...". The main disadvantage of this method is that mechanical activation does not allow filling the nanochannels with bio-solution.

Another analogue should be noted the technology for producing fertilizer (RU 2130006 C1) based on zeolite, since in this technology, in contrast to the above, zeolite particles with sizes of 0.1 ÷ 0.2 mm are used. The small particle size also determines the shorter length of the nanochannels, facilitating their filling in case of using not the mechanical and not thermal activation methods, but the ultrasonic activation method.

A similar set of essential features to the proposed mineral fertilizer is a method for producing a phosphorus-containing mineral fertilizer (RU 2179542 C1), in which the nutrient medium is also deposited on particles of “clinoptilolite-containing tuff with a particle size of 0.1-1.0 mm in an amount of at least 1% melt fertilizers. " It is also noted that "natural zeolite is preferably ground to a particle size of not more than 0.2 mm."

The closest set of essential features to the proposed organic fertilizer is a prolonged-action organic fertilizer (RU 2371427 C2), in which 10-15 wt.% Zeolite are included in the nutrient medium. The disadvantage of this inclusion is that the multichannel structure of the zeolite is not involved as a depository of the nutrient medium for many years of penetration of the heads of the root system into the canal for absorption of the nutrient medium. To determine the filling of the nanochannels with a nutrient medium is possible only due to the energy of ultrasonic radiation, which is the essence of the present invention.

Usage: in business for the production of environmentally friendly long-term action of mineral fertilizers near deposits of zeolites or organic fertilizers near the location of biological resources.

The essence of the method consists in saturating the nanochannels of microparticles of the mineral zeolite with a nutrient medium from the melt due to the activation of the medium by ultrasonic energy.

The smaller the particles of zeolite, the more sources of nutrient medium will be for the root system of plants. Therefore, particles of zeolite with sizes of 50-500 microns in the amount of 5 = 15% by weight of the melt are used. Complex mineral or organomineral fertilizers with long periods of action have been obtained, environmentally friendly, since they give the nutrient medium only to the heads of the root system that have penetrated the mouths of the canals and do not allow the soil to be washed out by soil water. Such fertilizers based on zeolite microparticles and a nutrient medium have high abrasion resistance, low dust, environmentally friendly, perennial and have depository agrochemical properties.

The implementation of the filling of the nanochannels with a nutrient medium in zeolite particles was carried out on the installation, the scheme of which is shown in figure 1.

The installation consists of two containers. The medium enters the tank 1 from the conveyor 2. A heater 3 is installed under the bottom of the tank, an air bubbler is located at the bottom of the tank 4. A stirrer is installed in the center of the tank 5. Pump 6 pumps the medium from tank 1 to tank 7. Zeolite particles are loaded into the tank 7 by transformer 8. A rotating dispenser 9 is mounted in the bottom of the container 7 tapering downward. An air bubbler is mounted above it 10. Magnetostrictors 11 are installed on the inner walls of the container 7, powered by an ultrasonic generator of the GU-03 type with di pazonom operating frequency of 10-30 kHz. Filled with a nutrient medium particles of zeolite, like other components of the fertilizer, dispenser 9 are removed from the volume of the tank 7 and fall on the conveyor 12, which feeds fertilizers for drying.

Zeolites must be dried before being loaded into the nutrient mixture so that the nanochannels are free of moisture.

Since the density of zeolites is 2.0–2.3 g / cm ³ , they are well mixed in a nutrient medium under the influence of sparging, especially since the nanochannels are not yet filled with a nutrient medium.

As the nanochannels are filled with a nutrient medium under the influence of force fields of ultrasonic vibrations, their weight increases compared to unfilled, and such particles are immersed in a container 7 to a dispenser 9, by which they are transferred to a conveyor 12 and then dried.

Claims (1)

A method of producing a prolonged action fertilizer by introducing into the melt particles of zeolite with sizes of 50-500 microns in an amount of 5-15% of the mass of the melt, characterized in that the nanochannels of zeolite microparticles are saturated with the nutrient medium of the melt by the energy of ultrasonic vibrations.