RU2174501C2 - Biological humus production method - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: biohumus is prepared from hydrolyzed lignin preliminarily subjected to ammonization. The latter operation is accomplished by treating hydrolyzed lignin with concentrated aqueous ammonia. After adjusting pH of ammonized lignin by treating it with lime solution to neutral value, thus prepared substrate is placed into beds and worms are allowed to enter. EFFECT: improved quality of humus with elevated nitrogen level and reduced preparation time.

Description

 The invention relates to agriculture, in particular to agriculture, and can be used for waste disposal of the biochemical industry.

 Known methods for producing biohumus, where manure, household waste, and waste water residues are used as substrates (S. F. Pokrovskaya. Using earthworms to process organic waste and increase fertility (vermiculture) M., 1991, p. 7).

 A known method of producing vermicompost, when the substrate is waste from the meat, alcohol-starch industry or mixtures thereof (a. From. USSR N 1724658, 1989, IPC C 05 F 11/00).

 The closest in technical solution is the method of producing vermicompost (patent RU N 2094413, C 05 F 11/00, 1995), where hydrolysis lignin is used as a substrate - a waste of biochemical production - prototype.

 The disadvantage of this method is that the hydrolysis lignin contains residues of sulfuric acid, therefore, has an acid reaction (pH 2.8-3.5). Due to the fact that the high acidity of the substrate adversely affects the life of the worms, it is necessary to add lime to it. In addition, hydrolytic lignin contains little nitrogen, which affects the quality of the biohumus.

 The aim of the invention is to reduce the preparation time of the substrate and obtain better biohumus.

 The essence of the invention lies in the fact that the hydrolysis lignin, which serves as a substrate for the production of vermicompost, is first ammoniated - it is treated with concentrated ammonia water at the outlet of the production line, then it is taken out to the place of consumption, put in heaps, watered with a lime solution, gradually bringing the pH to neutral , at the same time they shovel several times, then lay them in the boxes and launch the worms there. After the vermiculation process, the finished humus is taken out to the fields.

 An example of the method. Hydrolytic lignin, a waste of biochemical production, is ammoniated at the outlet from the production line — it is treated with concentrated ammonia water (for 10 tons of lignin 300-400 l of 25% ammonia water). Processing time 1 hour.

 The lignin treated in this way has a less acid reaction (pH 5.6-6.0 instead of 2.8-3.5). Then the ammoniated lignin is brought to the worm complex, piled in a heap, watered with a lime solution and shovel. Due to the fact that the ammoniated lignin has a less acid reaction, to bring the pH to neutral (6.8-7.2), which is most favorable for the life of the worms, less lime is required, and the preparation time of the substrate decreases from 1.5-2 , 0 to 1.0-1.5 months. The substrate prepared in this way is laid in the bed, then a test is made on the suitability of the substrate for the life of the worms. If the sample is positive, begin the process of vermiculation.

 The initial thickness of the substrate layer in the bed is about 20 cm. The worms are evenly scattered with the uterine substrate along the surface of the bed manually with a pitchfork with blunt ends. After deepening the worms in the substrate, the surface is moistened. A new substrate layer is introduced after two weeks with a thickness of 10 cm. The substrate moisture content is maintained at 70-80%. When the beds are full, the worms are transferred to a new place, and the biohumus is being prepared for sale.

 Biohumus, in the preparation of which ammonized lignin was used as a substrate, contained 1.34% nitrogen, while in the control (non-ammoniated lignin) - 0.96%.

 When introducing biohumus obtained by our proposed method, the quality of grain increased for winter wheat, the gluten content in grain increased by 2-3%.

Claims (1)

 A method of producing vermicompost, including the preparation of a substrate from hydrolytic lignin, the introduction of a culture of worms and vermiculation, characterized in that the hydrolytic lignin is preliminarily subjected to ammonization.