RU2780837C1 - Method for making a biodegradable plant growing container - Google Patents

Abstract

FIELD: crop production.

SUBSTANCE: invention relates to the field of crop production and can be used for growing seedlings of various plants. A method for manufacturing a biodegradable container for growing plants is as follows. sewage sludge, sawdust and a binder - a polysaccharide, such as wheat flour, are mixed in the following ratio, wt.%: sewage sludge - 65-70, sawdust - 15-20, polysaccharide - 15. Then water is added to the resulting mixture in an amount that ensures the final moisture content of the mixture is 55-60%. The mixture is placed in a mold, cold pre-pressing is carried out for 2-3 minutes, and then it is dried in an open mold at a temperature of 65°C in an oven to a moisture content of 6-8%.

EFFECT: invention provides a container that quickly decomposes in the soil, retains moisture well, preventing plants from drying out, while the organic composition of sewage sludge accelerates seed germination, and also serves as an additional source of nutrients for plants, in addition, the use of sewage sludge and sawdust as the main components for the production of a biodegradable container also solves the environmental problem of their disposal.

1 cl, 2 tbl

Description

The invention relates to the field of crop production and can be used for growing seedlings of various plants, for example, in greenhouses, greenhouses, and planting them in open ground with intensive technologies.

Due to the need to mechanize the process of planting forest crops, growing planting material with a closed root system is currently considered a promising direction. Thus, in many countries (Finland, Sweden, Norway, Canada, etc.), reforestation and afforestation are carried out mainly by seedlings with a closed root system.

The production of planting material with a closed root system in containers makes it possible to obtain planting material with an almost 100% survival rate. Such planting material is in great demand, as it becomes possible to plant plants of almost any size and at any time.

Considering that currently priority is given to environmentally friendly farming, when planting planting material with a closed root system, it is promising to use disposable containers that can decompose in the soil.

Known mixture for the manufacture of pots for seedlings (Pat. RF No. 2379880; IPC A01G 9/10; publ. 27.01.2010) based on tobacco dust, with the following ratio of ingredients, wt.%: tobacco dust - 70-80; sawdust - 10-18; cattle manure - 5-10; river sand - 2-5; water - at the rate that the moisture content of the mixture does not exceed 60-70%, mineral fertilizers - 1.0-8.0 kg per 1 ton of dry mixture, depending on the type of seedling crop.

The disadvantages of this mixture are the multicomponent nature of the technological cycle, as well as restrictions on its use in connection with the 3rd class of danger of tobacco dust for the natural environment.

A composition for obtaining a biodegradable pot for seedlings is known (Pat. RF No. 2723724; IPC A01G 9/029, A01G 24/00, C12N 1/20; publ. 06/17/2020), where vegetable waste - straw of cereal crops, sunflower husks, wood waste, etc., and as a binder - a cultural liquid containing a polysaccharide (alginate, levan, dextran, etc.), in the following ratio of components, wt.%: plant waste - 80-85, culture liquid containing polysaccharide - 15-20. To prepare the composition, vegetable waste is pre-crushed and placed in special mixers. The culture liquid containing the polysaccharide is added to the prepared mass with stirring at the rate of 20-25 g/l. Stirring is continued until a homogeneous mass is obtained. The mixture is dried in an oven at a temperature of 70°C to a moisture content of 6-8%. To manufacture a biodegradable pot for seedlings, the resulting composition is placed in a mold, cold pre-pressing is carried out, and then hot pressing on a thermo-hydraulic press at a temperature of 100°C and a pressure of 12-14 MPa for 2 minutes. The finished pot is dried in natural conditions. Before use, the pot is treated by spraying with a microbial biological preparation based on rhizospheric bacteria (Pseudomonasaureofaciens VKPM B-11634 and Azotobactervinelandii VKPM B-5787).

The disadvantages of this composition are the need to grind plant waste, additional costs for the production of a culture fluid containing a polysaccharide, as well as processing a biodegradable pot with a microbial biological preparation.

A method for manufacturing a peat container is known (Pat. RF No. 2474107; IPC A01G 9/10; publ. 10.02.2013), including mixing the main components of the mixture with a binder, forming a container and drying it. Peat is used as the main component of the mixture, and a mixture of water and peat or water, peat and a hydrophobic substance, in particular, octadecylamine, is used as a binder, which is passed through the disperser at least once at a pressure drop in the disperser from 0.1 10 ⁵ to 25 10 ⁵ Pa. Before mixing the components of the mixture produce preparation (sifting) of peat. Mixing of peat with a binder is carried out for 15 minutes. in the ratio of 5-8 kg of binder per 32 kg of peat. The formation of a peat container is carried out using various molding machines. Taken as a prototype.

Drying of peat tanks, as a rule, is carried out at a temperature of 90-145°C to a moisture content of 12-18% (Mining encyclopedia. Peat drying. Access mode: http://www.mining-enc.ru/s/sushka-torfa).

The disadvantages of this method are its multi-stage nature, increased acidity of the main component of the container - peat, which negatively affects plant growth, the lack of nutrients in the material of the peat container, the cost of purchasing a hydrophobic substance (octadecylamine).

The technical problem to be solved by the invention is the creation of a biodegradable container that increases the nutritional value of its component composition, expanding the range of raw materials used, as well as reducing the cost of producing the container.

