RU2520144C1 - Method of production of liquid humic fertiliser - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method of production of liquid humic fertiliser comprises mixing the humic-containing material with 1.5-2.0% aqueous potassium hydroxide solution, suspension sedimentation and separation of the liquid fraction, at that stirring of the humic-containing material with 1.5-2.0% aqueous potassium hydroxide solution and the suspension sedimentation is carried out repeatedly, the humic-containing material is used as waste of production of the liquid phase bioagent for crop production and farming, which active ingredient is organic matter carbon C_org - 30.0-40.0, wt %, comprising macronutrients: nitrogen N_tot. - 1.15-1.80, wt %; phosphorus P₂O₅ - 1.4-2.2, wt %; potassium K₂O - 1.0-2.3, wt %; calcium CaO - 1.1-1.6, wt %; magnesium MgO - 0.2-0.8, wt %, and trace elements, at least, boron, copper, cobalt, manganese, selenium, silicon, and mixing the humic-containing material with 1.5-2.0% aqueous potassium hydroxide solution is carried out three times, each in a ratio of 1:10 at the speed of 20 rev/min, at a temperature of 60°C for at least 1 hour, and sedimentation - after each mixing at a temperature of 60°C for 2 hours, followed by separation and combining the supernatant.

EFFECT: invention enables to expand the range of liquid humic fertilisers, to improve plant growth and development, to activate soil-microbiological processes.

1 dwg, 4 tbl, 2 ex

Description

The invention relates to the non-waste production of environmentally friendly liquid humic fertilizers for agriculture based on peat containing humic acids, macro- and microelements to increase soil fertility, improve plant growth and development, and fertilize various crops.

There are many technical solutions that disclose methods for producing liquid humic fertilizers by treating humified material (water-peat slurry, peat, sapropel, compost, humus horizons of different types of soils, etc.) with an alkaline reagent, settling the suspension and separating the liquid fraction, adding the source material elements of plant mineral nutrition (A.S. USSR No. 442180, IPC C05F 11/02, 1972; Pat. RF No. 2071459, IPC C05F 11/02, 1993; Pat. RF No. 20155949, IPC C05F 3/00, C05F 11 / 02, 1991; Pat. RF No. 2178777, IPC C05F 11/02, 2000).

A known method of producing liquid humic fertilizer, including mixing humic containing components with a 0.5 - 2% aqueous solution of caustic potassium, settling the suspension, separating the liquid fraction, introducing microelements and elements of plant mineral nutrition into it, and mixing the humic containing components with an aqueous alkali solution in the ratio 1: 11-13 and sedimentation is carried out alternately at least twice at a temperature of at least 15 ° C (RF patent No. 2181710, IPC C05F 11/02, C05F 3/00, 2000, prototype).

A disadvantage of the known technical solutions, including the prototype, is the need to enrich the obtained liquid humic fertilizer with elements of the mineral nutrition of plants, which leads to an increase in the cost and complexity of the production of liquid humic fertilizers for agriculture.

The problem solved by this invention is to develop a method for producing liquid humic fertilizer, characterized by simplicity and low cost, expanding the range of liquid humic fertilizers for plant growing and agriculture.

The technical result obtained from the solution of the problem is to reduce the cost of production of liquid humic fertilizers and, therefore, the cost of the direct target product - liquid humic fertilizer, expanding the range of liquid humic fertilizers and allowing its use in agriculture to improve plant growth and development, and also to activate soil microbiological processes. The use of the liquid phase biofeedback product for crop production and agriculture as a humicontaining material - sludge - does not require the cost of its purchase and allows attributing the production of liquid humic fertilizer to the liquid phase biofeedback production waste for plant growing and agriculture, and the production of liquid phase biofeedback for crop and agriculture non-waste production of environmentally friendly liquid humic fertilizers.

