UA32414U - Process for preparation of organic, mineral or organic mineral fertilizer - Google Patents

Abstract

A process for preparation of organic, mineral or organic mineral fertilizer comprises selection and formation the composition of initial elements of organic, mineral or organic mineral fertilizer, and filling with it the reservoir of limited volume. The magnetized ferromagnetic particles are introduced into the organic, mineral or organic mineral fertilizer in the amount, which is no less than 1 % of the volume of fertilizer. At that the ferromagnetic particles are dispersed spatially uniformly in the volume of organic, mineral or organic mineral fertilizer.

Description

The useful model refers to agriculture and can be used during the industrial and semi-industrial production of organic, mineral or organo-mineral fertilizers intended for fertilizing plants in different phases of their development. Fertilizers are intended for a prolonged complex effect on the plant and the nutrient regime of the soil. The composition of fertilizers according to agrochemical properties is adjusted at the production stage depending on the soil and climatic conditions in which they will be used and the biological characteristics of the crops that will be grown. Fertilizers are a component of integral plant nutrition management systems aimed at fully providing crops with optimal levels of macro- and microelements during the growing season, and secondly, it is a targeted regulation of soil biological activity processes with the aim of slowing down the mineralization of organic matter and increasing its humification, which will promote synthesis and accumulation humus in soils, increasing their fertility. Fertilizers help plants overcome adverse environmental factors (drought, increased concentration of mineral fertilizers and plant protection agents, etc.).

A known method of magnetic treatment of water. According to this method, water under pressure is moved through a pipeline, on a given section of which a magnetic system is placed. Depending on the degree of magnetic influence, the system can be made of a set of permanent magnets or induction coils, through which a current of different power flows.

After magnetic influence, polar dipoles are formed in water, which affect the structure of water molecules and its physical and mechanical properties. In the case of using magnetized water for irrigation, a high quality of irrigation is ensured due to a decrease in the surface properties of water, and therefore, its high penetrating ability.

Magnetized water, having a high penetrating ability, penetrates through cell membranes, which contributes to more effective transfer of metal salts and organic compounds to the cells for plant nutrition.

The disadvantage of the known method is that water is exposed to a short-term magnetic field and retains its physical and mechanical properties for a short period of time, after which the water returns to its original state (V.I. Klasien. Dokdal AN SSSR, 1966, Mob).

The use of water that has been magnetically treated requires a short period between its preparation and its intended use. In these conditions, a strictly regulated amount of water is necessary, which should ensure its maximum assimilation by the root system of the plant with minimal losses due to filtration into the lower layers of the soil.

The closest technical solution is the method of obtaining organic, mineral or organo-mineral fertilizer, which includes the selection and composition of the original elements of organic, mineral or organo-mineral fertilizer, filling a container of limited volume with it.

According to the known method, depending on the plant's needs for nutrients, fertilizer is prepared with different ratios of mineral and organic components. The composition depends on the digestibility of the fertilizer, the phase of plant development, including the phase of the formation of fruit buds (future harvest).

The disadvantage of the known method is that the organic, mineral or organo-mineral fertilizer is devoid of any magnetic properties, which means that if it is applied to the soil in a dissolved form for root feeding of plants, the coefficients of the use of nutrients are reduced and their non-productive losses are increased. during filtration processes.

The task of the useful model is to improve the method of obtaining organic, mineral or organo-mineral fertilizer by introducing pre-magnetized ferromagnetic particles into the mass of the composition, which consists of the fertilizer, and distributing them spatially evenly in the volume of the fertilizer. This makes it possible to produce a fertilizer with a prolonged magnetic effect on the components of which it is composed. The application of the declared method of making fertilizer allows you to use it effectively during seed germination, as well as for root and foliar nutrition of plants during the growing season, which reduces the costs of carrying out agrotechnical measures, as well as increasing the yield of various agricultural crops.

The task is solved due to the fact that the method of obtaining organic, mineral or organo-mineral fertilizer includes the selection and composition of the starting elements of the organic, mineral or organo-mineral fertilizer, filling a container of limited volume with them.

According to a useful model, magnetized ferromagnetic particles are introduced into the organic, mineral or organo-mineral fertilizer in an amount that is at least 195 times the volume of the fertilizer, while the ferromagnetic particles are spatially evenly distributed in the volume of the organic, mineral or organo-mineral fertilizer .

