RU2630243C1 - Method of obtaining ameliorant for acidic soils - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method for obtaining an ameliorant for acidic soils from nepheline sludge includes its preparation in a slurry storage and subsequent drying in air to the humidity of 25%. The nepheline slurry is additionally subjected to grinding in a ball mill to the coarse size of 55-60% of the class - 0.074 mm.

EFFECT: invention allows to increase the deacidifying ability of the ameliorant and to reduce its consumption.

3 tbl, 7 ex

Description

The invention relates to methods for producing ameliorant and is intended for use in agriculture to reduce the acidity of soils and increase their fertility.

It is known to use calcium-containing meliorants of acidic soils obtained from wastes from the production of the Achinsk alumina refinery and brown coal ash from the Kansk-Achinsky basin, and these wastes are not subjected to additional preparation. The paper presents the results of model experiments on agro-gray and sod-podzolic soils and studies the effect of nepheline sludge and brown glue ash on the ash content and assimilation of nitrogen, phosphorus, potassium and calcium by grain and forage crops [N.G. Ore, I.I. Lubite On the use of sludge from the Achinsk Alumina Refinery for the reclamation of acidic soils // Improvement of hydraulic engineering construction and land reclamation in Siberia. - Krasnoyarsk: Publishing House of SibNIIIGiM, 1976. - Issue. 1. - S. 128-134].

The disadvantage of this method is that nepheline sludge is used without preparation and grinding, and the process of deoxidation of the soil proceeds slowly and requires significant amounts of ameliorant to neutralize acidic soils.

Closest to the invention, the technical essence is a method of obtaining ameliorant of acidic soils from wet nepheline sludge, including its preparation in a sludge storage facility, while the sludge is prepared by digging and drying it in air to a moisture content of 25% [Shepelev I.I., Styglits I.S. ., Yeskova E.N., Zhizhayev AM The study of the chemical and toxic properties of nepheline sludge for use in agriculture // Bulletin of the KrasSAU, 2016. - No. 2. - S. 13-19].

The disadvantage of this method is that the process of obtaining ameliorant is carried out without additional preparation and grinding, while the process of deoxidation of the soil when entering this ameliorant is slow and requires significant amounts of ameliorant to neutralize acidic soils.

The objective of the invention is to accelerate the process of deoxidation of the soil and increase the deoxidizing ability of the ameliorant, which will quickly determine the feasibility of using ameliorant and its dosage in the process of neutralizing acidic soils.

The task is achieved in that in order to increase the deoxidizing ability of the ameliorant, nepheline sludge is additionally subjected to grinding in a ball mill to a discharge size of 55-60% of the class - 0.074 mm.

Comparative analysis with the closest analogue allows us to conclude that the proposed method for the preparation of acid soil ameliorant differs in that the nepheline sludge is additionally subjected to grinding in a ball mill to a discharge size of 55-60% class - 0.074 mm.

Therefore, the proposed technical solution meets the criterion of "novelty."

The proposed method for producing acid soil ameliorant makes it possible to obtain an ameliorant from wet nepheline sludge by grinding it in a ball mill, which provides an increase in its deoxidizing ability due to activation of its surface and at the same time the process of neutralizing acid soils is accelerated and the consumption of ameliorant is reduced. The present invention gives the method of producing ameliorant of acidic soils a new technical solution to the method of producing ameliorant of acidic soils, which allows us to conclude that the technical solution meets the criterion of "inventive step".

A method of obtaining ameliorant of acidic soils is as follows.

RUSAL Achinsk OJSC nepheline sludge is a tailing product of integrated sintering technology for producing alumina and soda products from nepheline ore and limestone. In its composition, nepheline sludge has up to 55% calcium oxide. The chemical composition of dump nepheline sludge from RUSAL Achinsk is given in table. one.

The mineralogical composition of nepheline sludge placed on existing slurry cards No. 1 and No. 2 of RUSAL Achinsk OJSC is shown in Table. 2.

As can be seen from the table. 2, the main mineral composition of the nepheline sludge placed on the sludge field in the samples is dicalcium silicate (more than 80%), as traces up to 5% in the dump sludge there are: sodium aluminates Na ₂ O × Al ₂ O ₃ , calcium magnesium silicates CaO × MgO × SiO ₂ , sodium-calcium silicates Na ₂ O × CaO × SiO ₂ , calcium hydrogranates. 3CaO × Al ₂ O ₃ × SiO ₂ × (6-x) H ₂ O, calcium aluminates CaO × Al ₂ O ₃ .

