RU2248955C2 - Bioorganic fertilizer - Google Patents

Abstract

FIELD: agriculture, fertilizers.

SUBSTANCE: bioorganic fertilizer comprises avian dung processed by enzymatic fermentation in combination with trace elements including copper, cobalt and zinc, and macronutrient elements also - nitrogen, phosphorus and potassium in the bound form. Biological and organic components are combined in the fertilizer and components of fertilizer are taken in the following ratio, wt.-% per absolutely dry matter: macronutrient elements - total nitrogen, 4.0-7.0; ammonium nitrogen, 2.5-4.0; phosphorus (P₂O₅), 7.0-12.0; potassium (K₂O), 1.0-3.0; trace elements, mass concentration in mg/l, not above: copper, 3.0; cobalt, 5.0; zinc, 23.0; water, wt.-%, 85-95. Invention provides safety utilization of corrosive waste from poultry plant, enhances the productivity and quality of production significantly and reduces consumption of fertilizers. Invention can be used in production of high-effective bioorganic fertilizers.

EFFECT: improved preparing method, valuable properties of fertilizer.

1 dwg, 1 tbl, 3 ex

Description

The claimed invention relates to agriculture, and more specifically to the production of organic fertilizers based on poultry manure, and can be used in crop production and in the industrial utilization of poultry waste.

Natural organic fertilizers used in crop production are of low efficiency, which is why in order to obtain acceptable yield indicators they have to be applied to the soil in very large volumes - from 3 to 12 and even up to 30 tons per 1 ha (see V.A. Vasiliev et al. “Handbook of Organic Fertilizers”, M., Rosagroprom, 1988, p. 39, 170).

Bioorganic fertilizer is also known according to the patent of the Russian Federation No. 2191764, C 05 F 3/00, 2000. Such a fertilizer contains moist nitrogen-free substance of bird, mainly chicken, manure, as well as calcium salts of nitrogen-containing organic acids and calcium oxide hydrate.

Although this fertilizer allows you to utilize poultry waste and regulate the acid-base conditions of the soil, the effectiveness of this fertilizer is quite low, since to achieve the required performance per 1 ha, 5.5 tons of fertilizer must be applied, which requires high costs for their delivery and application. In addition, the production process of this fertilizer is periodic, inefficient, with high energy costs and with the obligatory presence of staff in contact with harmful pollutants - fresh litter and other harmful chemicals.

All of the above makes this fertilizer ineffective and uneconomical in manufacture and use, which drastically narrows its scope.

The closest in technical essence and in the achieved effect from its use to the claimed bioorganic fertilizer is the well-known fertilizer according to the patent of the Russian Federation No. 2184718, C 05 F 11/08, 2000, containing biological, mineral, organic components and trace elements, and as a mineral component it contains water-soluble salts of monovalent cations and inorganic acids containing potassium, phosphorus and nitrogen in bound form. As a biological component, it contains bird droppings processed by microbiological fermentation and the active biomass of microorganisms, as well as other components. In addition, among the trace elements present in poultry manure processed by microbiological fermentation, as well as in fresh manure, copper, cobalt and zinc are also contained (see “Unconventional feed in the diets of farm animals”, M., Kolos, 1984, p. 192 )

Although this fertilizer allows you to utilize poultry waste and accelerate seed growth, plant growth and fruit ripening, however, due to its multicomponent composition, the production and use of it is difficult and economically disadvantageous, especially when used for processing fields with large areas.

The task to which the invention is directed is to increase the efficiency of production and use of bioorganic fertilizer by increasing the efficiency of its use for any agricultural crops in the fields of any area.

This problem is solved using the technical result from the use of the claimed invention, which consists in providing high productivity and comfortable conditions with a continuous method of fertilizer production, as well as in ensuring low fertilizer consumption per hectare of cultivated soil when achieving increased productivity.

This result is achieved by the fact that in a well-known bioorganic fertilizer containing processed by microbiological fermentation bird droppings with trace elements, including copper, cobalt and zinc, as well as macroelements: nitrogen, phosphorus and potassium in bound form, firstly, the biological and organic components are combined and are poultry manure processed by methane fermentation, containing micro and macro elements,

secondly, the components of the fertilizer are in the following ratio:

- macronutrients, wt.% on absolutely dry matter:

- total nitrogen 4.0 ... 7.0

- including ammonium nitrogen 2.5 ... 4.0

- phosphorus (P ₂ O ₅ ) 7.0 ... 12.0

- potassium (K ₂ O) 1.0 ... 3.0

- trace elements, mass concentration mg / l, not more than:

- copper 3.0

- cobalt 5.0

- zinc 23.0

- water, wt.% 90 +/- 5

The quantitative ratios of the ingredients of the inventive bioorganic fertilizer were obtained experimentally after a large number of analyzes of the composition of the fertilizer during its production and subsequent experimental use.

