RU2811680C1 - Method for storing agricultural products - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: used in storage facilities for storing agricultural products. A method for storing agricultural products involves placing them in a storage facility containing a supply air duct with a system for regulating the temperature of the air entering the storage facility, an exhaust air duct, a ventilation duct made in the center of the storage facility, with a ventilation pipe laid in it. Ventilation is carried out with air passed through a mesh filter. The mesh filter is filled with natural diatomite with a silicon content of 84-87% and a fraction size of 2.5-5 microns. At the same time, the floor and walls of the storage room are made of diatomite plates.

EFFECT: ensuring effective storage of agricultural products for the allotted period through the use of natural material that can combat microorganisms that cause mold and rot.

1 cl, 1 dwg

Description

The invention relates to agriculture and can be used in storage facilities for storing agricultural products.

There is a known method for storing root crops, which involves placing them in bulk in a storage facility with ventilation ducts located in its lower part, and in order to reduce product losses by improving ventilation conditions, before storage, part of the root crops is cleaned of impurities and this part is laid in ridges above the ventilation ducts, and the uncleaned part is placed in the spaces between the ridges (Author’s certificate No. 1423046, published 09.15.1988).

There is a known method for storing agricultural products, which includes preliminary formation of an additional ventilation system from separate perforated air ducts within the warehouse with a ceiling, connecting the additional ventilation system with the storage ventilation system, placing the products on the additional ventilation system and subsequent removal of the products, while hooks are attached to the ceiling, then taking individual parts of perforated air ducts made by extrusion from a polymer material and forming an additional ventilation system from them by first hingedly hanging individual parts of the perforated air ducts on hooks to the ceiling and then also pivoting the individual parts of the perforated air duct with each other until an air duct of the required length is formed, then the resulting perforated air ducts are connected to the storage ventilation system, after which the products are laid in, after removing the products, the additional ventilation system is dismantled by securing the perforated air ducts on hooks to the ceiling, while the perforation of the latter is used as a means for attaching the perforated air ducts to the hooks, and the surface of the ceiling used as a place for storing perforated air ducts (RF Patent No. 2154934, publ. 08/27/2000).

There is a known method of storing agricultural products, including placing them in storage and air ventilation, while in order to reduce losses and increase shelf life, ventilation is carried out with air passed through a filter filled with sylvinite rock to clean it from bacteria, and saturated with aeroins and salt aerosol ( RF Patent No. 2021684, published 10.30.1994).

The disadvantages of the above known technical solutions are the insufficient efficiency of storage methods.

The technical problem is the insufficient efficiency of storage methods.

The technical result is to ensure efficient storage of agricultural products through the use of natural material that can fight microorganisms that cause mold and rot.

The technical result is achieved by a method of storing agricultural products, including placing them in a storage facility for agricultural products, containing a supply air duct with a system for regulating the temperature of the air entering the storage facility, an exhaust air duct, a ventilation duct made in the center of the storage facility, with a ventilation pipe laid in it, and ventilation are driven by air passed through a mesh filter, while the mesh filter is filled with natural diatomite with a silicon content of 84-87% and a fraction size of 2.5-5 microns, while the floor and walls of the storage room are made of diatomaceous earth slabs.

Natural diatomite is known to be a light-colored, high-silica sedimentary rock formed from the fossilized shells of prehistoric diatomaceous algae. In addition to silicon, diatomite also contains other useful substances, such as phosphorus, calcium, magnesium, iron, boron, manganese, titanium and a number of macro- and microelements, the content of which is much lower than silicon.

The high percentage of silicon in diatomaceous earth is an effective means of combating microorganisms that cause mold and rot.

Grinding natural diatomite to fill a mesh filter to a state with a fraction size of 2.5-5 microns and a silicon content of 84-87% contributes, during the passage of air, to saturating it with microparticles of silicon, which fights microorganisms that cause mold and rot in agricultural products.

Agricultural products stored for storage release natural moisture, which leads to the formation of rot and mold, and diatomaceous earth slabs used for the floor and walls of the storage room help regulate water exchange: they absorb excess moisture and return it when there is a shortage.

The invention is illustrated by the drawing.

Figure 1 shows a general view of the storage facility with agricultural products stored in it.

Storage 1 for agricultural products 2 contains a supply air duct 3 with a system 4 for regulating the temperature of the air entering the storage, an exhaust air duct 5, a ventilation duct 6, made in the center of the storage, with a ventilation pipe 7 laid in it, a mesh filter 8 filled with natural diatomite containing silicon 84-87% and fraction size 2.5-10 microns, the floor and walls of the storage room are made of diatomite plates.

Sorted agricultural crops are delivered to storage 1 for agricultural products 2 and stored in piles, containers, and bins in bulk. The air entering the storage 1 through the supply air duct 3 passes through the temperature control system 4, the mesh filter 8 and through the ventilation pipe 7 enters the ventilation duct 6, from which it spreads through the mass of agricultural products 2 stored for storage, and then exits through the outlet air duct 5 out.

Examples of specific implementation

Example 1

The mesh filter was filled with natural diatomite with a fraction size of 2.5 µm. Diatomaceous earth slabs were used for the floor and walls of the storage room. During the process of storing grain, the storage began to be ventilated with air passed through a mesh filter filled with natural diatomite with a silicon content of 84%. During the allotted storage period of grain, no increase in the temperature of the pile, as well as increased humidity and active activity of microorganisms was observed.

Example 2

The mesh filter was filled with natural diatomite with a fraction size of 4 μm. Diatomaceous earth slabs were used for the floor and walls of the storage room. During the process of storing cabbage, the storage began to be ventilated with air passed through a mesh filter filled with natural diatomaceous earth with a silicon content of 86%. During the allotted storage period, there was no mold or rot on the cabbage.

Example 3

The mesh filter was filled with natural diatomite with a fraction size of 5 μm. Diatomaceous earth slabs were used for the floor and walls of the storage room. During the process of storing potatoes, the storage began to be ventilated with air passed through a mesh filter filled with natural diatomaceous earth with a silicon content of 87%. During the allotted storage period, there was no mold or rot on the potatoes.

Thus, the claimed method of storing agricultural products ensures effective storage of agricultural products for the allotted period due to the use of natural material that can fight microorganisms that cause mold and rot.

Claims (1)

A method of storing agricultural products, including placing them in a storage facility for agricultural products, containing a supply air duct with a system for regulating the temperature of the air entering the storage facility, an exhaust air duct, a ventilation duct made in the center of the storage facility, with a ventilation pipe laid in it, characterized in that the ventilation is carried out air passed through a mesh filter, while the mesh filter is filled with natural diatomite with a silicon content of 84-87% and a fraction size of 2.5-5 microns, while the floor and walls of the storage room are made of diatomite slabs.