RU2197453C1 - Compost fabrication process - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: waste from poultry and livestock farms is mixed with moisture-absorbing materials and resulting mix is subjected to solid-phase fermentation using stimulator based on microorganisms, in particular consortium based on strains Bacillus subtilis P-1, Clostridium P-2, Micrococcus urea P-3 and fungal strain Sporotrichum pruinosum P-4 in the form of aqueous suspension of cells or in the form of dry powder at biomass concentration 0.05-0.1% of the weight of composted mix. Composting is conducted at 20 to 70 C and moisture 50-60% during 5-7 days. EFFECT: intensified composting process and improved quality of product. 2 cl, 6 ex

Description

 The invention relates to the field of biotechnology and relates to a method for producing compost using a composting stimulator based on microorganisms, which provides accelerated processing of waste from poultry and livestock complexes into environmentally friendly organic fertilizers.

 The production of poultry and livestock products in the Russian Federation occurs mainly at large specialized enterprises - poultry and livestock complexes. Large volumes of unused waste from these enterprises are the reason that many poultry farms and livestock complexes in various regions of the country become sources of environmental pollution, causing serious economic, environmental and social damage not only to agriculture, but also to nearby settlements.

 One of the ways to solve this problem is to recycle waste from poultry and livestock complexes into environmentally friendly organic biofertilizers by composting (solid-phase fermentation - TFP).

 A known method of producing biocompost (RF Patent 2057103), including bird droppings, peat, sawdust, manure. As a stimulant, a suspension of bacteria p. Klebsiella, p. Bacillus, p. Pseudomonas.

 The disadvantage is that the production of biocompost is achieved by mixing many ingredients, and only bacteria in the form of a suspension in a very high concentration up to 0.5% by weight are used as a composting stimulator.

 A known method of biological processing of bird droppings (RF Patent 2055823), providing for its mixing with a moisture-absorbing material and subsequent aerobic thermophilic fermentation of the mixture with the addition of bacteria (Streptococcus thermophilus. Streptococcus bovis, Lactobacillus solivacusus varivacus var.

At the first stage of the process, moisture-absorbing material is introduced into the initial litter, mixed and aerobic thermophilic fermentation is carried out in the presence of synatropic flies until the temperature drops to 25-30 ^o С, and then (at the second stage), the specified consortium of microorganisms is introduced into the resulting composted mixture as a stimulant in concentration of 0.01-8.0%, and fermented under natural conditions.

 The disadvantage of this method is the possibility of carrying out the process in only two stages, which significantly increases its duration.

 In addition, bacteria of the genera Streptococcus and Lactobacillus are introduced into the mixture twice and in a very high concentration (up to 8.0%), which increases the cost of the product. These disadvantages are overcome in the proposed method.

 The technical result of the invention is the intensification of composting processes and improving the quality of the product due to the use of the thermo-tolerant and thermophilic bacteria Bacillus subtilis, Clostridium butyricum, Micrococcus urea and the strain of the fungus Sporotrichum pruinosum as a composting stimulator.

 The effect is achieved through the use of microorganisms that can cause the decomposition of urea and uric acid, as well as microorganisms with amyl and cellulolytic activity, which allows you to convert nitrogen into forms more accessible to plants, decompose starch and fiber.

 Along with such well-known materials as sawdust, straw, peat, lignin, which is one of the waste products from the hydrolysis industry, is used for the first time as a moisture-absorbing agent. Its application allows us to solve two problems: to intensify the composting process by improving the structure of the compostable mixture and at the same time to utilize large volumes of hydrolysis production waste.

 The cultures that make up the consortium are isolated from samples of litter, manure, lignin, peat and are selected in cultivation processes on mineral media with carbohydrates. All cultures are non-pathogenic, non-toxic, capable of utilizing a wide range of carbohydrate-containing substrates.

 The strains are stored in the collection of the institute GUP "GosNIIsintezbelok".

 Cultural traits of the strains.

The bacterial strain Clostridium butyricum (P-2) develops in a wide temperature range from 20 to 70 ^o C, assimilates glucose, sucrose, maltose, starch, dulcite, mannitol, inositol. Optional anaerobic. Cultural and morphological signs:
In malt wort agar (CA) + MPA cells in the form of mobile sticks. Disputes from oval to spherical shape, cell size 0.7-1.4 x 0.7-4.2 microns.

With growth in BCH + Wort (7 ^o BA), a continuous haze forms, the film is absent.

The bacterial strain Bacillus subtilis (P-1) grows in the temperature range from 20 to 70 ^o C, assimilates glucose, sucrose, fructose, lactose, maltose, arabinose, starch, mannitol. Aerob, well assimilates urea nitrogen. Gram stain is variable.

Cultural and morphological signs:
In MPB + wort (7 ^o BA), the cells are rod-shaped, motionless, the cell size of 0.7-1.4 x 1.2-7.0 microns.

Spores form only on 3-4 days, at a temperature of 39-47 ^o C.

The bacterial strain Micrococcus urea (P-3) develops in the temperature range of 20-70 ^o C, as well as at high alkalinity of the medium (pH 9.0).

 Assimilates glucose, lactose, maltose, starch, pyruvate, lactate, succinate. Corrupts urea.

Cultural and morphological signs:
In a one-day culture on MPA, the cells in the form of cocci, found singly, in pairs, in irregular clusters, are motionless.

 The cell size is 0.5-2.0 microns.

 The dispute does not form. Gram stain is positive.

The strain of the fungus Sporotrichum pruinosum (P-4) develops at a temperature of 20-30 ^o C, pH of 4.6-6.0. Assimilates: glucose, maltose, xylose, celobiose, sucrose, mannitol, sorbitol, lignin, cellulose. Aerobe.

