SU614782A1 - Method of obtaining biostimulators from peat - Google Patents

Description

The invention relates to the field of agriculture, in particular to methods for the production of growth stimulants. A known method of obtaining plant growth stimulants from humic substances of peat by treating the latter with a weak solution of sodium hydroxide followed by the separation of water-soluble humic acids (fulvic acids) d. However, this method involves obtaining growth stimulators only from humic substances of peat. A method is known for producing organic acids from peat by oxidizing a water-alkaline suspension with air oxygen under heating under pressure, and alkaline hydrolysis is carried out at boiling before oxidation. A mixture of only low molecular weight mono- and dicarboxylic acids is obtained by a known method. The purpose of the invention is to increase the yield of high and low molecular weight acids with biological activity. This goal is achieved by the fact that oxidation is carried out at a temperature of 105160 ° C, a pressure of 5-10 atm for 0.5-2.0 hours, followed by cooling the reaction mass to 80-20 ° C, separating the non-oxidized part of peat, evaporation of the filtrate and drying the target product to powder at 80-90 ° C. Then the filtrate is acidified to a pH of 1-1.5, and the precipitated crystals are filtered, washed and dried to a powdery state at 55 ° C. Example. Peat of a wide range of humidity and degree of decomposition, of different botanical composition, obtained by any known method (preferably milling, as the cheapest) Mixes up with an aqueous solution of alkali (caustic soda, ammonia and others) at a ratio of TOjiF, alkali and water 1: 0.1- 0.4: 10. The resulting suspension is oxidized in a gas-lift type reactor with air, which is both an oxidizer and a propeller under the following conditions: temperature 105-160 ° C, pressure over 510 atm, duration 0.5-2.0 hours. air oxygen containing uc peat humic substances, carbohydrates, lignin and bitumen their oxidative degradation occurs with the formation of alkaline salts of organic medium

acids of various molecular weights possessing properties of biological activity. The reaction mass is allowed to cool to 80-20 C. Discharged by gravity from the reaction mass of the reactor, mainly contains a mixture of high and low molecular weight acids (in the form of salts), an excess of alkali and unoxidized peat constituting 15-25% of the feedstock .

The resulting product in the form of a pulp can be used directly in the animal cohom as an additive1 and containing birlogically active substances.

To obtain a more transportable product, the pulp is evaporated and dried at 80-90 by known methods to a powder.

The mixture of low- and high-molecular-weight acids is obtained by separating the non-acid part from the filtrate, for which the reaction mass from the reactor is piped by gravity to the vacuum or suction filter, where it is filtered and the non-oxidized residue is washed with water. Then, the unoxidized residue is removed as production waste, and the filtrate, containing mainly a mixture of high and low molecular weight acids (in the form of salts) and an excess of alkali, is evaporated and dried with known spam at 80-90 ° C to a powder.

A mixture of salts of high and low molecular weight acids can be used in animal husbandry and crop production in the form of dilute aqueous solutions.

High molecular weight acids with the highest biological activity are obtained by acidifying the filtrate containing a mixture of high molecular weight acids and an excess; alkali, mineral acid, such as sulfuric, to a pH of 1-1.5. At the same time, high molecular weight acids precipitate, which is filtered on a vacuum or suction filter and washed with water to remove excess mineral acid. The resulting nad-like product with a moisture content of 5060% can be used directly or dried at 55 ° C to a powder.

High molecular weight acids can be used in the form of aqueous-alkaline solutions in animal husbandry, where their use is most effective.

Experimental data on the yield of organic acids from finely ground peat of the upper type with a decomposition rate of 22% at a ratio of peat, icyxoro sodium and water 1; 0.4: 10 are given in the table.

Biostimulants from peat were tested by the Leningrad Veterinary Institute at young cattle b and households of the Leningrad Region, and their high efficiency was confirmed, which is an increase in the average daily weight gain of animals by 11-26%.

Positive results were obtained when testing biotopes of peat and peat and growing,

The proposed method of obtaining biostimulants from peat has, compared with existing methods, the following advantages and participation in the process of all the components of the organic matter of peat, which causes a high yield of the target product; use of peat virtually any

the degree of decomposition and moisture content that opens up the raw material base; The target product can be used both in the wine mixture of high- and low-molecular-weight acids, and high-molecular-weight acids separately.

Claims (2)

1. A method of obtaining biostimulants from peat by oxidizing an aqueous alkaline suspension with atmospheric oxygen under heating under pressure, characterized in that, in order to increase the yield of high molecular and low molecular weight acids possessing biological activity, oxidation is carried out at a temperature lOS-ieO C At a pressure of 5-10 atm for 0.52, 0 hour, followed by cooling the reaction mass to 80–20 s, separating the non-oxidizing part of the peat, evaporating the filtrate and drying the desired product to a powder at 80–90 ° C. 2. Method POP.1, characterized in that the filtrate is acidified to a pH of 1.0-1.5, and the precipitated crystals are filtered, washed and dried to a powder at 55-60 ° C, Sources of information taken into account in / examination: 1. Authors certificate of the USSR 142836, cl. A 01 Jtf 5/00, 1961. 2. USSR author's certificate 166669, class, C 07 C 53/00, 1963.