LT6043B - Sapropel based organic fertilizer and method of production thereof - Google Patents

Abstract

The present invention relates to the manufacture of fertilizer and may be applied in production of organic fertilizer on the basis of sapropel and of mixtures of organic and mineral fertilizers. Organic fertilizer on the basis of sapropel consists of organic sapropel with a moisture content of 60 to 70 percent and water-absorbing material hydrogel. Sapropel and hydrogel mass ratio percentage is (99,3-99,4):(0,6-0,7). The method of fertilizer manufacture comprises mixing of organic sapropel with a moisture content of 60 to 70 percent and hydrogel in a weight ratio in kilograms (993-994):(6-7). 

Description

The present invention relates to the field of fertilizer production and can be applied in the production of organic fertilizers based on sapropel for improving the agronomic and biological properties of soil or various mixtures of organic and mineral fertilizers.

Technical field

State of the art

Known sapropel fertilizers consist of prepared sapropel and an additive, and their method of production involves freezing the organic sapropel mass for two cold seasons, thawing the frozen sapropel, removing the thawed sapropel layer, sifting and mixing with organic and mineral additives. During the refrigeration process, when water molecules bind to the crystals, the internal bonds of the colloidal complex are destroyed, and as the sapropel melts, the water bonds in the colloidal complex do not rebuild, leaving a significant proportion of the sapropel in the water: fluffy and sapropel-compatible and organic fertilizers. (Russian Federation Patent No. 2239619. TPK C05F 7/00, Patent Publication Date 10-11-2004).

This type of sapropel-based fertilizer formulation is not suitable for industrial production due to its seasonal nature and excessive dependence on natural conditions. In addition, the length of the production process, the large areas of land required for spreading sapropel, the open mass of sapropel yields weed seed impurities, and mineral fertilizers are not suitable for organic farming.

Other known sapropel fertilizers are a mixture of sapropel and peat, the method of which comprises removing the sapropel from the lake, spreading it on the site, drying and inserting peat into the sapropel with periodic mixing during drying, maintaining the weight ratio of sapropel to peat solids. to 1: 0.5 (Lithuanian Patent No. 4864, TPK C05F 7/00, Patent Publication Date 2001-11-26).

The disadvantages of the following known fertilizers and their method of production: the long production time of fertilizers, their production costs and volumes depend on the climatic conditions, the size of the land for the construction of yards and the distance from the sapropel production site. All this limits the production volume of sapropel fertilizers, increases their production costs, and the fertilizers obtained in open production contain impurities that degrade soil properties. They are uncompetitive in the market because of their labor-intensive and costly production process.

The closest analogue of the present invention is a mixture of organic sapropel and peat, the production method of which is described in the Latvian patent LV no. No. 13629, TPK C05F 7/00, C02 F 11/00, Patent Publication Date 20-12-2007, and Russian Federation Patent RU No. 2336253, TPK C05F 7/00, Patent Publication Date 10/20/2008. The method of production involves mixing the sapropel, which has been removed from the lake with natural moisture, with a water-absorbing material - dried to 10 percent moisture and crushed peat, calculated according to the formula, depending on the moisture content of the sapropel, peat and fertilizer mixture.

Disadvantages of the indicated analogue: large amount of water-absorbing material (peat) required; peat needs to be prepared - dried and crushed; crushed peat particles differ in their structure, composition of organic matter; the amount of peat in the fertilizer mass is several times higher than the dry matter content of organic sapropel, which significantly reduces the quality of organic fertilizers; Peat does not have the organic matter with the long mineralization time that organic sapropel has, so peat is recycled by microorganisms in soil within 1-2 years, and organic sapropel in 6-8 years, so the overall effective effect of fertilizers on soil beneficial properties remains only 3-4 years after insertion.

The essence of the invention

The object of the present invention is to make organic fertilizers based on sapropel in a simpler manner, with better agronomic and biological properties, without the disadvantages of the nearest analogue, preserving the beneficial properties of sapropel. The technical result in organic fertilizers is a significantly higher dry matter content of organic sapropel, a small amount of water-absorbing material, better fertilizer bulk and operating efficiency. The technical result is achieved by mechanical extraction of a large amount of water from the organic sapropel with a small amount of bulk water-absorbing material.

Implementation of the invention

The invention is carried out as follows: a bulk hydrogel is used to extract a large amount of water from a sapropel, and the organic fertilizer based on sapropel comprises from 60% to 70% moisture by weight of organic sapropel and hydrogel, organic sapropel and hydrogel ): (0.6-0.7). The method for making sapropel-based organic fertilizers involves mixing (60-70)% of the moisture content of the organic sapropel and hydrogel as a water-absorbing material in a quantitative ratio of sapropel to hydrogel in kilograms (993-994): (6-7). Use is made of an organic sapropel which is removed from the freshwater body and dehydrated in a conventional closed manner to prevent foreign contamination, and a hydrogel in the form of granules consisting of a network of water-insoluble polymer chains with 100 mass units of water per unit mass. of organic sapropel. Organic sapropel and hydrogel are mixed mechanically in a medium speed mixing mixer, which is housed in a closed production heated space, until the hydrogel pellet is evenly distributed in the sapropel mass. The mixing is necessary to ensure contact between the hydrogel beads and the water molecules, its intensity, time and other mixing parameters are not essential characteristics of this production method as they can be selected on a case by case basis from the properties of organic sapropel.