The object of the invention is solved in that in a method for producing a liquid humic fertilizer, comprising mixing a humic containing material with a 1.5-2.0% aqueous solution of caustic potassium, settling the suspension and separating the liquid fraction, and mixing the humified material with 1.5 With a 2.0% aqueous solution of caustic potassium and suspension suspension is carried out three times, as a humic-containing material, the waste product of the production of a liquid-phase biofeedback for plant growing and agriculture, using the fermentation process for 5 days in a peat mixture with a component ratio of 50x50 with the addition of wood ash in an amount of 3 wt.%, followed by extraction with a 1% potassium solution of a solid phosphate fermentation product and filtering the extracted mass, resulting in a precipitate, which is a waste product liquid-phase biofeedback for crop production and agriculture, the active principle of which is carbon of organic matter C _org - 30.0 ... 40.0, wt.%, and, in addition, including macroel elements: nitrogen N _total - 1.15 ... 1.80, wt.%; phosphorus P ₂ O ₅ - 1.4 ... 2.2, wt.%; potassium K ₂ O - 1.0 ... 2.3, wt.%; calcium CaO - 1.1 ... 1.6, wt.%; magnesium MgO - 0.2 ... 0.8, wt.% and trace elements, at least boron, copper, cobalt, manganese, selenium, silicon, while mixing the humic material with 1.5-2.0% aqueous caustic potassium solution is produced three times, each time in a ratio of 1:10 at a speed of 20 rpm, at a temperature of 60 ° C for at least 1 hour, and settling after each stirring at a temperature of 60 ° C for 2 hours, followed by separation and combination supernatant.

Sludge, which is a waste product from the production of liquid-phase biologics for plant growing and agriculture and is characterized by a high level of biogenicity, nutrition and physiology, is a moist (W 70-80%) homogeneous mass of dark brown color without an unpleasant odor. The production of liquid-phase biofeedback involves a fermentation process for 5 days in a peat mix with a component ratio of 50 × 50 with the addition of wood ash in an amount of 3 wt.%, Followed by extraction with a 1% potassium phosphate solid phase fermentation product and filtering the extracted mass, as a result of which get a precipitate, which is a waste product of the liquid-phase biofeedback for crop production and agriculture. Low-lying or transitional peat and cattle manure are used as the main feedstock for the production of liquid-phase biologics and, respectively, sludge, and the technology itself is aimed at isolating and preserving the biogenic component, which is expressed in the choice of the main biological transformation process - fermentation and the sparing temperature conditions of its conduct (37-55 ° C). However, this method does not allow maximum use of the internal nutritional potential of peat, in particular, no humic substances are released. Consequently, the organic matter of the sediment in the production of liquid-phase biological agents is also not activated and should be considered as a humic-containing material for further conversion into a liquid humic fertilizer. The sediment contains carbon of organic matter C _org - 30.0 ... 40.0, wt.%, All the main nutrients: nitrogen N _total. - 1.15 ... 1.80, wt.%; phosphorus P ₂ O ₅ - 1.4 ... 2.2, wt.%; potassium K ₂ O - 1.0 ... 2.3, wt.%; calcium CaO - 1.1 ... 1.6, wt.%; magnesium MgO - 0.2 ... 0.8, wt.%, trace elements (at least Mn, B, Si, Mo, Cu, etc. - the protocol of the results of the analysis of the Federal State Budgetary Institution of Science of the Order of Lenin and the Order of the October Revolution of the Institute of Geochemistry and Vernadsky Analytical Chemistry of the Russian Academy of Sciences), a large number of agronomically useful microflora (10 ⁸ ... 10 ⁹ CFU / g), physiologically active substances (enzymes, vitamins) are presented, the general forms of carbon and nitrogen are in the optimal ratio (C: N) ~ 22, i.e. there are all the main components that can have a positive effect on many soil processes and processes of plant growth and development.

Treatment of the sediment with caustic potassium makes it possible to activate the humic complex of peat, which has the properties of physiological activity. The degree of activation is expressed in the increased content of mobile humic substances, which in the form of potassium humates are plant growth stimulants. At the same time, KOH is a source of potassium, as one of the components of the mineral nutrition of plants. In addition, potassium hydroxide is relatively cheap compared to other alkaline reagents used to isolate humates.

It was established [T.A. Kukharenko, S.A. Shapiro Fundamentals of technology for the production of humic acids, 1957] and experimentally confirmed by the example of the aforementioned precipitate that for the most complete and economically viable extraction of humic acids, three successive extraction with an alkaline reagent is necessary. In this case, the bulk of the humic acids is extracted at a time, with further extraction additional humic acids are obtained.

Established [USSR Copyright Certificate No. 1323555, Cl. C05F 11/02, 1987], that when peat is processed with a 1.0-2.5% potassium hydroxide solution, the purest humic acids are released that contain the largest number of active functional groups that are plant growth promoters. When using a KOH concentration of 0.5%, the solution does not contain enough potassium. This leads to the fact that in the complex fertilizer, it is necessary to additionally introduce potash fertilizer to satisfy plants in potassium. With an increase in the concentration of alkali to 3% and higher in the isolated humates, a decrease in the content of active functional groups and an increase in ash content are noted. This is explained by the fact that more concentrated alkaline solutions extract not only all humic substances of peat, but also the organic matter of carbohydrates, lignin, waxes, bitumen, which, although they contain part of the functional groups, are less active or even inhibitors.

