RU2206552C1 - Complex glass fertilizer with prolonged effect and method for its preparing - Google Patents

Abstract

FIELD: fertilizers, agriculture. SUBSTANCE: fertilizer comprises phosphate glass-like fertilizer containing P₂O₅, CaO, MgO, Fe₂O₃, MnO, CuO, B₂O₃, CoO, SiO₂,MoO₃,K₂O of the definite composition as a phosphorus-potassium fertilizer and trace elements and fully soluble linear-cyclic polymethylene urea is used as urea-formaldehyde resin in the following mass ratio of components: phosphate fertilizer, 75-90%; urea, 10-25%. Method for preparing fertilizer involves synthesis of urea-formaldehyde resin that is carried out at temperature 45 C for 2 h in neutral or weakly acid medium, pH is from 5 to 7. Phosphorus-potassium fertilizer as powder is added to the prepared urea liquid condensate followed by granulation of the prepared heterogeneous composite. Fertilizer provides the balanced nutrition of plants and exhibits universal properties due to the prolonged effect. The proposed fertilizer can be used for any crops for 3-5 years in a single addition to the soil. EFFECT: valuable properties of fertilizer. 2 cl, 1 tbl, 1 ex

Description

 The invention relates to fertilizers of prolonged action and can be used in agriculture for any crops for 3-5 years with a single application to the soil, eliminating the need for other components.

 The glass fertilizers currently being developed do not erode, do not penetrate into groundwater and provide plant nutrition for 3-5 years. However, they do not include nitrogen compounds, without which the process of photosynthesis, and therefore plant growth, is practically impossible.

 Thus, the task of introducing nitrogen fertilizer into prolonged complex glass fertilizers is very important, since it makes these fertilizers universal.

 Known complex granular fertilizer, US patent 3954942, 01 B, published in 1976, including all necessary plant components, enclosed in a polymer shell.

 A disadvantage of the known fertilizer is its short duration: not more than 1 year. This is due to the fact that during the initial local destruction of the polymer shell, the dissolution of its contents is only slightly slower than conventional fertilizer without a shell.

 Fertilizer is known by a. from. 1119999, MKI C 05 B 13/06, published October 10, 84 in BI 39, containing vitrified compounds of phosphorus, potassium, and trace elements. This fertilizer works for 3-5 years, but its use requires the annual introduction of nitrogen fertilizers into the soil, which leads to significant operational costs.

 Known adopted for the prototype "Method for producing a tablet slowly acting fertilizer" by a. from. USSR 1527228, MKI С 05 С 9/02, published on December 7, 89 in BOI 45. According to this method, an initial mixture of inorganic phosphates and urea-formaldehyde resin (MPS) is used in nitrogen-phosphorus-potassium fertilizer.

 Neither the first nor the second of the well-known copyright certificates raise or address the issue of the consistent and balanced release of plant nutrients into soil solutions, as well as the influence of disintegration and tabletting processes on the antagonism of the initial components of the fertilizer, at the same time it is known that carbide when heated in acidic pH <5 solutions or basic pH> 8 solutions, on the one hand it can hydrolyze to ammonia and carbon dioxide, and on the other hand, during polymerization, not only form MPS, but also give Ureta, which is highly toxic to plants, even when the content of 0.25 wt.%.

 The objective of the present invention is to ensure the universality of the known glass fertilizer by ensuring its prolonged action, as well as the development of a method for its production.

