SU1198048A1 - Method of producing organomineral fertilizer - Google Patents

Abstract

A method of producing organic fertilizer by mixing peat and sapropel, characterized in that, with a chain of fertilizer and structural properties of fertilizer, peat of medium and high degree of decomposition, 40-50% moisture, and sapropel organic and organomineralnogo class with moisture, corresponding to its fluidity, peat and sapropel are mixed at a mass ratio

Description

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The invention relates to a method for producing organic fertilizers, improving the composition and structure of the soil and increasing the yield of plants.

The purpose of the invention is to improve the priority and structural properties. fertilizer.

Peat has an acidic reaction and contains a small amount of nitrogen, feed and potassium in the forms available to plants. Sapropel of freshwater bodies of water contains much more available forms of nitrogen, phosphorus and potassium than in; peat, respectively. at 30, 60 and 80% and has a reaction medium close to neutral. One of the most important properties of sapropel is their high dispersion, characterized with fractions less than 0.25 mm in the order of 85-95%. This causes their high structuring effect. The characteristics of the peat and sapropel material are presented in Table I.

The following options for the production of peat-sapropel mixtures and composts are investigated according to the known and proposed methods with peat-sapropel ratios of 90:10, 80:20, 70:30 and 50:50 weight. %, as well as with average values of the proposed ratios of 75.25 wt. %

Option 1 - mixed peat of the upper type and organic sapropel class; variant II - lowland peat and organic sapropel are mixed; option Ш mixed peat of the upper type and sapropel of the organomineral class; option 1U - mixed peat of lowland type and sapropel of organomineral class. one.

Each option includes samples prepared with regard to ratios and humidity (according to the known and proposed methods): sample 1 - the prototype is mixed with wet peat {W 86.0, 86.7%) and sapropel fluid (W 91.0; 91 ,eight%); sample 2 — prototype is mixed with wet peat (W 82.1; 85.5%) and sapropel of solid-plastic state (W 55.2; 58.3%); sample 3 — peat is mixed with a humidity of 50% and sapropel of a fluid-plastic state (W 79.1; 88.9%);

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sample 4 — peat is mixed with moisture of 40% and sapropel of a fluid-plastic state (W 79.1; 88.9%); sample 5 - according to the proposed method is the same as sample 3, but with composting; sample 6 - the proposed method is the same as sample 4, but with composting.

The mixing of the components is carried out in a dosing-mixing installation. Dosing of peat is carried out by changing the cross section of the window of the unloading hatch of the feeder bunker, and sapropel - by changing the position of the gate valve of the supply pipeline.

Example 1. Mix peat and sapropel in the ratio of 90-10 wt.% On dry matter. Samples of peat of medium and high degree of decomposition of the upper type (W 86.7%) and. lowland type (W 86%) are mixed according to a known method with a fluid sapropel: organic class (W 91.8%), organo mineral class (W 91%). Samples of the same high-moor peats {W 85.5) and lowland (W 82.1) are mixed with sapropel of the hard-plastic state: organic

JQ class (W 58.3%), organo-mineral class (W 55.2%).

Samples of peat of the same type and degree of decomposition with humidity 40-i 50% are mixed with sapropel of the flow-plastic state: organic class (W 88.9%), organ-general class (, l%).

The resulting peatosapropel mixtures are subjected to composting for I, 5 months. . .

The test results on the content of fractions of water-resistant aggregates, mobile forms of nutrients and increase in yield of green mass are presented for all options in Tables 2 and 3.

As a result of mixing peat and sapropel with moisture corresponding to the proposed method, peat-propanelev mixtures were obtained with a higher content of stocks of more than 0.5 mm water-resistant units by a factor of 1.8 (1.1-3.3) compared to peat-propromel mixtures by a known method ( Table 2).

An increase is also observed in the fractions of 0.5-0.25 mm 1.3 (1.1-1.4) times.

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as a result of composting, there is a slight decrease in the content of water-resistant aggregates in fractions greater than 0.5 mm by 0.6% and in fractions 0.5-0.25 mm by 0.5% compared with the non-composted mixture. The content of the available forms of food elements as a result of the composting and the increase is on average 1.31 (1.12-1.64) times (Table 3). I The increase in the yield of green mass of sa when injected into the sandy soil 100 t / ha of the peat-sapropel compost is 84% (70-93) by comparison. with a similar dose of torfosapropel mixture prepared by a known method. The yield on the control (sandy soil without fertilizer) is 15.5 g / vessel (Table 3).

Example 2. Peat-sapropel mixtures and composts are prepared in all variants as in example 1, re 1, but the ratio of peat and sapropel is 80:20 and 70:30 wt.% Of dry matter.

