RU2684598C1 - Lime fertilizer for acid soils - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention relates to production of ameliorants and can be used in agriculture to reduce soil acidity. As lime fertilizer for acidic soils dust of 1–3 fields of electric filter of sintering furnaces of alumina production in form of fine powder with fraction less than 20 mcm is used.

EFFECT: technical result is reduced acidity of soil with improved structure.

1 cl, 2 tbl

Description

The invention relates to agriculture and can be used for growing crops on acidic soils.

It is known to use calcium-containing ameliorants of acidic soils obtained from wastes from the production of the Achinsk Alumina Refinery and brown coal ash from the Kansk-Achinsk basin. 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 the process of deoxidation of the soil proceeds slowly and requires significant costs for the preparation of ameliorant to neutralize acidic soils.

Known fertilizer for acidic soils, containing 84-90% of May. calcium carbonate, in finely divided form with an average particle size of 17 microns [Shiyan PN New lime fertilizer / Sugar beet, 1993. - No. 6. - from. 13-15].

The disadvantage of this fertilizer is its low efficiency and the need for preliminary preparation, which increases the cost of its use.

The closest in technical essence is a lime fertilizer containing porous calcareous rock [Patent SU No. 1239129, C05D 3/02, 1986]. This fertilizer consists of larger (up to 0.25 mm) crystalline sparingly soluble particles, but its effectiveness only appears closer to the middle and at the end of crop rotation. At the same time, the soil acidity decreases slowly and the total yield for crop rotation is low, that is, the effect of this fertilizer as an ameliorant for crop rotation is not effective enough.

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

The task is achieved in that in order to increase the deoxidizing ability and efficiency of the reclamant, finely dispersed dust of 1-3 fields of the electrostatic precipitator of sintering furnaces of alumina production is used, having more than 30% active calcium oxide in its composition.

A comparative analysis with the closest analogue allows us to conclude that the proposed calcareous fertilizer is characterized in that instead of calcareous coarse-grained porous rock, finely dispersed dust of 1-3 fields of the electrostatic precipitator of sintering furnaces with more than 30% active oxide is used as calcareous fertilizer calcium. Therefore, the proposed technical solution meets the criterion of "novelty."

The present invention gives lime fertilizer a new technical solution for the use of previously unused dust of 1-3 fields of electrostatic precipitators of sintering alumina production, which was not previously used for these purposes, to deoxidize acidic soils and increase crop yields, which allows us to conclude that the technical solution meets the criterion of "inventive level".

As a lime fertilizer, the dust of electrostatic precipitators from alumina production sintering furnaces was tested. In RUSAL Achinsk JSC, for cleaning atmospheric air from dust, 5-pole electrostatic precipitators SF NIOGAZ producer-company “Condor-Eco” are used (Semibratovo settlement, Yaroslavl region). The dust of the electrostatic precipitators of sintering furnaces of RUSAL Achinsk JSC is a waste of gas treatment facilities of alumina production and contains various amounts of active calcium oxide in finely divided form along the fields of the electrostatic precipitator. As the sieve analysis showed, the dust of the electrostatic precipitators of sintering furnaces contains fine particles with a particle size of less than 20 microns.

Chemical analysis of dust of all fields of the electrostatic precipitators of sintering furnace No. 9 of RUSAL Achinsk JSC is given in table. one.

As shown by chemical analysis of electrostatic dust, the distribution of components in dust is different. The largest mass fraction of calcium oxide required for use as a lime reclamant is observed in dust taken from 1, 2 and 3 fields of the electrostatic precipitator, which is respectively 33.8; 32.8 and 31.2% wt. The dust of fields 4 and 5 of the electrostatic precipitator contains much less active calcium oxide, respectively 8.96 and 16.2% wt. Therefore, for the claimed invention, only dust of 1-3 fields of electrostatic precipitators of sintering furnaces of RUSAL Achinsk JSC can be used.

According to the technology existing in JSC RUSAL Achinsk, the dust of electrostatic precipitators is partially returned to production and partially placed in industrial dumps. For laboratory verification of the practical implementation of the claimed invention, dust 1, 2 and 3 of the field of the electrostatic precipitators of the sintering furnace of RUSAL Achinsk JSC without mixing was used as a lime fertilizer for ameliorant to neutralize acidic soils.

Examples of the method of producing lime fertilizer are given in table. 2. Examples 1-2 - according to the prototype, examples 4-7 - according to the claimed invention.

Lime fertilizer from dust from electrostatic precipitators of gas treatment plants of sintering furnaces of alumina production by RUSAL Achinsk JSC was tested on acid soil samples taken on forest gray soils of fields in the Bolsheuluysky district of the Krasnoyarsk Territory. Analysis of the obtained experimental data (table. 2 examples 4-7) showed that the deoxidizing ability of the inventive calcareous fertilizer is much higher and it is required to introduce much less to neutralize the acidic environment of the soil than calcareous fertilizer containing porous calcareous rock of the prototype.

Lime fertilizer from dust 1-3 fields of electric filters of sintering furnaces, 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 invention by increasing the content of active calcium oxide and active surface of fine dust particles 1-3 fields of the electrostatic precipitator of sintering furnaces of alumina production. The presence in the claimed calcareous fertilizer of a high content of fine particles of calcium oxide leads to an increase in its deoxidizing ability.

Table analysis 2 shows that the introduction of a limestone fertilizer containing porous calcareous rock (Table 2, Example 1) does not increase the pH of the aqueous extract of acidic soil to a neutral environment and only the input of this calcareous fertilizer-ameliorant in the amount of 18.4 t / ha (Table 2 , example 2) allows to achieve pH = 7.0.

The use of dust 1-3 fields of electric filters of sintering furnaces of alumina production 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 lime fertilizer to 3.0-3.5 t / ha (Table 2, examples 3, 4, 5) by increasing the deoxidizing ability of the inventive lime fertilizer. The use of dust 4 and 5 of the fields of electrostatic precipitators of sintering furnaces, although it ensures the achievement of the assigned task of increasing the deoxidizing ability of fertilizer - ameliorant, but at the same time its consumption increases (Table 2, examples 6 and 7).

The use of finely dispersed dust, selected from 1-3 fields of the electrostatic precipitator of sintering furnaces, containing a large amount of active calcium oxide in it, allows to increase the deoxidizing ability of the inventive calcareous fertilizer and increases the germination of cultivated plants.

The use of the claimed fertilizer contributes to its more effective use for deoxidation of gray forest soils and increases the germination and productivity of cultivated plants grown on them.

Thus, on the basis of laboratory tests, the inventive method provides, in contrast to the prototype, an increase in the deoxidizing ability of lime fertilizer also by increasing the active calcium oxide. The use of the inventive lime fertilizer allows, in contrast to the prototype, to reduce its consumption and provide the necessary neutralization of the acidic environment of the soil. The use of the invention can significantly reduce the consumption of the necessary lime fertilizer for deoxidation of gray forest soils and provide conditions for improving the germination and productivity of cultivated plants.

Claims (1)

Lime fertilizer for acidic soils, which is an ameliorant in the form of lime-containing waste from alumina production, characterized in that dust from 1-3 fields of the electrostatic precipitator of alumina production sintering furnaces is used as an ameliorant in the form of a fine powder with a fraction of less than 20 microns.