RU2516454C2 - Method of obtaining organic-mineral compost - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to agriculture. Method of obtaining organic-mineral compost includes application of cattle manure, and addition to compost of pig manure, sediments of sewages and mineral component - phosphogypsum. All components are taken with specified ratio. Components are composted in summer period for 3 months in conditions of high average daily temperatures of compost from 35 to 45°C, with monthly mixing until ripening.

EFFECT: invention makes it possible to simplify and reduce process of compost obtaining, and increase its efficiency as ameliorator of agricultural land.

1 ex

Description

The invention relates to methods for organomineral composts used as ameliorants of agricultural land.

A known method of producing organic fertilizers of fast and prolonged action, suitable for increasing the yield of all types of crops, improving the structure of any soil, reclamation of disturbed lands, detoxification of soils contaminated with pesticides, nitrates and technical fluids (RF patent No. 2420500, CL C05F 11/02, C05F 11/06, publication date: 06/10/2011), which includes the mixing of coal series caustobioliths with mineral fertilizers, alkalis, a lignocellulosic constituent and highly toxic agricultural waste odds (pig manure and bird droppings), disinfection, dehydration and transfer to granulation. Fast humates are preliminarily obtained by cavitational dispersion of caustobiolites in an aqueous solution of alkalis until the humates completely reach a temperature of 75-90 ° C or prolonged humates by cavitation dispersion of caustobiolites in an aqueous acid solution until a temperature of 60 ° C is reached. Then alkali is added and dispersed to a temperature of 75-90 ° C and obtaining humates with controlled release of the active substance. The lignocellulose component of fast action is obtained by cavitational fermentation dispersion of raw materials in an aqueous solution with the addition of starter culture from thermophilic bacteria with the participation of chemical and catalytic fermentation or the lignocellulosic component of prolonged action by cavitation dispersion of a raw material in an aqueous solution of mineral fertilizers and trace elements with addition of pork manure temperature 75-90 ° C. Highly toxic agricultural wastes that make up the organic part of fertilizers are processed into a fast-acting component by cavitation dispersion of raw materials in an aqueous solution of thermophilic bacteria with chemical and catalytic effects and a prolonged-action component by cavitation dispersion of raw materials in an aqueous solution of mineral fertilizers and trace elements to a temperature of 75-90 ° C. The suppression of all bacteria, microbes, pathogens, eggs, worms, seeds of plants that have not lost their germination, is carried out by cavitation dispersion and mechanical, thermal, electrical and chemical effects on bacteria. Dehydration of an organomineral suspension is carried out by spraying a suspension heated to 75-90 ° C in vacuum with the organization of explosive boiling, fine atomization and rapid dehydration.

The disadvantage of this method is its complexity and duration, since it is carried out in several stages. In this regard, this method is very time-consuming and energy-intensive.

There is also known a method of production for agriculture of complex fertilizer (RF patent No. 2151757, class C05F 11/02, publication date: 06/27/2000) containing brown coal, peat, a calcium-containing component in the form of out-of-furnace dust - waste from cement production, as well as phosphate flour, potash and urea as mineral fertilizers in the following ratio of components, wt.%: brown coal 12-24, out-of-furnace dust 9-15, phosphorite flour 20-30, potash 4-6, urea 10-12, peat else. The invention can be used to obtain complex fertilizer containing the necessary components for the effective improvement of soil, plant growth conditions and the creation of favorable conditions for the life of soil microorganisms, which makes it possible to abandon the additional use of other (simple and complex) mineral fertilizers, reduce the fertilizer application rate by unit of fertilized area, reduce agricultural work and increase soil fertility.

The disadvantage is the low content of organic fertilizer (peat) in the mixture and a wide range of mineral additives, which complicates the production and effectiveness of complex fertilizers.

A known method of producing complex organic fertilizers - ameliorant (RF patent No. 2349565, class C05F 3/00, publication date: 03/20/2009, prototype), containing cattle manure, bird droppings, sawdust and horse peat. Moreover, litter and sawdust are used not as separate components, but as a mixture obtained by pre-saturation of sawdust with bird droppings. Horse peat is used as a mixture with cattle manure obtained by pre-saturating peat with manure. Additionally, low-level peat is also introduced into the composition in the following ratio of components, wt.%: Sawdust saturated with bird droppings, 20–25, peat high saturated with cattle manure, 30–35, low-lying peat - the rest. The invention allows to obtain a product with a content of 12-15% humic compounds, enriched with a complex of amino acids and microelements, which can be used as the main fertilizer, bioactivator for soil, the basis for complex organomineral fertilizers, and also as an effective reclamant.

The disadvantage of this method is its complexity, since it does not include individual components, but mixtures obtained by pre-saturation of sawdust with bird droppings, and of peat from cattle manure. In this regard, this method is very long and laborious. The disadvantage of this method is that the substrate includes only an organic component that does not include mineral colloids, which reduces the effectiveness of complex compost as an ameliorant.

The technical result is to simplify and reduce the process of obtaining compost, increase its effectiveness as an ameliorant of agricultural land, as well as reduce labor costs and energy intensity.

The object is achieved in that in the method for producing organomineral compost, including the use of cattle manure, according to the invention additionally contains pig manure, sewage sludge and the mineral component phosphogypsum in the following ratio, wt.%:

phosphogypsum 10-13 pig manure 11-13 sewage sludge 6-8 cattle manure rest

which are composted in the summer for 3 months at high average daily temperatures of compost from 35 to 45 ° C, stirring monthly until maturing.

The novelty of the claimed method is due to the fact that it is proposed to use various wastes of agricultural and industrial production in order to obtain organomineral compost, the properties of which are improved by the interaction of the proposed components based on a combination of mineral and organic colloids. The claimed method is very simple, allows for a short time to obtain highly effective fertilizer, which is advisable to use in agriculture.