For a prolonged effect of magnetized ferromagnetic particles on the components of organic, mineral or organo-mineral fertilizer, as well as on the water solution of fertilizer components, magnetized ferromagnetic particles are placed inside the bodies of the solid phase of organic, mineral or organo-mineral fertilizer.

The declared method of obtaining organic, mineral or organo-mineral fertilizer is implemented as follows.

The object of a useful model is a complex fertilizer in a crystalline, water-saturated or dissolved state.

Fertilizer can be represented by its composition as multi-component or mono-component, depending on which crops it is used for and for which growing season.

After making the composition, for example, from nitrogen, potassium and phosphorus compounds with the addition of salts of trace elements as needed, the prepared fertilizer is packaged in appropriate containers - containers for transportation.

In the finished form, the fertilizer is characterized by a different ratio of liquid and solid phases and the volume of filling the vessel.

Previously, before or after preparation of the composition of organic, mineral or organo-mineral fertilizer, ferromagnetic particles of the same size are prepared, subject to magnetization, and permanent magnet particles are formed, which are characterized by a given force of magnetic induction depending on the size, magnetic susceptibility and parameters of the magnetic field, in which they were at the time of magnetization.

After obtaining the necessary volume of magnetized ferromagnetic particles, they are mixed with fertilizer. Depending on the aggregate state of fertilizers, mixing is carried out by mixing in a mixer, using a dispenser or vibrator. The main condition for mixing fertilizer is the maximum spatially uniform distribution of magnetic particles in the volume of fertilizer. If the liquid phase predominates in the fertilizer, the uniform distribution of particles is ensured by shaking, which is carried out before applying the fertilizer to the soil.

Research and research and industrial tests have shown the high efficiency of the interaction of fertilizer and carrier liquid (regardless of its concentration) with the magnetic field created by magnetized ferromagnetic particles. The magnetic field affected not only the carrier liquid, but also the components of the organic, mineral or organo-mineral fertilizer.

It was established that if the number of magnetized ferromagnetic particles is less than 1.095 of the volume of the fertilizer, then the proper biophysical effect on both the fertilizer and the carrier liquid is not ensured. Only if the number of magnetized ferromagnetic particles is more than one percent of the fertilizer volume, the corresponding effect is achieved.

Conducted experiments on the germination of plant seeds, phenological observations of their development during the growing season showed that in the absence of magnetized particles in the fertilizer, germination and growth dynamics are traditional and depend on the optimal ratio of fertilizer components and their concentrations.

If up to one percent of magnetized particles are added to the fertilizer, seed germination and plant growth dynamics are insignificant. In the case of an increase in the number of magnetized particles by more than one percent, the maximum germination of seeds (about 9895) was ensured, the dynamics of plant growth was 35-4095 times higher compared to the variants with a minimum content of magnetized particles and without them.

The effect of implementing the proposed method is achieved due to the complex effect of magnetized particles on the organic and/or mineral components of the fertilizer. In addition, the magnetic field of permanent magnets has a positive effect on the molecular structure of the carrier liquid, changing its wetting ability.

The effect of using permanent magnets made of magnetized ferromagnetic particles is achieved due to the fact that when they are introduced into the soil as part of fertilizers, they retain their magnetic properties for a long period. The magnetic field of permanent magnets affects the irrigation water, which is saturated with mineral and organic components of fertilizers, has high penetrating properties and effectively affects the root system of the plant.

For a prolonged effect of the fertilizer on the root system and to ensure the maximum penetrating ability of the nutrient solution, ferromagnetic particles are placed inside the bodies of the solid phase of organic, mineral or organo-mineral fertilizer.

Analysis of the beneficial effect of the created fertilizer showed its high efficiency for a long time after application to the soil. Fertilizer allows you to ensure a high penetrating ability of the solution during watering the plant, reducing the amount of water and fertilizers required.

Claims (2)

1. The method of obtaining organic, mineral or organo-mineral fertilizer, which includes the selection and composition of the starting elements of organic, mineral or organo-mineral fertilizer, Filling with it a container of limited volume, which differs in that in organic, mineral or organo- magnetized ferromagnetic particles are introduced into the mineral fertilizer in an amount that is at least 1,905 times the volume of the fertilizer, while the ferromagnetic particles are spatially evenly distributed in the volume of organic, mineral, or organo-mineral fertilizer. 2. The method according to claim 1, which differs in that the magnetized ferromagnetic particles are placed inside the bodies of the solid phase of organic, mineral or organo-mineral fertilizer.