RU2469012C2 - Compound mineral fertiliser for flax fibre - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to agriculture. The compound mineral fertiliser for flax fibre which contains nitrogen, phosphorus, potassium, as well as sulphur - 1.5% with ratio N:P:K=1:2.4:5.3 with weight ratio of assimilable and water-soluble phosphates which make up 91.8-95.3 wt % of total P₂O₅ in the fertiliser, as well as boron or boron and zinc, in accordance with the compositions: 7% N, 17% P₂O₅, 37% K₂O, 0,2% boron and 7% N, 17% P₂O₅, 37% K₂O, 0,2% boron and 0.4% zinc.

EFFECT: invention enables to obtain compound nitrogen-phosphorus-potassium fertiliser for flax fibre grown on soils with high content of phosphorus with a lower ratio of nitrogen to phosphorus, containing only the most physiologically significant trace nutrients.

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Description

The invention relates to the production of mineral fertilizers, in particular to the production and use of complex nitrogen-phosphorus-potassium fertilizers with trace elements that can be used in chemical enterprises producing complex mineral fertilizers used in agriculture for the cultivation of flax.

Flax flax makes high demands on the level of soil fertility, the content of accessible forms of nutrients, which is explained by the underdeveloped root system, as well as a relatively short period of time (budding-flowering period), during which plants absorb 60-65% of nitrogen, phosphorus and potassium . Fertilizers are one of the means of increasing the yield and quality of flax.

It is known that under flax mineral fertilizers are applied taking into account the planned crop, the content of mobile forms of phosphorus and potassium in the arable horizon, as well as the degree of cultivation of the soil. According to the GNU of the All-Russian Research Institute of Flax of the Russian Agricultural Academy, the optimal ratio between nitrogen, phosphorus and potassium should be 1: 2-3: 4-7, i.e. potassium must be added 2-3 times more (according to the active substance) than phosphorus, and 4-7 times more than nitrogen [1]. The disadvantage of the recommended forms of unilateral mineral (nitrogen, phosphorus and potassium) fertilizers is: their uneven distribution over the field area due to different particle size distribution, which leads to variegation of the flax stalk, resulting in a decrease in yield, yield and quality of long fiber, and also increase the cost of applying unilateral fertilizers.

Known complex granular fertilizer, which can also be produced in the form of a suspension [2]. The patent indicates only a high-quality composition, including macro-, micro- and mesoelements. The disadvantage of fertilizer is a very wide range of trace elements (iron, manganese, zinc, copper, boron and molybdenum), the presence of which together does not always have a positive effect on the yield of flax due to the phenomenon of synergism and antagonism of ions.

The well-known "Complex granular fertilizer of prolonged action with trace elements and method thereof." The claimed fertilizer is produced on the basis of a dry mixture of phosphate rock, urea and potassium chloride with the introduction of anti-caking additives and subsequent granulation. Fertilizer contains 6.0-18.0% nitrogen, 8.0-14.0% phosphorus, 6.5-12.0% potassium, as well as cobalt, copper, nickel, zinc, chromium [3]. The disadvantage is the wide variation of the active substance, and a large set of trace elements limits the use of this fertilizer due to their possible accumulation in soil above the MPC.

It is known "Complete complex organic-mineral fertilizer (" Zeolite-3 "), consisting of organic and mineral fertilizers with the inclusion of a natural zeolite-containing component. This fertilizer contains 6.5-8% nitrogen, 8-10.5% phosphorus, 8.5-11.0% potassium and has a complete set of trace elements [4]. The disadvantage of fertilizer is the presence of nitrogen, phosphorus and potassium in it in a ratio of 1: 1.2-1.3: 1.3, which does not correspond to the physiological and biochemical needs of flax.

The closest to the achieved result to the proposed solution to the problem (prototype) is "Complex fertilizer for flax" containing 5% nitrogen, 16% phosphorus and 35% potassium, as well as 0.17% B, 0.3% Zn and 0.2 % Fe [5]. The disadvantages of this fertilizer are the low nitrogen content, as well as the wide ratio between nitrogen and phosphorus (1: 3.2), which leads to inefficient use of phosphorus in soils with a high content of phosphorus, prevailing in the flax-growing farms of the Northern and North-Western part of the Non-chernozem zone. Also, the patent does not indicate what proportion of phosphorus fertilizer accounts for digestible and water-soluble P ₂ O ₅ . This fractional composition significantly affects the assimilation of phosphorus by flax as a culture with an underdeveloped root system having a low absorption capacity.

Since the fertilizer contains both boron and zinc, its use is not always advisable on soils that lack only one of the above trace elements.