Sapropel is a biological process substance - colloidal structure sludge formed over thousands of years in the bottom of freshwater bodies (lakes, ponds, ponds, lakes of mire origin) or under peat under conditions of oxygen deprivation, rich in organic matter suitable for fertilizing and improving soil structure . It consists of an algae solution containing weakly bound water and dissolved mineral and organic substances, non-biodegradable plant residues and a complex organic compound in jelly form. Organic matter ranges from 65% to 95% on a dry matter basis. One tonne of natural moisture sapropel contains 840 kg to 960 kg of water and 40 kg to 160 kg of dry matter, containing 33 to 152 kg of organic matter. The colloidal complex in the mass extracted or excavated from the lake and dehydrated sapropel is not destroyed. The organic sapropel mass in this form cannot be used as an organic material for soil improvement, since the irreversible process of converting the entire mass into the ceramic begins naturally when water molecules are removed from the colloidal complex. The dry mass of dehydrated organic sapropel hardens and loses the properties of organic matter suitable for soil improvement. In order to preserve the beneficial properties of the dehydrated organic sapropel mass as an organic material suitable for soil improvement, the colloidal complex must be destroyed to make the sapropel mass friable. A known method of refrigeration or mixing with a water-absorbing material is used to disrupt the colloidal complex of sapropel.

Organic fertilizers based on sapropel use commercially available hydrogel, which is in the form of granules, non-toxic, consisting of a network of water-insoluble polymer chains in which water is absorbed (1 kg of hydrogel absorbs 100 kg of water). The hydrogel retains the absorbed water and slowly releases it. Its ability to absorb and release water works in the soil for up to 10-15 years. Upon contact with the organic sapropel mass, the hydrogel draws water from the sapropel colloidal complex: the colloidal complex disintegrates, the granules swell, and the useful mass of the sapropel colloidal complex becomes a friable material with the necessary agronomic and biological properties.

EXAMPLE OF THE INVENTION: To make one tonne (1000 kg) of organic fertilizer, take 993 kg of organic sapropel containing 70% (700 kg) of water, 29.3% (293 kg) of dry matter and 7 kg of hydrogel, pour into a functioning mixer and mix at a rate up to the hydrogel pellet will be evenly distributed in the organic sapropel mass. The organic fertilizers obtained after mixing consist of 99, 3% organic sapropel and 0.7% hydrogel.

Organic fertilizers based on sapropel are sufficiently loose, the dry solids content of the mixture is 30%, they are friable, and the hydrogel granules absorbed by the dissolved solids from the sapropel are swollen. This fertilizer can be evenly applied to the soil. The roots of the plant may receive water from the hydrogel pellets in the fertilizer gradually over the optimum time for the plant to grow. The plant's important growth factor is not the absolute amount of water in the soil, but the amount it can obtain. Water-absorbed and slow-release hydrogel pellets retain moisture in the soil, preventing the incorporated organic matter from drying out, providing favorable conditions for the development of soil-creating microorganisms, as well as improving the agronomic and biological properties of the soil. The water-releasing hydrogel pellets will re-absorb as soon as water for irrigation or rain reaches the soil containing the pellets. The water-absorbing hydrogel has a lifetime of 10-15 years. Hydrogel pellets can efficiently absorb and release water containing dissolved mineral or organic matter. This makes it possible to fertilize the soil with irrigation water according to its characteristics and the needs of the crop to be grown. At minus temperatures, the water-absorbing hydrogel granules freeze, but retain their properties when thawed. At the end of the life of the hydrogel granules, they break down into non-toxic components.

The major difference between sapropel-based organic fertilizers and water-absorbent hydrogel granules is that (60-70)% of the moisture-absorbent organic sapropel is drawn from the colloidal complex of the sapropel, with water containing up to 60% hydrogel granules. 0.7%; it is significantly less than peat. This is a simpler method of production because it does not require the preparation of a water-absorbing material. Fertilizers contain at least 99.3% organic sapropel and not only have the beneficial properties of organic sapropel retained but also improved.

Organic fertilizers based on sapropel can be used for soil improvement and moisture retention, especially suitable for restoration and remediation of degraded soil and development of organic farming. They can also be used to make organic and mineral fertilizer mixtures.

1. Organic sapropel-based organic fertilizers consisting of a mixture of organic sapropel and a water-absorbing material, characterized in that they consist of an organic sapropel having a moisture content of 60% to 70%, a hydrogel and a mass of organic sapropel and hydrogel. the percentage ratio is (99.3 - 99.4): (0.6 - 0.7).

Claims (5)

DEFINITION OF INVENTION 2. A process for making an organic sapropel-based organic fertilizer comprising mixing an organic sapropel with a water-absorbing material, characterized in that the fertilizer is made from (60-70)% moisture organic sapropel and the water-absorbing material, a hydrogel, by mixing sapropel and hydrogel in (993-994): (6-7). 3. A process for making an organic sapropel-based organic fertilizer according to claim 2, wherein the organic sapropel is removed and freshly dehydrated from the freshwater body by conventional means and is free of foreign impurities. 4. A process for producing an organic fertilizer based on sapropel according to claim 2, characterized in that the hydrogel is in the form of granules consisting of a network of water-insoluble polymeric chains with a mass of hydrogel absorbing 100 mass units of water from the organic sapropel. 5. A method for producing an organic fertilizer based on sapropel according to claim 2, characterized in that the organic sapropel and the hydrogel are mechanically mixed in a medium speed mixer until the hydrogel granules are evenly distributed in the sapropel mass.