Cultural and morphological signs:
The hyphae are branching, colorless, often rough, sometimes forming strands 10 microns thick. Conidia apical, oval 9.5-13.5 x 6-10.9 microns. At pH 4.6-5.0 form deep colonies in the form of balls.

 A preparation based on a consortium of bacteria and fungi is obtained by deep fermentation in liquid nutrient media containing carbohydrates as a carbon source, followed by separation and drying in accordance with regulatory indicators.

 The following are examples confirming the effectiveness of the use of this method of compost production and the high quality of the finished product.

 The quality of the product (bioorganic compost fertilizer) was evaluated by the content of nitrogen, phosphorus, potassium, humus. A high-quality product contains from 40 to 80% humus, mass fractions of N, P, K are at least 1.2: 0.9: 0.9, respectively.

 Example 1. The process of obtaining compost based on cattle manure was carried out in the apparatus for solid-phase fermentation (TFP) of 5 l. A uniform mixture of manure with moisture-absorbing materials (sawdust, straw, peat) was set into the apparatus and a consortium of fungus and bacteria was introduced in the form of a dry powder at a concentration of 0.05% of the composted mass.

The aerobic fermentation process was carried out at a temperature of from 20 to 70 ^o C and a humidity of 55-60%. After 7 days in the resulting compost, the content of nitrogen, phosphorus, potassium was: N: P: K = 2: 2: 2; humus content of 60%, which indicates the receipt of high-quality organic fertilizer. The well-known "cold" and "hot" method of composting organic fertilizers are obtained within 5-8 months.

Example 2. A mixture of poultry manure and moisture-absorbing materials (sawdust and peat) was added to a composting device for poultry farm waste products with a volume of 2 m ³ , a dry preparation based on a consortium of fungus and bacteria at a concentration of 0.1% of the composted mass was added. The composting process was carried out for 6 days at t ^o from 20 to 70 ^o C and a humidity of 50-55%.

 The content in the obtained biocompost of nitrogen, phosphorus, potassium (N: P: K) was 2: 1.2: 0.9; humus - 60%, which indicates the receipt of biofertilizer of a given quality and the end of the composting process.

Example 3. Litter and moisture-absorbing materials (straw and sawdust) were placed in a composting apparatus with a volume of 2 l. A consortium of microorganisms was introduced in the form of a microbial suspension in an amount of 20% of the compostable mass, which corresponds to 0.1% by dry biomass. The aerobic fermentation process was carried out at t ^o from 20 to 70 ^o C, humidity 50-60%. Five days after the start of the process, the resulting compost had the following indicators: for the main elements N: P: K = 1.2: 0.9: 0.9; humus content - 69%.

Example 4. Poultry waste was mixed with hydrolysis production waste (lignin) and sawdust. A consortium of microorganisms was introduced in the form of a dry powder preparation at a concentration of 0.1% by weight of the composted mixture. The process of aerobic composting was carried out in a device with a volume of 2 l at t = 25-60 ^o C and humidity 55-60%. On the sixth day from the start of composting, the N: P: K ratio in the product was 1.6: 1.2: 0.9. Humus content - 60%.

Example 5. Chicken droppings and cattle manure were mixed with lignin until a homogeneous mass with a moisture content of 60% was obtained. A consortium of fungus and bacteria was introduced as a dry preparation at a concentration of 0.05% by weight of the mixture. The mixture was placed in an apparatus for aerobic solid phase fermentation. The composting process was carried out at t = 20-70 ^o C. The ratio in the finished product of the main elements N: P: K = 2.4: 1.3: 1.5. The humus content is 50%. The duration of the process was 5 days.

 The data presented in examples 4 and 5 allow us to recommend lignin as one of the moisture-absorbing agents in bioconversion processes.

 Example 6. Chicken droppings and moisture-absorbing materials (sawdust and straw) were mixed until a homogeneous mass with a moisture content of 60%. The mixture was placed in an aerobic composting apparatus. After 7 days, the ratio of the main elements in the compost was: N: P: K = 0.9: 0.4: 0.3, the humus content was 80%. Thus, in the absence of a composting stimulator, the specified product quality for the specified period has not been achieved.

Thus, from the above data it is seen that the technical result is achieved through the use of a composting stimulator obtained on the basis of a consortium of non-pathogenic strains of the microorganisms Bacillus subtilis, Clostridium butyricum, Micrococcus urea, Sporothichum pruinosum, developing in a wide temperature range from 20 to 70 ^o С, capable of Dispose of a wide range of carbon-containing substrates. The method is characterized by a decrease in composting time and obtaining high-quality compost.

 The method can be recommended for obtaining biological fertilizers from waste poultry, livestock complexes, as well as for the disposal of industrial waste.

 The method has been tested in industrial conditions, there are acts on the effectiveness of the use of a biological product based on the presented consortium of microorganisms and the production of high-quality environmentally friendly fertilizers.

Claims (2)

1. A method of producing compost, comprising mixing poultry and livestock farms with moisture-absorbing materials and subsequent solid-phase fermentation (TFP) of the resulting mixture using a microorganism-based composting stimulator, characterized in that a consortium based on Bacillus subtilis bacteria strains is used as a composting stimulator P-1, Clostridium butyricum P-2, Micrococcus urea P-3 and the strain of the fungus Sporotrichum pruinosum P-4 in the form of an aqueous suspension of cells or as a dry powder in concentration 0.05-0.1% by weight of biomass from the composted mixture, and the mixture is composted at a temperature of 20-70 ^o C and 50-60% humidity for 5-7 days.  2. The method according to p. 1, characterized in that lignin is used as a moisture-absorbing material, including in combination with other moisture-absorbing additives (straw, sawdust, peat), in an amount that provides a given humidity of the composted mixture.