RU1681487C - Method of obtaining peat-base biofertilizer - Google Patents

Abstract

The invention relates to methods for the production of peat-based biofertilizers using microflora The object of the invention is to increase the productivity of the method and the quality of biofertilizer. The method is carried out as follows. Peat freed from foreign impurities is diluted with water to a peat moisture of 80%, then shale ash, mineral additives and inoculum of an AMRO No. 1 microorganism culture in the amount of 10% of the initial mixture are added with stirring and active mixing is carried out at a speed 80-100 rpm for 12-14 hours 3 tablets.

Description

The invention relates to methods for the production of biofertilizers based on peat using microflora

The aim of the invention is to increase the productivity of the method and the quality of bio-fertilizer

Example. Peat, water up to a moisture content of peat of 80%, shale ash and mineral additives are sequentially loaded into a container, which are freed from foreign impurities. In the process of mixing, the inoculum of a culture of microorganisms AMRO No. 1 (in the amount of 10% of the initial mass) is introduced and active mixing is carried out at a speed of 100 rpm for 12 hours.

The AMRO No. 1 microorganism culture is an association containing groups of microorganisms having the functions of ammonification, oligronitrophilia. The composition of AMRO No. 1,%:

Bacterial flora 90.5

Actinomycetes „5.5

Gribkova flora4

The result is a fertilizer having biological activity in terms of nitrate nitrogen 224 mg / 100 g dry weight, with a water-soluble substance content of 12.7%

The following examples of the method are carried out similarly, but vary the process parameters (time and mixing speed). Table 1 shows the results of the analysis of fertilizer on the content of water-soluble substances, which is one of the informative indicators characterizing the degree of microbiological degradation of peat.

For the duration of the process - 14 hours, a decrease in the stirring speed from 80 to 70 rpm leads to a significant decrease in the content of water-soluble substances (from 12.3 to 9.1%), which is due to the deterioration of the conditions for the reproduction of microflora due to a decrease in aeration and the degree of dispersion mass Increase mixing speed to 90

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rpm helps to increase this indicator.

A decrease in the stirring speed from 100 to 90 rpm (stirring time 12 hours) does not cause a significant change in the content of water-soluble substances.

An increase in the stirring speed to 110 rpm leads to a slight increase in this indicator, however, at the same time, a substantial heating of the initial mass is observed due to increased mechanical friction, which is undesirable, and also contributes to an additional breakdown of the electric power and a decrease in the operating life of the equipment.

As shown by experiments to determine the mixing time at the optimum speed (90 rpm) (Table 2), 13 hours are necessary.

The characteristics of the bio-fertilizer obtained by the proposed method and the prototype are presented in table 3.

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Claims (1)

As can be seen from the above data, the proposed method, in comparison with the prototype, provides a better product that has high uniformity, is enriched with microflora, which allows it to be used in the future as a uterine culture for subsequent inoculation of peat. SUMMARY OF THE INVENTION A method for producing peat-based biofertilizer, comprising preparing a peat suspension, neutralizing, adding mineral additives and microbial inoculation followed by composting, characterized in that, in order to increase the productivity of the method and the quality of biofertilizing, the peat suspension is neutralized with shale ash , inoculation is carried out by polyculture of microorganisms AMRO No. 1, and composting is carried out with stirring peat suspension at a speed of 80-100 rpm in the tank for 12-14 hours Table 1 table 2 Table 3