According to the invention, according to the invention, sewage sludge and sawdust are used as the main components of the mixture, and polysaccharide is used as the binder , for example, wheat flour, in the following ratio of components, wt.%: sewage sludge - 65-70, sawdust - 15-20, polysaccharide - 15, after mixing, water is added to the resulting mixture in an amount that ensures the final moisture content of the mixture is 55- 60%, after which the mixture is placed in a mold, cold pre-pressing is carried out for 2-3 minutes, and then dried in an open mold at a temperature of 65°C in an oven to a moisture content of 6-8%.

The technical result of the invention is to reduce the drying temperature of the biodegradable container to 65°C and dry it to a moisture content of 6-8%. This allows you to save the useful properties of sewage sludge, which are part of the mixture, and provide plants with additional nutrition with organic substances. At the same time, the pH value of the mixture is close to neutral, which favorably affects the growth and development of plants in the container. In addition, the environmental problem of disposal of sewage sludge (Waste pollution. Access mode: http://www.ecolognatural.ru/enats-464-1.html) and sawdust (Lesprominform. Journal of timber industry professionals. 2019. 19.03) Access mode: https://lesprominform.ru/news.html?id=10665).

A method for manufacturing a biodegradable container for growing plants is as follows.

Mix sewage sludge, sawdust and a binder - a polysaccharide, for example, wheat flour, in the following ratio, wt.%: sewage sludge - 65-70, sawdust - 15-20, polysaccharide - 15. After that, into the resulting mixture water is added in an amount that ensures the final moisture content of the mixture is 55-60%. The mixture is placed in a mold, cold pre-pressing is carried out for 2-3 minutes, and then dried in an open mold at a temperature of 65°C in an oven to a moisture content of 6-8%.

The chemical composition of sewage sludge and sawdust, shown in Table 1, allows us to conclude that they have a high nutritional value for plants and the possibility of using these wastes as sources for the production of biodegradable containers.

Table 1

The chemical composition of the components of the mixture according to the claimed method and the main component of the mixture (peat) according to the method adopted for the prototype

Indicators sawdust sewage sludge Wheat flour Peat
(prototype) Organic matter, % 70.20 83.02 86.00 69.00 Total nitrogen, % 0.03 4.50 2.13 1.50 Carbon, % 47.30 86.50 0.55 54.00

It should also be noted that the presence of developed porosity, passing from macropores to mesopores, indicates the presence of adsorption properties and the ability to retain moisture in sewage sludge (News of the Nizhnevolzhsky AgroUniversity Complex: Science and Higher Professional Education. 2021. No. 1 (61). P. 390-398; Agrochemical Bulletin, 2020, No. 1, pp. 60-64). This property of sewage sludge helps to protect the plant from drying out when in a biodegradable container.

In order to determine the effectiveness of the proposed method of manufacturing a biodegradable container for growing plants, studies were conducted on growing plants (for example, oat culture) in biodegradable containers and peat containers (prototype).

Biodegradable containers and peat containers were filled with biosoil (TU 20.15.80-002-75210117-2019), in which oat seeds were sown to a depth of 2-3 cm. for the prototype, and their influence on the growth and development of plants.

table 2

Comparative characteristics of a biodegradable container according to the claimed method and a peat container according to the method adopted as a prototype, and their effect on the growth and development of plants

Indicators Biodegradable containers (invented method) Peat tanks (prototype) mixture pH 6.5-7.0 4.5-6.1 Biodegradability in soil, days 25.0-30.0 35.0-48.0 Seed germination (oats), days 3.0 7.0 The length of the plant stem on the 7th day. after germination, see 15.0-20.0 5.0-7.0 Plant growth rate, cm/day. 2.1-2.9 0.7-1.0 Plant watering interval, days 4.0 2.0

An analysis of the research results presented in Table 2 showed that plants grown in biodegradable containers were better in all respects than those grown in peat containers. In particular, the germination of seeds accelerated by 2.3 times, and the growth rate of plants increased by 3 times.

Thus, the claimed method of manufacturing a biodegradable container for growing plants, made from a mixture based on sewage sludge, sawdust and polysaccharide, allows you to get a container that quickly decomposes in the soil, which does not require the removal of plants from containers for transplanting into open ground, while not the root system of plants is injured, which retains moisture well, preventing plants from drying out, while the rich organic composition of sewage sludge accelerates seed germination, and also serves as an additional source of nutrients for plants. In addition, the use of sewage sludge and sawdust as the main components for the production of a biodegradable container also solves the environmental problem of their disposal.

Claims (1)

A method for manufacturing a biodegradable container for growing plants, including mixing the main components of the mixture with a binder, forming a container and drying it, characterized in that sewage sludge and sawdust are used as the main components of the mixture, and a polysaccharide, for example wheat flour, is used as a binder, at the following ratio of components, wt.%: sewage sludge - 65-70, sawdust - 15-20, polysaccharide - 15, after mixing, water is added to the resulting mixture in an amount that ensures the final moisture content of the mixture is 55-60%, after which the mixture placed in a mold, cold pre-pressing is carried out for 2-3 minutes, and then dried in an open mold at a temperature of 65°C in an oven to a moisture content of 6-8%.