RU2238923C1 - Lime-magnesium ash fertilizer - Google Patents

Abstract

FIELD: mineral fertilizers.

SUBSTANCE: lime-magnesium ash fertilizers obtained from industrial utilization products for use in agriculture and forestry contain dolomite flower and peat flower with no more than 12% moisture, ratio of dolomite flower to peat flower being 1:3, whilst optimum calcium/magnesium ratio in fertilizer is 5:2 and, in another embodiment of invention, 7.5:2.5. Fertilizer enriches soil with silicates, neutralizes excess acidity and is particularly effective on sand and sub-sand soils having acid reaction and low content of magnesium and colloidal silicon.

EFFECT: increased assortment of inexpensive mineral fertilizers.

4 cl, 1 tbl

Description

The invention relates to calcareous fertilizers obtained from products of industrial utilization, and can be used in agriculture and forestry.

Known chloride-free potassium fertilizer obtained by treating high-temperature ash of energy coal with an alkaline solution of caustic potassium, holding the mixture at a temperature of 95-105 ° C for 2.5-3.5 hours, filtering the mass and subsequent evaporation [1].

The disadvantage of this fertilizer is the relative complexity of the technological cycle of its production.

Lime fertilizer is also known, containing 40-60% calcium carbonate and 40-60% lime powder [2] or natural chalk [3], used for grain and row crops.

The disadvantage of this fertilizer is the insufficient content of magnesium and silicates in it necessary for the required increase in yield.

In addition, it is known granular calcareous magnesium fertilizer, which is a mixture of raw materials containing magnesium, potassium chloride in the form of ground electrolyte, which is a waste product of magnesium or potassium chloride, and ground dolomite (dolomite limestone) - dolomite flour (Ca (Mg, Fe) · ( CO ₃ ) ₂ ) and dolomite hydrate [4].

The disadvantage of this fertilizer is the relatively complex technological process for its production, associated with the need for grinding (grinding) of production waste, followed by thorough mixing.

Closest to the proposed is agricultural calcium-magnesium fertilizer, consisting of a mixture of dolomite flour (potash) and ash (wood, coal, fly ash, etc.) from burning nitrogen-containing compounds (e.g. straw, coal, manure, etc.). item) at industrial thermal stations [5].

The disadvantages of this fertilizer include a relatively low content of trace elements (plant nutrients), due to which its agrochemical effectiveness is reduced, as well as the relative complexity of its preparation.

The aim of the invention is to increase the agrochemical effectiveness of fertilizers due to the complex effect, in particular on sandy and sandy loam soils with acidic reaction of a medium with a low content of magnesium, micronutrients and colloidal silicon.

This goal is achieved by the fact that in lime-magnesium ash fertilizer containing dolomite flour and ash, the fertilizer contains peat ash with a moisture content of not more than 12% with a ratio of dolomite flour to peat ash equal to 1: 3 as ash.

Preferably, the ratio of calcium to magnesium in the fertilizer is 5: 2.

In another embodiment, it is preferable that the ratio of the elements of calcium and magnesium in the fertilizer is 7.5: 2.5.

Preferably, the particle content of the resulting fertilizer larger than 1 mm is 15%.

The moisture content of peat ash after drying is, as noted above, 12%, since at higher humidity the ash can freeze when introduced into the soil (the desired moisture content can be about 8%).

In the resulting mixture, when the content of particles is larger than 1 mm, noted above, certain difficulties may also arise when fertilizing the soil.

Peat ash is an industrial waste from the activities of thermal stations (CHP).

Elements such as calcium and magnesium are found both in dolomite flour (CaCO ₃ · MgCO ₃ ) (crushed magnesium lime) and in peat ash (calcium oxide CaO, calcium silicate CaSiO ₃ , etc.). It is known that peat ash in comparison with wood ash contains 2.5 times more calcium, 3.4 times more magnesium, 2 times more phosphorus and 2.4 times more potassium, i.e. more rich in trace elements, which have a beneficial effect on agrochemical efficiency [6].

Such fertilizer due to peat ash is enriched with SiO ₂ (its content in the ash is approximately 44%), which will lead to increased yields and improved use of soil phosphorus.

The essence and originality of the preparation of lime-magnesium ash fertilizer consists in the fact that a special method of strictly calculated proportions creates a fertilizer with an optimal ratio of calcium and magnesium in it and, in addition, enriched with silicic acid salts (silicates) with a wide range of micronutrients for plants. This effect, according to the authors, exceeds the total from the use of individual components of the mixture in other sets of signs of known fertilizers.

The content of magnesium oxide in the fertilizer is at least 10%, and the neutralizing ability of the fertilizer is at least 45%.

The invention provides at the same time enrichment of the soil absorbing complex with silicates, an increase in the soil available for plants calcium and magnesium, and the neutralization of excess soil acidity.

Studies have shown that the greatest effect provides the optimal ratio of calcium and magnesium in such an ash fertilizer.

The table below is provided only for illustration as an example of the relationship between calcium and magnesium contained in the composition of such fertilizers (in% in a vessel), affecting yield differently.

In general, the effectiveness of the proposed fertilizer will be higher than the effectiveness of dolomite flour separately by 25-30%.

Sources of information

1. RU, 2033407, cl. C 05 D 1/02, publ. 1995.

2. RU, 2078067, cl. C 05 D 3/02, publ. 1997.

3. RU, 2165400, cl. C 05 D 3/02, publ. 2001.

4. RU, 2049252, cl. C 05 D 3/00, publ. 2000.

5. EP, 0259608 A3, cl. C 05 D 3/02, publ. 1988.

6. SU, 1813770, cl. C 05 F 7/02, 11/00, publ. 1993.

Claims (4)

1. Calcium-magnesium ash fertilizer containing dolomite flour and ash, characterized in that the fertilizer contains peat ash with a moisture content of not more than 12% when the ratio of dolomite flour to peat ash is 1: 3. 2. Lime-magnesium ash fertilizer according to claim 1, characterized in that the ratio of calcium and magnesium elements in the fertilizer is 5: 2. 3. Calcium-magnesium ash fertilizer according to claim 1, characterized in that the ratio of calcium and magnesium elements in the fertilizer is 7.5: 2.5. 4. Calcium-magnesium ash fertilizer according to claims 1 to 3, characterized in that in the resulting mixture the content of particles larger than 1 mm is 15%.