RU2017786C1 - Composition for recultivation - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: composition for recultivation has, %: brown coal dust 29.00-41.1; alkaline waters of benzene rectification (as dry matter) 7.74-10.98, and water - the rest. Alkaline waters of benzene rectification are dissolved in water, brown coal dust is added, and mixture is stirred up to homogeneous mass preparing. Composition is added to the soil after 24 h, not early. EFFECT: enhanced quality of composition. 7 tbl

Description

 The invention relates to agriculture, in particular to structural formers for soils.

 Closest to the proposed composition is the composition that is formed after mixing the treated clay drilling mud (90-98%) and sodium humate (the rest), used to increase crop yields by improving the agrochemical properties of the composition. A disadvantage of the known composition (prototype) is the obtaining of lower crop yields when applied to the soil compared to the proposed composition, which is due to the lower content of water-resistant aggregates and a higher coefficient of soil filtration than if the proposed composition is introduced into the soil.

 The aim of the invention is to increase the yield of crops by improving the structure of the soil by increasing the content of water-resistant aggregates and reducing the filtration rate of soils.

This is achieved by the fact that as components the composition contains alkaline rectification water of benzene, brown coal dust and water in the following ratio, wt.%: Brown coal dust 29.0-41.17
Alkaline water
carbonation of benzene (in terms of dry residue) 7.74-10.98 Water Else
Characterization of the components of the composition is as follows.

 Alkaline waters of benzene rectification (SHHVRB) - benzene production waste generated during washing of benzene-toluene-xylene with alkali in benzene rectification workshops at coke plants and is a large-capacity waste. Due to the fact that ShchVRB is also a waste, therefore, there are no technical conditions and GOST for this waste.

 According to the results of chemical analyzes and analyzes of the laboratories of some coke plants, the composition of SHVRB is characterized by the following physicochemical properties. ShchVRB includes sulfosalts, salts of acid esters, sodium sulfate, sodium hydroxide, water, as well as macro- and microelements (Table 1).

 The study of SCHVRB of various coke plants showed that their composition is almost the same, since the technology for producing the benzene-toluene-xylene fraction, which results in the SCHVRB waste, is identical at all coke plants. The sulfosalts included in SHVRB have surface-active properties, as can be seen from the data in Table 1 on surface tension. It should be noted that ring and magnesium sulfosalts are highly soluble in water and retain surface-active properties. At the same time, most sodium salts with surface-active properties, when interacting with calcium and magnesium ions in the soil, turn into water-insoluble salts, precipitate and lose their properties. Therefore, such surfactants cannot be used in environments where there are salts containing calcium and magnesium ions, and ASHBRB as a surfactant can be used in such environments (soil).

The following macro- and microelements are included in the composition of SHVRB, mg / l: Iron 350 Calcium 1002 Magnesium 334 Copper 13.3 Manganese 2.3 Aluminum 8.5 Zinc 14.7 Potassium 6200
The introduction of small doses of trace elements such as copper, manganese, etc., as well as macroelements such as potassium and iron, helps to increase soil fertility, i.e. increase crop yields.

The toxicological studies of the All-Russian Research Institute of Hygiene and Toxicology of Pesticides of Polymers and Plastics (Kiev) showed that alkaline water of benzene rectification is a low-toxic product (LD ₅₀ = 2000 mg / kg of live weight of white rats) and has toxicity that is lower than that widely used in folk the economy of petroleum products, such as, for example, gasoline, diesel fuel, etc.

 Brown coal dust is formed during the production of briquettes in brown coal briquette factories.

 Brown corner - fossil corner of the lowest degree of coalification - transitional form from peat to hard coal. The main pool is Kansk-Achinsky. Briquette briquette factories are located in brown coal mining areas, including in Kumertau, Alexandria, Nikolaev region.