The objective of the present invention is solved in such a way that in a complex glass fertilizer of prolonged action containing phosphorus-potassium fertilizer, urea-formaldehyde resin (MPS) and trace elements, phosphate-potassium fertilizer and trace elements use phosphate glassy fertilizer "Agrovitakva-AVA" (hereinafter "AVA") with the following composition in wt.%:
P ₂ O ₅ - 49-55
CaO - 10-14
MgO - 5-8
Fe ₂ O ₃ - 0.2-0.5
MnO - 0.1
CuO - 0.02
In ₂ About ₃ - 0.2-1.5
CoO - 0.05
SiO ₂ - 1-3
MoO ₃ - 0.005
K ₂ O - 15-19
and as a urea-formaldehyde resin, a completely soluble linear-cyclic polymethylene urea is used with a mass ratio of components:
Phosphate Glassy Fertilizer (AVA) - 75-90%
Linear-cyclic polymethylene urea - 10-25%
A method of producing a prolonged-action glass fertilizer includes the synthesis of urea-formaldehyde resin (MFS), curing and isolation of solid MFS, and the subsequent mixing of MFS with phosphorus-potassium fertilizers and microelements, and is characterized in that it contains phosphate glassy as phosphorus-potassium fertilizers and microelements fertilizer (AVA) with the following composition in wt.%:
P ₂ O ₅ - 49-55
CaO - 10-14
MgO - 5-8
Fe ₂ O ₃ - 0.2-0.5
MnO - 0.1
CuO - 0.02
In ₂ About ₃ - 0.2-1.5
CoO - 0.05
SiO ₂ - 1-3
MoO ₃ - 0.005
K ₂ O - 15-19
and the synthesis of MFS is carried out at a temperature of 45 ^o C for 2 hours in a neutral or slightly acidic environment with constant control of the pH level (pH 5-7), phosphate glassy fertilizer (AVA) is introduced into the obtained liquid condensate of linear cyclic polymethylene urea in the form of a powder at mass ratio of components:
Phosphate Glassy Fertilizer (AVA) - 75-90%
Linear-cyclic polymethylene urea - 10-25%
then the resulting heterogeneous composite is granulated by heating to 50 ^o C.

 Urea-formaldehyde resin (MFS) is used to produce urea-formaldehyde fertilizer (KFU) in accordance with TU 113-03-03-0-85, which is a mixture of polycondensation products such as polymethylol and polymethylene urea with a linear, cyclic and spatial structure, nitrogen content in which is kept at an average level of 23-33 wt.%.

When dehydrated, the MFS passes from the resinous to the vitreous state. The dehydration process can be carried out by heating the resin, for example up to 50 ^o C. Production of MFS is carried out from urea, formalin, alcohol and ammonia, and the pH can be changed over a wide range from 4.5 to 8.5. The solubility of MFS after vitrification depends on the pH level. The higher the pH, the slower the dissolution.

Thus, it is possible to balance the dissolution rate of glass fertilizer and glassy MFS. To compile a universal composite fertilizer, the glassy components ground to powder were mixed with a resinous MFS at a mass ratio of components:
Phosphate Glassy Fertilizer (AVA) - 75-90%
Linear-cyclic polymethylene urea - 10-25%
and then granulated at a temperature of 50 ^o C. The result was vitrified granules containing up to 15% nitrogen and suitable for introduction into the soil.

The dissolution kinetics of such fertilizers is similar to the prototype fertilizers, but the proposed fertilizers can work for 3-5 years at a temperature of from 8 to 22 ^o C. This excludes the separate introduction of nitrogen fertilizers into the soil.

A positive effect when using the invention is achieved:
1. Due to the greater dissolution rate of MFS compared with AVA, soil solutions are sequentially enriched with plant nutrition components with a variable concentration of nitrogen, potassium, and phosphorus over time. This allows us to talk about the synergy of the agrochemical effect of fertilizers, since at the initial stage, the yield of nitrogen in soil solutions is 2-3 times higher than the output of potassium, phosphorus, boron and trace elements, and after about a month, based on a temperature of 20 ^o C, and constant humidity the concentration of the outgoing components per unit time are equalized.

 2. The total dissolution rate of lenticular granules with a diameter of 5-10 mm is significantly lower than pure MFS due to the high adhesion on the surface of AVA. This provides a prolonged effect of the composite with balanced plant nutrition.

 3. The lack of chemical interaction between AVA and MFS allows us to speak of a heterogeneous composite, in contrast to disintegrated mixtures, which are opposed to the applicants.

 4. The output per unit time of mineral components in soil solutions increases with an increase in the specific surface area S / m (S is the total surface of the particles of the glassy fertilizer powder, and m is its total mass). A balanced yield of nitrogen and elements of plant mineral nutrition is achieved for a specific glassy fertilizer - AVA with an AVA ratio of 75-90%, MFS - 10-25 wt.% (Powder particles - AVA 60-180 microns in size, the size of the granules of the composite 5-10 mm ) In the general case, these quantities are variables.

 An example implementation of the invention.

 For example, we took a sample of KFU TU 113-03-33-0-85, which is a granule with a diameter of 3-5 mm white. The approximate estimates of the solubility of KFU showed that the resin is a polydisperse product. The kinetics of dissolution of the samples is nonlinear. An analysis of the results shows that in the initial stage of dissolution, two processes should be considered: first, polymer swelling, then polymer dissolution. In the second stage, the kinetic curve reaches saturation.

