RU2021236C1 - Method of preparing of peat-humic granulated fertilizer - Google Patents

Abstract

FIELD: agriculture, complex organo-mineral fertilizers. SUBSTANCE: method of peat-humic granulated fertilizer preparing involves peat treatment with alkaline reagent following by addition of nitric, potassium or phosphorus fertilizer, mixture granulation and drying of granules. Potassium hydroxide or silicate is used as an alkaline reagent at concentration 5-9% per dry peat matter. EFFECT: enhanced effectiveness of fertilizer, prolonged effect. 3 tbl

Description

 The invention relates to agriculture.

 A known method of producing organic-mineral fertilizers by treating milled peat with a chemical reagent, which is used as a by-product of the processing of manganese ores - an ammonia solution of nitrate salts, salts of calcium, magnesium, ammonium, manganese. Treated peat is kept for 20-25 days. and mixed with potash and phosphorus fertilizers.

 This method provides for the partial activation of humic substances of peat with physiological activity. However, the use of an ammonia solution of nitrate salts does not fully activate peat, since ammonia is a weak and highly desorbed alkali. In this method, only 39.4 wt.% Of humic acids of their total content in peat and 13.8 wt.% On the dry matter of peat are able to acquire mobility, i.e. become active. An increase in the dose of ammonia solution is unacceptable, as it leads to an increase in the nitrogen content in the fertilizer, which negatively affects the plants. The fertilizer contains a chlorine ion, an undesirable element for the plant. The technology for producing fertilizer is laborious - more than 20-25 days. The nutrient elements of the fertilizer obtained are quickly washed out and the plants require additional feeding.

A method of producing an organo-mineral fertilizer by chemical processing part peat, first with 4% aqueous sulfuric acid at 95-105 ^{° C} for 3-4 h, and then aqueous NaOH solution to pH 12-13 at the same temperature within 0.9-1.2 hours. The part of peat activated in this way is mixed with the remaining part and mineral components, granulated and dried.

 Processing peat with sulfuric acid allows you to deeply activate peat, sharply increasing the content of humic substances. However, such parts of peat as bitumens, lignin, which contain a mixture of high molecular weight acids that have inhibitory properties, also undergo splitting. Any temperature negatively affects substances of humic nature, irreversible changes occur, their mobility decreases. All this leads to the fact that the quantitative composition of the humic complex increases, and its qualitative composition deteriorates, and the physiological and biological activity decreases. Further treatment with alkali actually only neutralizes the acid. The prolonging effect of such granular fertilizers is not high. So, when in the aquatic environment for 30 minutes from granules prepared by a known method, leachability is about 71-75% of the nutrients. Such leachability of elements requires frequent top dressing of plants, which does not justify the laborious method of producing granular fertilizers.

A known method of producing organic-mineral fertilizer, including the processing of peat chips - granules (waste from production of lump peat) with a moisture content of 30-35% KOH alkaline reagent or NH ₄ OH and introducing mineral components into it, the mineral components being introduced before treatment with an alkaline reagent by impregnation with water a solution of mineral components at pH 7-8 to complete saturation, after which it is treated with an alkaline reagent at the rate of 2-5 wt.% on the dry substance of peat.

 The known method provides for the receipt of incomplete fertilizer, since there is no one of the batteries - phosphorus.