According to the patent and scientific and technical literature, no similar technical solution was found, which allows us to judge the inventive step of the proposal.

The method is as follows.

In summer, at high average daily temperatures, phosphogypsum, pig manure, sewage sludge and cattle manure are mixed in the following ratio (wt.%): Phosphogypsum - 10-13, pig manure - 11-13, sewage sludge - 6 -8, cattle manure - the rest. Then monthly stirred for 3 months until ripening.

The variation in the percentage of individual components is due to differences in the pH of reclaimed soils, which allows you to control the reaction of the soil medium in the range from slightly acidic (pH 6.5) to slightly alkaline (pH 7.5).

An example of a specific implementation of the method of obtaining organomineral compost

Obtaining and evaluating the effectiveness of organomineral compost was carried out on the territory of OJSC "Testament of Ilyich" of the Leningrad District.

The properties of the composite compost, offered as the main fertilizer, were compared with the organic fertilizer used in the household (cattle manure). When composting cattle manure together with pig manure, sewage sludge (organic component) and phosphogypsum (mineral component), the fertilizer acquired a number of positive qualities. The use of phosphogypsum in compost with a pH of 5.0-5.5 helped to neutralize the alkaline reaction of the environment of organic waste (pH 7.5-8.0). At the time of maturation of the composite compost, the reaction of the medium ranged from 6.5 to 7.5.

When storing clean cattle manure, large losses of nitrogen (up to two thirds or more of its initial content) and organic matter were noted. The preservation of nitrogen in manure is an important practical and environmental task, and therefore its composting with other organic fertilizers together with phosphogypsum is a preventive measure against useless nitrogen losses. With the joint composting of cattle manure, pig manure, sewage sludge with phosphogypsum, ammonia is absorbed due to the exchange of phosphogypsum cations for ammonium ions. Together with the nitrogen part, organic matter is stored in a complex compost (losses are reduced to 40%) due to aggregation of phosphogypsum with an organic component (cattle manure, pig manure, sewage sludge). In addition, with the combined use of organic and mineral components, compost is enriched with phosphogypsum calcium, sulfur, phosphorus, silicon and other trace elements necessary for the growth and development of crops.

The use of phosphogypsum in compost contributes to the disinfection of the organic component (mainly pig manure and sewage sludge). This is due to the influence of sulfuric, phosphoric and other phosphogypsum acids on helminths, which die in an acidic environment due to maceration of their shell.

After 3 months, compost formed in this way becomes safe, has positive properties and can be used as an ameliorant of agricultural lands, contributing to the improvement of soil physics, enriching it with organic matter, calcium, sulfur, micro- and mesoelements, which has a beneficial effect on the development of crops and their productivity, the functioning of communities of microorganisms and mesofauna.

The effective impact of organomineral compost was determined on the experimental site of OJSC Zaveta Ilyicha according to the following soil parameters: the water capacity increases and the soil density decreases, the reaction of the soil environment increases, the content of organic matter and basic nutrients increases, and the content of mobile forms of heavy metals decreases.

The use of complex compost in the experimental fields of the farm affected the agrophysical characteristics of the soil: the content of finely dispersed fractions (<0.005 mm) increased by 12% compared to the control version (without composting); soil density decreased by 20%; soil porosity increased by 15-19, and moisture capacity - by 40-45%. This leads to an improvement in the structure of the root layer of the soil, which in turn creates favorable conditions for the intensive growth and development of crops. The process of soil aggregation with the introduction of organic mineral compost enhances the stability of organic matter in the soil, since the main center of accumulation of organic nitrogen and carbon are microaggregates, which are complexes of colloidal particles of phosphogypsum with organic colloids of soil and organic waste (cattle manure, pig manure, sewage sludge) . The combination of the organic and mineral components of complex compost favors the improvement of soil aeration, its enrichment with oxygen, increased porosity and decreased density, active absorption and more economical use of moisture.

The introduction of the proposed compost into the soil for agricultural crops increases (by 3%) and prolongs the action of organic matter. The increase in the content of phosphorus and calcium in the soil is mainly determined by the intake of these elements with the mineral part of the compost (phosphogypsum), and the increase in the nitrogen content is associated with a decrease in the transformation of the organic matter of the organic components of compost. This creates the conditions for the conservation of soil organic matter and its gradual replenishment.

In the experimental plot where compost was applied, the content of earthworms and enchitreides, the most important producers of humus, increased, due to an increase in the soil's organic matter and productive moisture. An increase in the population of earthworms indicates favorable nutrition and development conditions when combined compost is applied to the soil. Thus, the number of earthworms under control of 23, the experimental plot - 65 individuals / m ^3, and accordingly Enchytraeids -.. 115 and 227 copies / m ^3.

A year after the introduction of organic mineral compost at a dose of 60 t / ha, a decrease in the content of mobile forms of heavy metals was also observed. This is probably due to an increase in the sorption potential of the composition of the tested organomineral compost and, therefore, the binding of mobile forms of heavy metals to compounds difficult to access for plants.

The claimed method is very simple, allows for a short time to obtain highly effective organomineral compost, which is advisable to use in agriculture.

Claims (1)

A method of producing organic mineral compost, including the use of cattle manure, characterized in that the compost also contains pig manure, sewage sludge and the mineral component phosphogypsum, in the following ratio, wt.%:
phosphogypsum 10-13 pig manure 11-13 sewage sludge 6-8 cattle manure rest
which are composted in the summer for 3 months at high average daily temperatures of compost from 35 to 45 ° C, stirring monthly until maturing.