SU1697672A1 - Method of preparation regulator for plants growth of peat - Google Patents

Abstract

This invention relates to agriculture. The purpose of the invention is to reduce the time to obtain the target product. The goal is achieved using the method of obtaining a plant growth regulator from peat, including oxidation of peat suspension and separation of the target product, and the peat suspension is oxidized by electrolysis at a voltage of 200 V under the influence of a pulse current with a pulse frequency of 0.1 Hz at 50- 60 ° C, and the separation of the desired product is carried out through a perforated cathode. The duration of the preparation of the product according to the proposed method is 5-7 minutes, while the oxidation of peat suspension with ozonized air with an ozone content of 4-15% in the known method is carried out for 15-80 minutes. When processing agricultural crops with a solution of the product obtained by the proposed method, the yield increases by 17-22% and it does not differ in physiological activity from the product obtained in a known manner. 2 tab. s Ё

Description

The invention relates to agriculture, namely to the production of plant growth regulators from peat.

The purpose of the invention is to reduce the time to obtain the target product.

The method is carried out as follows.

Example. To obtain a peat suspension, for example, ground milled wood-sedge peat with a humic content of 48% (in which humic acids 65% and fulvic acids 35%) is used. The dry matter concentration in the suspension is adjusted to 5-10% at a pH of 6-7, and then the suspension is placed in an electrostatic unit, mounted with the possibility of applying a pulsed current from a constant voltage source to a suspension voltage up to 200 V, heating and maintaining a predetermined temperature with the help of thermal relay, as well as removal of electrostatic precipitator through the cathode.

Under the influence of a pulsed field, for example, with a pulse current frequency of 0.1 Hz and a voltage of 200 V. The suspension is heated to 50-60 ° C, after which the electro-filtrate is taken through a perforated tube (cathode), and then the growth regulator is examined with a concentration of 0.01% for physiological activity and agronomic value.

Effect of a growth regulator derived from a peat suspension at various temperature conditions on the prostate energy

ABOUT

VI

about VI th

Nor and the germination of seeds of vegetable crops are given in Table 1.

As can be seen from the table. 1, the optimum temperature regime for the activation of a suspension in the preparation of an electrofiltrate with physiological activity is a temperature of 50-60 ° C. The growth regulator obtained in this mode has the best results of agronomic value increase.

It is known that all electrochemical processes are redox, since they are accompanied by loss or reduction of electrons. In this case, the electroreduction reaction occurs at the cathode, and the electrooxidation reaction occurs at the anode. In this case, the electric current behaves as a strong oxidizing agent, which intensifies the process of destruction of the organic matter of peat with an increase in its agronomic value.

With an increase in oxidation time over 7 minutes, accompanied by an increase in temperature to 70-80 ° C, the process of obtaining a growth stimulator is no longer characterized by accumulation, but by decomposition of a substance with a low molecular weight and a decrease in physiological activity (experiments 3.4 and 3.5). At the same time, the duration of the optimal mode (experiments 3.2 and 3.3) corresponds to 5-7 minutes, while the duration of the optimal mode of obtaining the regulator according to the prototype method (15-80 minutes) is 3-11 times higher.

 With a decrease in temperature (experiment 3.1) of obtaining a growth stimulator below 50 ° C, the conductivity of organic substance molecules in the suspension decreases, fewer collisions occur and less free ions are formed. By reducing the formation of free ions, the effect of an electrical double layer accompanying the process on the mobility of charged colloidal particles, on the flow of a liquid (electro-filtrate) in the porous material, on the properties of porous and other membrane systems is reduced, which also reduces the agronomic value of peat and the effectiveness of the method as a whole.

Under laboratory conditions, according to a standard procedure, experiments were conducted on the germination of seeds of vegetable crops of carrots, onions, tomatoes, and cucumbers. Seeds are treated with physiologically active solution.

the preparation received at various modes of activization of organic matter of peat. The concentration of the drug is 0.01%. In the control experiment, seeds (100 pieces) were treated with water. The repetition of the experience is fourfold. Data on yield are presented in table. 2

Biological tests established that the physiological activity obtained by the proposed method

oximate drugs that stimulate the development of the plant root system and the phytohormones of the plant itself generally intensify the whole cycle of development of agricultural plants and thus increase the yield by 17-22%, and does not differ in physiological activity from (prototype).

Using the proposed method

obtaining a growth regulator for agricultural plants from peat makes it possible to shorten the time required for obtaining the target product by 3-11 times compared to the existing ones.

Claims (1)

Invention Formula A method for producing a plant growth regulator from peat, comprising oxidizing a peat suspension and separating the target product, characterized in that reducing the time to obtain the target product, oxidizing the peat suspension is carried out by electrolysis at a voltage of 200 V under the influence of a pulsed current with a pulse frequency of 0.1 Hz at 5060 ° C, and the separation of the target product through a perforated cathode. 1 Control (water) 2Vyper suspension 3 Electrofilter concentration of 0.01% with: 54.2 100.0 62.3 100.0 35.9 100.0 54.1 100.0 57.2 100.0 64.5 100.0 65.1 100.0 67.3 100.0 54, 9,101.3 62.5 100.336.3- 101.0 154.5 100.757.8 -10164.9 100.0 66.2 101.7 67.9 100.9 Note, The duration of the production of the electrostatic precipitator according to the proposed method for optimal modes (experiments 3.2 and 3.3) ranged from 5 to 7 minutes. The duration of obtaining the filtrate in the optimal mode by a known method (prototype) ranged from 15 to Ј0 minutes. Table 2 The effect of the product obtained by the proposed method on the yield of plants