In addition to the above macro- and microelements, the fertilizer contains an active microbial mass of bacteria that carry out methane fermentation, which fall into the final product in accordance with the technology.

The proposed bioorganic fertilizer is obtained by methane fermentation of bird droppings using a starter culture containing methane-forming bacteria, for example, such as “Methanobacterium species”.

The fertilizer plant is fully automated. The process is continuous and is carried out according to the following scheme: the feedstock enters the receiving hopper, from where it is pumped into the intermediate tank. From the intermediate tank, the feed is pumped to the bioreactor by a metering pump, where methane (anaerobic) fermentation of the feedstock takes place in the temperature range from +40 to + 56 ° С. Microbiological starter culture is introduced into the raw material once at the stage of launching the bioreactor and is prepared as follows.

Ferment is prepared by anaerobic (methane) fermentation of fresh cow and horse manure, as well as goose droppings, taken in the ratio: 1: (1.5 ... 2.5) :( 2.5 ... 3.5).

Recycled litter - finished fertilizer - is drained by gravity from the bioreactor into the finished product bin. At the same time, another useful product for the processing of raw materials is biogas (produced during the process of fermentation of bird droppings) is taken from the bioreactor by a compressor pump and fed to the boiler room for use as fuel.

After completion of the process, the result is a bioorganic fertilizer, which is a liquid from light brown to dark brown in color with an acidity (indicator of the activity of hydrogen ions) from 7 to 8 pH. At the same time, a mass concentration of toxic element impurities is significantly lower than the maximum permissible concentration (MPC) for soils, as well as an index of sanitary-indicative microorganisms (BGKP and enterococci) from 1 to 9 cells / g and the absence of viable eggs and larvae of helminths, pathogenic bacteria, in t .h. salmonella.

Multiple experiments were conducted on the development and application of the inventive bioorganic fertilizer based on various Nizhny Novgorod agricultural enterprises.

The experiments confirmed the high efficiency of the proposed bioorganic fertilizer. We illustrate this with a few examples.

“Example 1. To study the effect of various doses of the claimed fertilizer on the yield of various agricultural crops, an experiment was conducted on the fields of the state variety-testing section according to the method of state testing of agricultural crops. The study was carried out in three cultures: spring wheat of the Isheevskaya variety, barley of the Elf variety and vetch oat mixture.

The experience was laid in 2-fold repetition.

All crops were sown with conditioned seeds with the seeding rate adopted in production for each crop. The soil under the experiment was gray forest, with a heavy loam texture.

Fertilizer during the growing season was applied twice: before cultivation and in top dressing.

Experience has shown (see Table 1 and the yield schedule) that the use of the proposed fertilizer provided an increase in productivity for all three of the above crops, and this increase is comparable to the increase from the use of highly concentrated mineral fertilizers.

The greatest increase in yield for the three above crops was obtained at a dose of 0.7 t / ha of the claimed fertilizer.

In addition, additional experiments with wheat and oatmeal mixture showed that even with a dose of just 0.38 t / ha, a very good yield of these crops is provided (see Table 1).

At the same time, experiments on the application of the proposed fertilizer in doses typical of organic fertilizers, for example up to 4 t / ha, showed yield results 2 ... 4 times worse than when applying the above-mentioned small doses.

The results can be explained by the balanced composition of the fertilizer, the presence of nutrients in it in an easily digestible form for plants, as well as the presence of growth stimulants - bacterial vital products that are effective in small doses, and when applied in conventional doses of other fertilizers, inhibit plants.

Moreover, to study the effect of the claimed fertilizer on the yield of spring wheat, barley and oatmeal mixture, the following composition was used:

Dry matter, wt.% 5.0

including in wt.% on dry matter (CB):

- total nitrogen 7.0

(- including ammonium nitrogen 3.8)

- phosphorus (P ₂ O ₅ ) 10.0

- potassium (K ₂ O) 1,0

- trace elements, mass concentration:

(mg / l) (wt.% at NE) - copper 0.1 0.02 - cobalt 0.22 0,044 - zinc 1,6 0.32 - water, wt.%

(See the report of the enterprises LLC “GEA” and “Nizhny Novgorod fertilizers” “Studies of the efficiency of the Urozhay-S fertilizer application in the 2000 ... 2002 seasons”, Nizhny Novgorod, 2002, P. 4 .. .6, as well as Test Report N 26 of 02.15.2001 of the Testing Laboratory of Soils, Agrochemicals, Water, Feed, Agricultural and Food Products of the Nizhny Novgorod SCAC)).

Example 2. To study the effect of the claimed fertilizer on the yield of such an agricultural crop as corn, its production tests were carried out on a plot of 40 ha.

Fertilizer was applied once by surface irrigation, followed by termination with a cultivator before sowing. The fertilizer dose was 0.35 t / ha.

The yield of maize in the experimental plot was 290 kg / ha, and in the control plot, where fertilizers were not applied, the yield of corn was 80 kg / ha. Those. yield increase amounted to 210 kg / ha or 380%.