In peat-sapropel mixtures prepared at a humidity of the proposed method, there is a fraction of more than 0.5 mm of water-resistant aggregates at a ratio of 80: 20% 3.7 (1.6-7.1) times, and at a ratio of 70: 30% 3.2 (1.2-6.6) times as compared with the known method. Fractions of 0.5-0.25 mm, respectively, increase by 1.7 (1.2-2.8) and 2.0 (1.1-3.0) times in comparison with the known method (Table 2).

As a result of composting, a decrease in the content of water-resistant aggregates in fractions greater than 0.5 mm is at the considered ratios of the materials to be mixed, respectively 0.5 (0-1.3)% and 0.8 (0.31, 4)%, and in fractions of 0.5-0.25 mm 0.9 (0.5-1.5)% and 1.0 (0.1-2.1)% as compared with the uncomposted mixture.

The content of the available forms of food elements as a result of composting, respectively, increases by an average of 1.35 (1.16-1.52) and 1.3 (1, 20-1.56) times (Table 3).

The yield increase of the green mass of oats, boosted according to example 1, respectively, the ratio is 129 (105-148)% and 121 (85-158)% compared with the known method (Table 3).

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Froze Peat-sapropel mixtures and composts are prepared for all variants as in Example I, but the ratio of peat and sapropel is 50: 50%.

In the peat-sapropel; mixtures prepared at the humidity according to the proposed method contain fractions larger than 0.5 mm water-resistant

0 units 2.4 (1.1-5.0) times, and fractions of 0.5-0.25 mm - 1.7 (1.13, 0) times more than by a known method (Table 2 ).

As a result of composting

15, the content of fractions larger than 0.5 mm is reduced by 0.2 (0-0., 6)%, and fractions of 0.55-0.25 mm - by 0.4 (0-0.7)% compared to uncompacted mixture.

20 The content of available forms of food elements as a result of composting increases on average. 1.13 (1.05-1.37) times.

The yield increase of the green mass of oats grown according to example 1 is 62 (58-71)% compared with the known method (Table 3).

Analysis of the results obtained shows that the mixing of peat

The medium and high degrees of decomposition with a moisture content of 40-50% with organic and organic sapropels in the plasticity state leads to an increase in the fractions of water-resistant aggregates with sizes larger than 0.5 and 0.5-0.25 mm with extreme values at the introduction of 20-30 weight. % sapropel.

The composting process of peat-propropel mixtures leads to

0 slight change in aggregate-. composition of the mixture, but contributes to the increase in the content of the available forms of plant nutrients, especially when the ratio of peat and sapropel

5 80:20 and 70: 30%.

Further, the content of agronomically valuable water-resistant aggregates and nutrients contributes to an increase in the yield of plants, the greatest increase in yield is observed when adding peat-propropel composts prepared by the proposed method. .

Table 4 shows the characteristics

5 peat-aprolel mixtures and composts and their fertilizing properties for the average value of the proposed ratios of the materials to be mixed.

5 -: - 11

The optimum optimum ratio is between 80–70% peat blended materials and 20–30% sapropel is considered in Example 4 for the average of the expected ratios of peat and sapropel (Table 4).

EXAMPLE 4. Peat-sapropel mixtures and composts are prepared in all variants as in Example 1, but the peat-sapropel ratio is 75: 25%.

In peat-and-propellean mixtures prepared with humidity ,. corresponding to the predosable method, there are fractions with a size of more than 0.5 mm of water-carrying units 3.5 (1.6-3.8) times, and fractions 0.58048. 6

0.25 mm 1.7 (0-2.4) times more than by a known method (table, 4).

As a result of composting, the content of fractions larger than 5 0.5 mm is reduced by 0.5 (0-1.1)%, and fractions of 0.5-0.25 mm - by 0.8 (0.31, 4)% by compared with uncomposted mixture,.

As a result of composting, the content of available nutrient forms rises an average of 1.39 (1.15-2.27) times.

The yield increase of the green mass of oats, boosted according to example 1, 15 is 125 (108-161)% compared with the known method (Table 4).

T a b l and c a I

Lowland-type peat 45 8.1 4.6 High-moor peat 3.6 3.8 type 25, Sapropel organic class sa (A less than 30%) - 15.2 6.8 100.0

- 48.0 7.0 52.0 31.0

92.0 32.7 48.9 3.5 3.5 93.0

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Claims (1)

METHOD FOR PRODUCING ORGANOMINAL FERTILIZER by mixing peat and sapropel, which consists in the fact that, in order to increase the fertilizer and structural properties of the fertilizer, medium and high decomposition peat is used, 40-50% moisture, and the sapropel is of organic and organomineral class with with humidity corresponding to its fluid-plastic state, peat and sapropel are mixed at a mass ratio (80-70) :( 20-30), after which the mixture is composted for 1, 5 months <g> 119804a