 Currently, hundreds of thousands of tons of coal dust have accumulated near the briquette factories in the ravines, which are not being used. Brown coal dust is easily blown out by the wind, polluting the air of adjacent territories and settlements. At the same time, brown coal dust contains humic acids - dark-colored substances formed during the decomposition of dead plants and humifications. The structure of humic acids is not yet fully established. Humic acids contain plant growth stimulants and organo-mineral fertilizers. They are part of the humus of the soil.

 When brown coal dust is mixed with SHVRB, water-soluble sodium humates, valuable for plants, and other products, soluble in water, are released from coal dust as a result of their interaction (see Table 2). In addition, the resulting composition is enriched with trace elements due to ShchVRB. If the resulting composition is introduced into the soil, this will increase its fertility.

 PRI me R 1. In the mixer, the composition is prepared by dissolving 7.74% SCHBRB, calculated on the dry residue in 63.26% water, followed by the addition of 29.0% brown coal dust and additional thorough mixing for 2 minutes until a homogeneous masses. The resulting composition is not earlier than 1 day introduced into the soil at a dose of 5-15 t / ha using a spreader of mineral fertilizers, followed by mixing with the topsoil to a depth of 20 cm.

 PRI me R 2. In the mixer, the composition is prepared by dissolving 8.13% of SHVRB (alkaline water of distillation of benzene) in terms of dry residue in 61.38% of water, followed by the addition of 30.49% brown coal dust and additional mixing for 2 min to a homogeneous mass.

 PRI me R 3. In the mixer, the composition is prepared by dissolving 10.98% SHVRB in terms of the dry residue in 47.85% water, followed by the addition of 41.17% brown coal dust and additional mixing for 2 minutes until a homogeneous mass . The resulting composition is not earlier than a day later introduced into the soil at a dose of 5-15 t / ha using a mineral fertilizer spreader, followed by mixing with the topsoil to a depth of 20 cm.

 Vegetation experiments on growing plants (spring wheat, corn) were carried out in vessels with a height of 13-18 cm, a diameter of 30 cm and an area of 380-850 square meters. see. For drainage, sifted crushed stone of a fraction of 3-10 mm was used. The vessels were filled with soil treated with the prepared composition and soil without preliminary treatment with the composition (control). After sowing the seeds, the soil surface was covered with a thin layer of sand. To grow plants in vessels, they were placed in a room or in the yard at positive temperatures and were systematically watered.

 The results of vegetation experiments are given in table.3.

 From the above data in Table 3, it can be concluded that already in the initial period of plant growth and development, a stimulating effect of the prepared and introduced into the soil composition (proposed) is observed compared with the control (without the composition introduced into the soil). The composition has a positive effect on the height of plants, the weight of green and air-dry mass of plants, a decrease in ash content indicates an increased content of the organic part of plants.

 The conducted field experiments on the collective farm "12 years of October" of the Volga region of the Astrakhan region testify to the increase in yield of grass mixtures when making the proposed composition. The crop of the green mass of grass mixtures is given in table. 4. From the table 4 it follows that the yield of green mass of the grass mixture in the plots where the proposed composition was introduced into the soil increased to 80%, and the chlorophyll content to 8%. At the same time, when a known composition (prototype) was introduced into the soil, the barley yield for grain increased by 23-28%.

 The content of water-resistant aggregates was determined by the Savvinov method, and the filtration coefficient was determined by the Duchofur method. The results of the influence of the proposed composition on the filtration coefficient in comparison with the known (prototype) and control are shown in tables 5 and 6, and on the content of water-resistant units in table 7. From the above data in tables 5,6 and 7 it is seen that the introduction of the proposed composition allows to increase the content of water-resistant aggregates and reduce the filtration coefficient of the soil not only in comparison with the control, but also compared with the known composition (prototype).

Claims (1)

COMPOSITION FOR RECULTIVATION, containing humic acids, substances and water, characterized in that it contains brown coal dust as humic substances, as well as additional alkaline waters of benzene rectification in the following ratio of components, wt.%:
Brown dust 29.00 - 41.17
Alkaline waters of benzene rectification (in terms of dry residue) 7.74 - 10.98
Water Else

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