It was experimentally established that in the case of obtaining liquid humic fertilizer from the sediment - a departure from the production of liquid-phase biological agents - 1.5-2.0% concentrations of caustic potassium are optimal. This conclusion was made when assessing the entire complex of the studied parameters in the experimental samples of liquid humic fertilizer (the content of potassium humates, humic acids, plant nutrients).

It was experimentally established that the optimum volumetric ratio is sediment: aqueous solution of caustic potassium = 1:10. With an increase in this ratio, a more dilute solution of the finished liquid humic fertilizer with lower quality characteristics is obtained, in addition, the cost of preparing a larger amount of alkali solution increases. With a decrease in this ratio, a more concentrated solution of the finished liquid humic fertilizer is obtained, however, the qualitative characteristics do not increase in proportion, in addition, the yield of the finished product decreases by 7-11%.

It was experimentally established that the effective temperature range for the interaction of sediment and potassium hydroxide is 55-65 ° C, while the optimum temperature is 60 ° C. At temperatures below 55 ° C, the extraction of humic substances is much slower, which reduces the quality of liquid humic fertilizer and increases the time for its production, and at temperatures above 65 ° C in an alkaline environment, hydrolysis of humic substances occurs, as well as the inactivation of some biologically active substances and lysis microflora cells.

The total settling time, which results in the infusion of the reaction mixture — 6 hours, divided into equal time intervals — is optimal and economically justified in terms of the release of humates and humic acids. A longer infusion time increases the duration of the process and increases the cost of the technology for producing liquid humic fertilizer, less time is not enough to obtain a high-quality product.

The invention is illustrated by drawings.

The figure shows a diagram explaining a method for producing liquid humic fertilizer for crop production and agriculture; table 1, characterizing the composition of liquid humic fertilizer; table 2, indicating the effect of liquid humic fertilizer on the growth and development of spring wheat cultivar "Irgina"; table 3, explaining the effect of liquid humic fertilizer on the productivity of potato varieties "Zhukovsky"; table 4, which describes the effect of liquid humic fertilizer on the development of soil microorganisms under potatoes of the Zhukovsky variety.

The claimed method includes the following operations:

1. Mixing the sediment, which is a waste product of the liquid-phase biological product for crop production and agriculture, with a 1.5-2.0% aqueous solution of caustic potassium with a ratio of components of 1:10 at a speed of 20 rpm for at least 1 hour at a temperature of 60 ° FROM;

2. Settling the suspension at a temperature of 60 ° C for 2 hours;

3. Separation of the liquid fraction by draining the supernatant through a filter baffle;

4. Mixing the precipitate obtained by separating the liquid fraction with a 1.5-2.0% aqueous solution of caustic potassium with a ratio of components of 1:10 at a speed of 20 rpm for at least 1 hour at a temperature of 60 ° C;

5. Settling the suspension at a temperature of 60 ° C for 2 hours;

6. Separation of the liquid fraction by draining the supernatant through a filter baffle;

7. Mixing the precipitate obtained by separating the liquid fraction with a 1.5-2.0% aqueous solution of caustic potassium with a ratio of components of 1:10 at a speed of 20 rpm for at least 1 hour at a temperature of 60 ° C;

8. Settling the suspension at a temperature of 60 ° C for 2 hours;

9. Separation of the liquid fraction by draining the supernatant through a filter baffle.

The supernatant obtained after triple separation of the liquid fraction is combined.

Examples of specific performance of the claimed method.

In the method for producing liquid humic fertilizer, the feedstock is treated three times with a 1.5-2.0% aqueous solution of caustic potassium, and the first time the precipitate is the starting material, which is a waste product of the liquid-phase biological product for plant growing and agriculture, the second and third times the residue obtained after each previous separation of the liquid fraction.