According to the particle size distribution, the waste nepheline sludge has a particle size of 0-3 mm.

According to the existing technology at RUSAL Achinsk, the dump nepheline slurry in the form of pulp with a ratio of solid: liquid, T: L = 1: 3 is pumped through the slurry pipelines to the sludge storage, where it is separated from the aqueous phase and then stored in the sludge field No. 1 and No. 2. For secondary use, including for agricultural needs, nepheline sludge is subjected to burtting and preliminary drying in air to a moisture content of 25%. Thus prepared a sample of nepheline sludge was taken for laboratory tests and used it as a prototype and for subsequent preparation by the present method. To increase the deoxidizing ability of the ameliorant prepared from nepheline sludge, it was additionally subjected to grinding in a ball mill. Grinding was carried out in a laboratory ball mill MLB in a batch mode. Grinding bodies - steel, diameter - 1-3 cm. Ball load - 40 kg. Loading of mineral material - 50 kg. The grinding time was 30 minutes, which provided fineness of grinding of nepheline sludge in a ball mill to a discharge size of 55-60% of the class - 0.074 mm. The crushed sample of nepheline sludge was used as an ameliorant to neutralize acidic soils according to the proposed method.

Examples of the method for producing ameliorant of acidic soils are given in table. 3. Examples 1-3 - according to the prototype, examples 4-7 - according to the claimed method.

The inventive method of obtaining ameliorant of acidic soils from nepheline sludge was tested on samples of acidic soils taken on forest gray soils of the fields of the Bolsheuluy district of the Krasnoyarsk Territory. An analysis of the obtained experimental data (Table 3, examples 4-7) showed that the deoxidizing ability of the claimed ameliorant is much higher and it is required to introduce an order of magnitude less than the ameliorant prepared from dump nepheline sludge from the current production of RUSAL Achinsk OJSC ". Ameliorant from crushed nepheline sludge prepared by the proposed method solves the problem, that is, provides it with a higher deoxidizing ability and allows to obtain a higher technical result compared to the prototype, which consists in increasing the efficiency of the proposed ameliorant by increasing the active surface of the nepheline sludge particles and hanged calcium oxide activity.

Table analysis 3 shows that the input of unmilled dump nepheline sludge according to the prototype in an amount of 3.5-10.5 t / ha (Table 3, examples 1,2) does not increase the pH of the aqueous extract of acidic soil to a neutral environment and only the input of nepheline sludge in an amount 20 t / ha (table. 3, example 3) allows to reach pH = 7.0. The use of additionally ground nepheline sludge to a discharge size of 55-60% of class - 0.074 mm for deoxidation of a sample of acidic gray forest soil with a pH of 4.5-4.7 can reduce the consumption of the required dose of ameliorant to 2.5-3.5 t / ha table 3, examples 5, 6) by increasing its deoxidizing ability. The use of crushed nepheline sludge with a fineness of grinding to a discharge size of less than 55% of the class - 0.074 mm (Table 3, Example 4) allows you to achieve a neutral environment for water extraction of the soil, but the flow rate of crushed ameliorant increases to 4.2 t / ha. The use of nepheline sludge, crushed to a discharge size of more than 60% of the class — 0.074 mm (Table 3, Example 7), although it ensures the achievement of the task — to increase the deoxidizing ability of the reclamant, but it requires more time for grinding, which increases energy costs by its preparation.

An additional operation of grinding nepheline sludge contributes to a more effective use of ameliorant for deoxidation of gray forest soils. In the process of grinding nepheline sludge, the opening of mineral particles and aggregates included in its composition, and the appearance of active forms of calcium-containing minerals and the decomposition of sodium and potassium aluminates are ensured, which leads to a more effective deoxidizing ability of the claimed ameliorant.

Thus, on the basis of laboratory tests, the inventive method provides, in contrast to the prototype, an increase in the deoxidizing ability of the reclamant also by increasing the active surface of the mineral particles of nepheline sludge. The use of additionally ground nepheline sludge allows, in contrast to the prototype, to reduce its consumption by an order of magnitude and to provide the necessary neutralization of the acidic environment of the soil.

The use of the invention can significantly reduce the consumption of the necessary ameliorant for deoxidation of gray forest soils and provide conditions for improving the productivity of cultivated plants.

Claims (1)

A method for producing acid soil ameliorant from nepheline sludge, including its preparation in a sludge depot and subsequent drying in air to a moisture content of 25%, characterized in that in order to increase the deoxidizing ability of ameliorant, nepheline sludge is further subjected to grinding in a ball mill to a discharge size of 55-60% class - 0.074 mm.