KFU is dissolved at 18 ^o C to 60% in 6 days.

 The prior art it is known that by changing the conditions of the polycondensation reaction, it is possible to obtain soluble MFS.

 In the example, the method of synthesis of completely soluble MFS is used and at the same time (without intermediate curing of the resin), a composite is prepared from MFS and glass powder AVA.

 The course of polycondensation of urea with formaldehyde depends on the pH of the medium. In a neutral and slightly alkaline medium, pH 6-8 at the first stage of the reaction, mono- and dimethylolureas are formed.

 When their molecules interact with each other, polymethylene ureas with a linear structure are obtained. This is a soluble product, unable to spontaneously pass into a non-melting and insoluble state. Dimethylol derivatives of urea, interacting with each other, form a soluble linear cyclic polymethylene urea. When urea with formaldehyde is heated in a neutral or slightly acidic medium (pH 5-7), resinous hydrophilic products are formed, which, after dehydration, turn into a glassy fusible state.

 In a strongly acidic environment (pH 3), urea reacts with formaldehyde to form mono- and dimethylene urea and gives water-insoluble, non-melting and amorphous products.

 We synthesized MFS from urea, formalin with the addition of alcohol and ammonia, so that the pH was 7.6-7.8. The synthesis of the resin is carried out with constant monitoring of pH. The mixture was heated for 2 hours in a water bath, while the pH changed to 5.0-4.6. The condensate was a liquid syrup. Usually, a curing operation is further performed. Then solid resin is released. In our experiments, liquid condensate was directly used to obtain the composite.

 AVA-7 glass was introduced into the condensate in the form of a powder. 3 series of samples were obtained in which the glass content was referred to as 1: 2: 3.

The condensate + glass mixtures were cured at different temperature conditions:
1 series (less glass): 9.5 hours at 45 ^o С and 4 days at 20 ^o С,
2 series: 6.5 hours at 45 ^o C and 2 days at 20 ^o C,
3 series: 1.5 hours at 45 ^o C and 20 hours at 20 ^o C.

 Samples with a lower glass content took longer to cure.

 Finished samples were tablets with a diameter of 8-10 mm. Using the described technique, we were able to obtain samples in which the resin did not lose solubility during the curing process. Table (see the end of the description text).

 Thus, composites from MFS and glass powder AVA were obtained, which can be used as a fertilizer of prolonged action.

Claims (1)

1. A prolonged-action complex glass fertilizer containing phosphorus-potassium fertilizer, urea-formaldehyde resin and microelements, characterized in that phosphate-potassium fertilizer and microelements use a phosphate glassy fertilizer with the following composition, wt.%:
P ₂ O ₅ - 49-55
CaO - 10-14
MgO - 5-8
Fe ₂ O ₃ - 0.2-0.5
MnO - 0.1
CuO - 0.02
In ₂ About ₃ - 0.2-1.5
CoO - 0.05
SiO ₂ - 1-3
MoO ₃ - 0.005
K ₂ O - 5-19
and as a urea-formaldehyde resin, a completely soluble linear-cyclic polymethylene urea is used with a mass ratio of components:
Phosphate glassy fertilizer - 75-90%
Linear-cyclic polymethylene urea - 10-25%
2. A method of producing a complex glass fertilizer of prolonged action, including the synthesis of urea-formaldehyde resin (MFS), and the subsequent mixing of MFS with phosphorus-potassium fertilizers and microelements, characterized in that phosphate-potassium fertilizers and microelements use phosphate glassy fertilizer with the following composition, wt.%:
P ₂ O ₅ - 49-55
CaO - 10-14
MgO - 5-8
Fe ₂ O ₃ - 0.2-0.5
MnO - 0.1
CuO - 0.02
B ₂ O ₃ - 0.2-1.5
CoO - 0.05
SiO ₂ - 1-3
MoO ₃ - 0.005
K ₂ O - 15-19
the synthesis of MFS is carried out at 45 ^o C for 2 hours in a neutral or slightly acidic environment with constant pH level control in the range from 5 to 7, phosphate glassy fertilizer in the form of a powder in the mass ratio of components is introduced into the obtained liquid condensate of linear cyclic polymethylene urea:
Phosphate glassy fertilizer - 75-90%
Linear-cyclic polymethylene urea - 10-25%,
then the resulting heterogeneous composite is granulated by heating to 50 ^{° C.} and granulated.

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