Example 1

1.5 kg of caustic potassium and 98.5 l of tap water are loaded into a 150 liter container to obtain a 1.5% aqueous solution of caustic potassium, as well as 10 kg of sludge, which is a waste product from the production of liquid-phase biological agents for crop production and agriculture, less than 1 hour at a speed of 20 rpm at a temperature of 60 ° C and then leave the suspension for sedimentation at a temperature of 60 ° C for 2 hours. At the same time, the humic complex is activated, which is expressed in an increased content of mobile humic substances, which, in the form of potassium humates and humic acids containing the largest number of active functional groups, are plant growth promoters. At a temperature of 60 ° C, thermophilic and spore-forming microorganisms are preserved and the mesophilic microflora is lysed, at which they release additional nutrients that are useful for improving the growth and development of plants and soil processes. Then, the liquid fraction is separated by pouring the supernatant through the filter baffle into the accumulator, and 1.5 kg of caustic potassium and 98.5 l of tap water are again loaded into the tank, all are mixed for at least 1 hour at a speed of 20 rpm at a temperature of 60 ° С and leave the suspension to settle at a temperature of 60 ° C for 2 hours. After a lapse of time, the liquid fraction is separated by draining the supernatant through the filter baffle into the accumulator, and 1.5 kg of caustic potassium and 98.5 l of tap water are again loaded into the tank, all are mixed for at least 1 hour at a speed of 20 rpm at a temperature of 60 ° C and leave the suspension for sedimentation at a temperature of 60 ° C for 2 hours. After the lapse of time, the liquid fraction is separated by draining the supernatant through a filter baffle into a reservoir and combined with the previously obtained supernatant. As a result of three-time processing of sludge, which is a waste product of the production of liquid-phase biofeedback for plant growing and agriculture, with an alkaline reagent, the most complete extraction of humic substances occurs.

Example 2

Similar to example 1, but in a capacity of 150 l load 2 kg of caustic potassium and 98 l of tap water to obtain a 2% aqueous solution of caustic potassium.

Obtained in the drive dark brown concentrated supernatant is a liquid humic fertilizer, the composition of which is presented in table 1.

The liquid humic fertilizer obtained by the proposed method is proposed to be used in crop production to accelerate seed germination, improve plant growth and development, as well as in agriculture to activate soil microbiological processes.

The remaining sediment after receiving liquid humic fertilizer is recommended to be disposed of, for example, by diluting with water and using crops, green lawns, and indoor plants as top dressing.

The possibility of successful and effective use of the obtained liquid humic fertilizer in agriculture to improve plant growth and development, as well as to activate soil microbiological processes, is confirmed by the results of experiments shown in tables 2-4.

I series.

1 experience.

In Petri dishes, 25 seeds of spring wheat of the Irgina variety were germinated. Seeds were irrigated with tap water.

2 experience.

25 seeds of spring wheat of the Irgina variety were also germinated in Petri dishes, but irrigation was carried out with a working solution of liquid humic fertilizer obtained by the claimed method, obtained by diluting concentrated liquid humic fertilizer with tap water in a ratio of 1: 450.

All two experiments, from beginning to end, were carried out under identical conditions according to the generally accepted methodology. The results of the experiments are shown in table 2, from which we can conclude that the liquid humic fertilizer actually obtained by the claimed method affects the growth and development of plants.

II series.

1 experience.

In a field experiment on growing potatoes of the Zhukovsky variety, potato tops were sprayed during the sprouting, budding and flowering phases with tap water.

2 experience.

In a field experiment on growing Zhukovsky potatoes, potato tops were sprayed during the sprouting, budding and flowering phases with a working solution of the liquid humic fertilizer obtained by the claimed method, obtained by diluting concentrated liquid humic fertilizer with tap water in a ratio of 1: 200.

All two experiments, from beginning to end, were carried out under identical conditions according to the generally accepted methodology. The experimental results are shown in tables 3 and 4, from which we can conclude that the liquid humic fertilizer actually obtained by the claimed method affects the growth and development of plants and promotes the activation of soil microflora.

The claimed method allows to obtain a liquid humic fertilizer, characterized by low cost and simplicity of the technological process of its production. The use of the liquid phase biofeedback product for crop production and agriculture as a humicontaining material - sludge - does not require the cost of its purchase and allows attributing the production of liquid humic fertilizer to the liquid phase biofeedback production waste for plant growing and agriculture, and the production of liquid phase biofeedback for crop and agriculture non-waste production of environmentally friendly liquid humic fertilizers, expanding their range.

The developed method is technologically advanced, which allows the process to be scaled and carried out under production conditions, and the liquid humic fertilizer obtained by this method is applicable in agriculture to improve plant growth and development, as well as to activate soil-microbiological processes and is obtained from raw materials, not requiring the cost of its acquisition and the stages of its preliminary preparation.