 When processing peat granules with a moisture content of 30-35% alkaline reagent, only partial activation of the humic substances of peat with physiological activity occurs. Basically, it affects the surface of the granules, and even then enriched with mineral components to complete saturation, which reduces the process of activation of the organic matter of peat (alkaline hydrolysis process). As a potassium mineral component, KCl is used, which forms salts with the organic substance of peat, which, when processed with an alkaline reagent, are more difficult to undergo alkaline hydrolysis due to the exchange reactions that have already occurred, which prevents the activation of humic substances of peat. In this method, only 50.1 wt.% Humic acids of their total content in peat and 17.5 wt.% On the dry matter of peat are able to acquire mobility. Introduction to the fertilizer of chlorine ions negatively affects the growth of the vast majority of plants. In addition, it is known that irreversible changes occur in peat with humidity less than 35% with substances of humic nature and their mobility decreases, which makes their activation more difficult. So the wetting time in a solution of mineral fertilizers is 4-6 days, and to accelerate this process, the introduction of surfactants is recommended. Fertilizer granules obtained by a known method do not have a sufficient prolonging effect. Since water-soluble humic substances are in the upper thin layer of the granule, in moist soil they quickly pass into the soil solution and do not delay the leaching of the mineral part of the granules, which can create an excessive concentration of mineral substances in the soil, and therefore, for plants, or they can be lost with groundwater.

 The aim of the invention is to increase the efficiency of fertilizers by increasing its prolonged action.

 This goal is achieved by the fact that in the method of producing peat humic granular fertilizers, including peat treatment with an alkaline reagent, followed by the addition of nitrogen, potassium and phosphorus fertilizers, granulating the mixture and drying the granules, potassium hydroxide or potassium silicate in the amount of 5- is used as alkaline reagent and potassium fertilizer 9 wt.% On the dry matter of peat.

The treatment of peat with potassium hydroxide (KOH) or potassium silicate (K ₂ O × nSiO ₂₎ in an amount of 5-9% on the dry substance of peat allows you to fully activate the humic complex of peat, which has the properties of physiological activity. The degree of activation is expressed in the increased content of mobile humic substances, which in the form of potassium humates are plant growth stimulants. At the same time, these alkaline reagents are sources of potassium, as one of the components of the mineral nutrition of plants. The most complete separation of the humic complex leads not only to an increase in fertilizer properties, but also to an increase in the prolonged action of fertilizer due to the gluing properties of humic substances, which allows one to obtain a granule with a more gradual release of nutrients into the soil solution over time. The consequence of this is a uniform supply of nutrients to plants, the exclusion of additional plant nutrition, and a cleaner ecological environment. In the proposed method, 62.3 wt.% Humic acids of their total content in peat and 21.76 wt.% On the dry matter of peat are able to acquire mobility. The introduction of nutrients (nitrogen and phosphorus) after activation of peat allows to achieve high uniformity of distribution of elements throughout the volume of granules. The prolonging effect of the granules obtained by the proposed method is 1.5-2.0 times greater than the granules obtained by known methods.

 The efficiency of fertilizers and the prolongation of properties is enhanced not only by the purely physical properties of fertilizers (for example, in granular form), but also by the fact that alkaline hydrolysis of peat preceding the introduction of mineral fertilizers creates an elastic cellular structure of organic matter in the cavities of which nutrients are distributed.

 Under the influence of the forces of chemical interaction in the process of mixing, granulation and drying, an organic binder, enriched with potassium humate, envelops the particles of mineral fertilizers and cements all elements into a single system. The effectiveness and prolongation of the properties of fertilizers are enhanced by using a solution of potassium silicates for the hydrolysis of peat. In this case, all the nutrients are absorbed into the silicic acid gel (that is, they are included in the "skeleton" of silicic acid containing humates).

 When peat is processed with an alkaline solution of potassium silicate, high-quality mixed colloids of silicic and humic acids are formed, which, when dried (keratinized), give strength to the granules, while at the same time being labile to a certain extent, they can pass into the soil solution, gradually acquiring mobility. It is thanks to this connection that nutrients cannot be washed out, but are excreted in the quantities necessary for plants. Silicic acid gel serves as a carrier substance for nutrients and biologically active substances.

 Granules with a high uniformity of composition, when they enter the soil (soil), begin to gradually swell (top layer) and give out nutrients from it along with humic substances. Then this process captures the lower layers of granules, etc., and since the entire mass of granules is uniform and the granules are identical to each other, the plants uniformly and gradually receive nutrients. The effect is enhanced by the presence of humic substances, which are also evenly distributed in the granules.