At the same time, to study the effect of the claimed fertilizer on the yield of corn, a fertilizer of the following composition was used:

Dry matter, wt.% 6.9

including in wt.% on dry matter:

- total nitrogen 6.5

(- including ammonium nitrogen 3.62)

- phosphorus (P ₂ O ₅ ) 11.9

- potassium (K ₂ O) 1,0

- trace elements, mass concentration:

(mg / l) (wt.% at NE) - copper 0,07 0.01 - cobalt 0.14 0.02 - zinc 1.8 0.26 - water, wt.%

(See the report of the enterprises of LLC GEYA and Nizhny Novgorod Fertilizers LLC “Studies of the effectiveness of the Urozhay-S fertilizer application in the 2000 ... 2002 seasons”, Nizhny Novgorod, 2002, p.2, also Test report dated 02.17.2000 Testing Laboratory of Soils, Agrochemicals, Water, Feed, Agricultural and Food Products of the Nizhny Novgorod SCAC)).

Example 3. To study the possible field of use of the proposed fertilizer was conducted its production tests in a greenhouse plant on the cultures of cucumber varieties:

"Oriole", "Mazay", "Valentine".

Feeding was carried out once a week at the rate of 0.150 t / ha. Just spent 6 dressings. The total fertilizer dose was 0.9 t / ha.

In the control section of the greenhouse, top dressing was carried out with conventional mineral fertilizers.

The yield increase of cucumbers fed with the claimed fertilizer compared to the yield of cucumbers fed with mineral fertilizers exceeded 30% with a 50% reduction in the cost of using fertilizers due to the low cost of fertilizer and lower current costs for its use.

Based on the above results, we can conclude that the optimal dose of the proposed fertilizer lies in the range from 0.3 to 1.0 t / ha, depending on the type of agricultural crops.

At the same time, to study the effect of the claimed fertilizer on the yield of cucumbers, fertilizer of the following composition was used:

Dry matter, wt.% 7.0

including in wt.% on dry matter:

- total nitrogen 4.0

(- including ammonium nitrogen 3.0)

- phosphorus (P ₂ O ₅ ) 8.0

- potassium (K ₂ O) 1.5

- trace elements, mass concentration:

(mg / l) (wt.% at NE) - copper 0.12 0.017 cobalt 0.22 0,03 zinc 1,5 0.21 - water, wt.%

Using the invention allows:

1. To ensure the high efficiency of the application of bioorganic fertilizers by providing a significant increase in the yield of agricultural crops while reducing the required doses that are necessary for applying to the soil, and, accordingly, reducing the cost of energy, equipment and human resources.

2. Improve the quality of farmed agricultural products through the use of only natural organic fertilizer, guaranteed not to contain any harmful impurities and chemical additives that could pass into the grown plants.

3. To increase or restore the fertility of the soil into which the proposed fertilizer is applied, by transferring to the soil useful active microflora contained in bioorganic fertilizer.

4. To ensure the widespread use of bioorganic fertilizer on any soil under any agricultural crop due to its versatility due to its original balanced composition and neutral acidity.

5. Ensure the complete and safe disposal of extremely aggressive waste from poultry farms, and, consequently, provide a significant improvement in the environmental situation in the regions in which the poultry farms are located.

6. To ensure high production efficiency of the claimed fertilizer through the use of a completely waste-free technology (a complete closed cycle of methane fermentation), which allows to obtain two final useful products - bioorganic fertilizer and biogas used as a cheap effective energy source.

7. To increase labor productivity, production efficiency and comfortable work of maintenance personnel in the production of fertilizer by ensuring its production in one stage with full automation of the entire production process, eliminating the need for constant presence of personnel at the production site in an aggressive environment dangerous to human health.

ORGANIC FERTILIZER Table 1 CROP ADDITION TO CROP CROPS, DEPENDING ON DOSES OF INTRODUCING BIO-ORGANIC FERTILIZER The dose of fertilizer, t / ha The yield increase in kg / ha per 1 ton of fertilizer Wheat Barley Wax oatmeal mixture 4.00 0.90 1.12 1,50 1.30 2.20 1,62 4.90 0.70 2.85 2.28 6.10 0.38 2.60 0.79 4.20

Claims (1)

A bioorganic fertilizer containing recycled microbiological fermentation of bird droppings with trace elements, including copper, cobalt and zinc, as well as macroelements nitrogen, phosphorus and potassium in a bound form, characterized in that the biological and organic components are combined, and the components of the fertilizer are in the following ratio: macronutrients, wt.% on absolutely dry matter total nitrogen 4.0 ... 7.0 including ammonium nitrogen 2.5 ... 4.0 phosphorus (P ₂ O ₅ ) 7.0 ... 12.0 potassium (K ₂ O) 1.0 ... 3.0, trace elements, mass concentration mg / l, not more than: copper 3.0 cobalt 5.0 zinc 23.0 water, wt.% 85 ... 95