Table 1 The composition of liquid humic fertilizer Name of indicator Characteristic or value 1.5% KOH solution 2.0% KOH solution Appearance, color, smell Dark brown liquid without any unpleasant odor Humates of potassium *, g / l not less than 17 not less than 20 Humic acids **, g / l not less than 2.7 not less than 2.7 Acidity (pH) 13-14 13-14 Mass fraction of total nitrogen (N), g / l not less than 0.1 not less than 0.1 Mass fraction of total carbon (C), g / l not less than 2 not less than 2 Mass fraction of total phosphorus (P ₂ O ₅ ), g / l not less than 0.1 not less than 0.1 Mass fraction of total potassium (K ₂ O), g / l not less than 10 not less than 15 Trace elements (Mn, Si, Mo, Cu, etc.), g / l no more than 0,01 no more than 0,01 Note - * determined by evaporation; ** determined by precipitation with hydrochloric acid and further drying at 105 ° C

table 2 The effect of liquid humic fertilizer on the growth and development of spring wheat variety "Irgina" Name Without the use of liquid humic fertilizer When using liquid humic fertilizer 1.5% KOH solution 2.0% KOH solution The average lengths of seedlings and root system, cm 7.48 / 9.72 8.31 / 10.44 8.36 / 10.50 The average mass of seedlings and root system, mg 5.77 / 4.28 6.41 / 4.91 6.50 / 4.98 The total mass of seedlings and root system, mg 10.05 11.32 (an increase of 12.6%) 11.48 (an increase of 14.2%) Germination,% 92 96 96

Table 3 The effect of liquid humic fertilizer on the productivity of potatoes of the Zhukovsky variety Name Without the use of liquid humic fertilizer When using liquid humic fertilizer 1.5% KOH solution 2.0% KOH solution Total yield (small, medium and large potatoes, kg / ha) 23.1 26.2 27.6 Commodity potatoes (medium and large, t / ha) 20.9 24.4 24.8

Table 4 The effect of liquid humic fertilizer on the development of soil microorganisms (mln / g) under Zhukovsky variety potatoes Name The number of certain microorganisms, million / g Without the use of liquid humic fertilizer When using liquid humic fertilizer 1.5% KOH solution 2.0% KOH solution Total microbial count after three sprays 1.5 decrease 1.3 increase 2.0 increase The total microbial number at the end of the experiment 0.7 decrease 1.1 increase 1.2 increase Ammonizing microorganisms 6.8 * 14.6 * 12.8 * Amylolytic microorganisms 23.2 * 32.7 * Zb, 9 * Phosphate Mobilizing Microorganisms 13.8 * 16.9 * 15.2 * Note: * - the average number of microorganisms per season

Claims (1)

A method of obtaining a liquid humic fertilizer, comprising mixing a humic containing material with a 1.5-2.0% aqueous solution of caustic potassium, settling the suspension and separating the liquid fraction, wherein mixing the humic containing material with a 1.5-2.0% aqueous solution caustic potassium and sedimentation of the suspension is carried out repeatedly, characterized in that as a humiciferous material, a waste product of the production of a liquid-phase biological agent for plant growing and agriculture, obtained by carrying out the fermentation process, is used for 5 days, a peat mixture with a 50:50 ratio of components with the addition of wood ash in an amount of 3 wt.%, followed by extraction with a 1% potassium solution of a phosphoric solid-state fermentation product and filtering the extracted mass, resulting in a precipitate, which is a waste product of liquid-phase biofeedback for crop production and agriculture, the active principle of which is the carbon of organic matter C _org - 30.0-40.0, wt.%, and, in addition, including macronutrients: nitrogen N _total. - 1.15-1.80, wt.%; phosphorus P ₂ O ₅ - 1.4-2.2, wt.%; potassium K ₂ O - 1.0-2.3, wt.%; calcium CaO - 1.1-1.6, wt.%; magnesium MgO - 0.2-0.8, wt.% and trace elements, at least boron, copper, cobalt, manganese, selenium, silicon, while mixing the humic material with 1.5-2.0% aqueous caustic potassium solution is produced three times, each time in a ratio of 1:10 at a speed of 20 rpm, at a temperature of 60 ° C for at least 1 hour, and settling after each stirring at a temperature of 60 ° C for 2 hours, followed by separation and combination supernatant.

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