 The proposed method for producing peat humic granulated fertilizer (TSHU) is carried out in the following sequence. Milled peat, mainly of the low type of wood, wood-grass or grass groups (sphagnum moss content is higher than 15%), decomposition degree of at least 25%, humidity 55-65% with constant stirring is treated with potassium hydroxide or silicate at the rate of 5-9 wt. % on dry matter of peat in the mixer for 15 minutes Almost the entire humic complex is exposed. Then, nitrogen and phosphorus components are introduced in the form of a basic solution of liquid complex fertilizers (HCF) containing nitrogen and phosphorus, with the composition N: P: K = 10: 34: 0. In the absence of HCS, ammophos and urea can be introduced as sources of nutrients for nitrogen and phosphorus. The mixture is mixed again for 20 minutes. The NPK ratio in the mixture is 1: 1: 1.

The resulting plastic mass is supplied into a screw granulator where further averaged, and outgoing pellets fed to drying at a temperature not exceeding 105-110 ^{° C} to a moisture content of 10-15%.

 Agrochemical studies of the effectiveness of fertilizers were carried out under growing, microfield, field and industrial conditions in order to select the optimal chemical composition and formulation of the fertilizer, and in particular the amount of potassium hydroxide or silicate, as the main factor in increasing the yield of humic acids and the prolonged action of fertilizers.

PRI me R 1. 250 kg milled sedge-hypnum peat lowland type, the degree of decomposition of 25%, pH _KCl 3.6 with a moisture content of 60% (100 kg abs. Dry peat) is processed 8.4 kg (solid) KOH with continuously stirring the mixture for 15 minutes Then, nitrogen and phosphoric fertilizers are introduced at the rate of 20 l of the basic solution of ZhKU grade 10: 34: 0 (or 11.8 kg of ammophos and 6.6 kg of urea), the mixture is mixed for 20 minutes, granulated and dried to a moisture content of 10-15% .

The composition of the obtained TSHG at pH 7 is as follows, wt.%: N - 3.5, calculated on N _NH4 ; P - 4.48 in terms of P ₂ About ₅ ; K - 5.4 in terms of K ₂ O.

The content of water-soluble humic substances of 7.5 wt.% On abs. dry matter of peat. Pellet moisture 10-12%
PRI me R 2. The experiment is carried out analogously to example 1 with milled peat of the wood group of the transition type, the degree of decomposition of 30%, pH _KCl 4,2, with a moisture content of 55%. The amount of peat 223 kg, KOH 8.4 kg, ammophos 8.0 kg, urea 6.6 kg.

The composition of the obtained TSHG at pH = 6.9 is as follows, wt.%: N - 3.25 in terms of N _NH4 ; P - 3.1 in terms of P ₂ About ₅ ; K - 5.6 in terms of K ₂ O.

 The content of water-soluble humic substances is 11.2 wt.% On abs. dry matter of peat. The moisture content of the granules is 10-12%. The experimental data for examples 1 and 2 are presented in tables 1 and 2, the characteristics of the finished granular fertilizers are presented in table 3.

PRI me R 3. The experiment is carried out analogously to example 1, but peat is treated with a solution of potassium silicate. 200 kg of milling sedge-hypnum peat of lowland type, decomposition degree 25%, pH _KC l 3.6 with humidity 50.0% (100 kg abs. Dry peat), 33 l of alkaline potassium silicate solution (210 g K ₂ O in 1 l), while the mixture has a moisture content of 56%. Ammophos 11.8 kg, urea 6.6 kg. The indicators are obtained similarly to the data in table 1-3.

The composition of the obtained TSHG at pH 7.0 is as follows, wt.%: N - 3.6, calculated on N _NH4 ; P - 4.8 in terms of P ₂ About ₅ ; K - 5.6 in terms of K ₂ O. The content of water-soluble humic substances is 7.5 wt.% On abs. dry peat substance. The moisture content of the granules is 10-12%.

 To determine the prolonged action of the obtained TSHGs, experiments were conducted to determine the rate of leaching of mineral fertilizers, specifically potassium. Fertilizer samples are placed in dividing funnels with drained bases and poured with the same water flow rate, by the difference in the content of mineral components in the initial sample and filtrate, judge the leachability of the elements, and as a result, the prolonged action of fertilizers.

The experimental data are presented in table.2
From the data given in Table 1, it is seen that the optimal amount of an alkaline KOH reagent (as well as potassium silicate) is a concentration of 5–9% per abs. dry peat. At this concentration, a sufficiently complete alkaline hydrolysis of the organic matter of peat occurs, the released amount of humic acids creates a good elastic cellular structure from organic matter, in the cavities of which nutrients are distributed, which, due to the “sticking” properties of humic acids, are cemented into a single system with a fairly high prolonging property. So for 30 days only 47-49% K ₂ O was washed. The prolonging effect of the proposed fertilizers is 3-4 months, while this action for known fertilizers is only a month (Table 2).

 The optimal concentration of potassium hydroxide or silicate contains a sufficient amount of potassium as a source of one of the most important mineral components of plant nutrition. In addition, at such a concentration of KOH, the most “pure” humic acid is secreted, which contains the largest number of active functional groups with biological activity. The granules after drying are dense, solid, the compressive strength is 16.1 MPa (Table 3), they do not crumble when bagged, transported and stored, and when applied to the soil and wet, they retain their shape for a long time. The dynamic strength of the granules is 99.9-99.5%.

 When the concentration of alkaline reagent is 3-4%, incomplete alkaline hydrolysis of the organic substance of peat occurs. Ready granules contain only 2.1-3.1% of humic acids, their “gluing” ability decreases, the granules do not have a good elastic cellular structure, are quite loose and, as a result, the potassium washability is quite high - 50-52%. In addition, there is an insufficient amount of potassium as a nutrient, which would require additional fertilizing with potassium. All this reduces the effectiveness of the fertilizer.

 An increase in the concentration of alkaline reagent sharply increases the content of humic substances and the leachability of potassium, and therefore reduces the prolonged effect of fertilizer. This is due to the fact that at a high concentration of potassium hydroxide, not only the humic complex of the organic substance of peat is extracted, but also other substances, such as hydrolyzable, lignin, bitumen, containing acids that are similar in type to humic, but less active or inhibitors. Thus, the very amount of humic substances increases, and their quality deteriorates. In addition, deep alkaline hydrolysis leads to the breakdown of molecules before the capillary water of peat is isolated, and despite the high content of humic acids, the “bonding” effect is reduced, and the leachability of potassium increases sharply, which worsens the prolongation of fertilizers.

 Thus, in order to obtain a peat-humid granulated fertilizer - TGGU with a rather high prolonging effect and the necessary amount of potassium as a plant nutrient, it is necessary to treat peat with hydroxide or potassium silicate in an amount of 5-9% abs. dry matter of peat.

 Agrochemical tests of fertilizers were carried out at TsINAO, RAOOS NIUIF, NIIOKh, the Leto company - the Kolpinsky state farm and the Control and seed experimental station of the city of Pushkin at more than ten vegetable and flower and decorative leaf crops.

 Studies have shown a pronounced fertilizing effect of the proposed fertilizers by increasing the prolonged action of fertilizers.

Claims (1)

 METHOD FOR PREPARING A TORFOGUMINE GRANULATED FERTILIZER, including treating peat with an alkaline reagent followed by the addition of nitrogen, potassium and phosphorus fertilizers, granulating the mixture and drying the granules, characterized in that potassium hydroxide or potassium silicate in an amount of 5 to 9 is used as an alkaline reagent and potassium fertilizer. % dry matter of peat.

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