In addition, the inclusion of iron as a modifying additive in the fertilizer for flax flax cultivated on sod-podzolic soils prevailing in the Non-Chernozem zone is not justified, since they have a high availability of this element and do not need additional introduction of iron.

Thus, the aim of the present invention is to obtain a comprehensive nitrogen-phosphorus-potassium fertilizer for flax flax grown on soils with a high phosphorus content with a narrower ratio between nitrogen and phosphorus (presented in easily digestible form not less than 90% of the total P ₂ O ₅ ), containing only the most physiologically significant trace elements: boron and / or zinc.

The problem is solved by the fact that the proposed complex mineral fertilizer for flax flax, which according to the nutrient content corresponds to the compositions: for brand "A" - 7% N, 17% P ₂ O ₅ , 37% K ₂ O, 0.2% boron and grade "B" - 7% N, 17% P ₂ O ₅ , 37% K ₂ O, 0.2% boron and 0.4% zinc, with a ratio of N: P: K = 1: 2.4: 5.3.

Boric acid (H ₃ BO ₃ ) was used as a boron-containing additive; zinc was introduced in the form of zinc sulfate (ZnSO ₄ · 7H ₂ O). By calculation, their ratio is determined, which is necessary to obtain the given grades (Table 1).

Table 1 The amount of initial components required to obtain 1 ton of complex mineral fertilizer for flax Name of source components Consumption, kg / t Mark "A" 7: 17: 37 + 0.2V Brand "B" 7: 17: 37 + 0,2B + 0,4Zn Boric acid (H ₃ VO ₃ ) eleven 10 Zinc sulfate (ZnSO ₄ · 7H ₂ O) - 16

The nutrient content in the developed fertilizer and its physico-chemical properties are given in table. 2.

table 2 Chemical composition and physicomechanical properties of complex mineral fertilizers for flax The name of indicators Mark "A" 7: 17: 37 + 0.2V Brand "B" 7: 17: 37 + 0,2B + 0,4Zn The content of the mass fraction of nitrogen (N),% 7.0 ± 0.2 7.0 ± 0.2 The content of the mass fraction of phosphorus (P ₂ O ₅ ),% of common 17.0 ± 0.2 17.0 ± 0.2 assimilable 16.9 16.7 water soluble 16,2 15.6 The content of the mass fraction of potassium (K ₂ O),% 37.0 ± 0.2 37.0 ± 0.2 The content of the mass fraction of sulfur (S),% 1,5 1,5 The content of the mass fraction of boron (B),% 0.2 ± 0.01 0.2 ± 0.01 The content of the mass fraction of zinc (Zn),% - 0.4 ± 0.01 The content of the mass fraction of water (H ₂ O),% 1.3 1,6 The content of the mass fraction of fluorine (F),% 0.2 0.19 Content fraction,% less than 1 mm 0.2 0.4 from 1 to 2 mm 17.0 10.3 from 2 to 5 mm 82,2 87.6 more than 5 mm 0.6 1.7 more than 6 mm 0 0 The molar ratio of NH ₃ / H ₃ PO ₄ 1.73 1.73 The strength of the granules (diameter 3 mm), MPa 2.6 2.7 pH 7.3 7.2 Color pink pink

As follows from the results of a chemical analysis of the developed grades of complex mineral fertilizer for flax, it also contains sulfur - 1.5% of the physical mass. The developed fertilizer is characterized by a high mass fraction of assimilable and water-soluble phosphates - 91.8-95.3% of the total.

The given composition of complex mineral fertilizer for flax flax 7:17:37 with boron and zinc meets the physiological and biochemical requirements of flax flax for nutrients, having an optimal ratio of nitrogen, phosphorus and potassium for this crop - 1: 2.4: 5, 3. The inclusion of boron in the fertilizer grade “A”, and boron and zinc in the grade “B” fertilizer allows them to be used differentially depending on the degree of soil availability with microelements.

The results of agrochemical tests of the claimed fertilizer were carried out in model field experiments in 2008-2009 on flax flax varieties Dashkovsky (table 3-5).

Table 3 The effect of mineral fertilizers on the yield of flax straw and seeds Option 2008 year year 2009 2 years on average straw the seeds straw the seeds straw the seeds Control (without fertilizer) 36.5 3,7 54.7 3.0 45.6 3.4 RK - background 1 40.9 4.2 60.7 3.4 50.8 3.8 NPK basic version - 2.1 c / ha 44.8 5,4 70.9 4.4 57.9 4.9 PKBZn - Background 2 42.7 4.7 66.7 3.8 54.7 4.3 NPK 7:17:37 s V, Zn - 2.1 q / ha 47.2 6.2 72.0 5,0 59.6 5,6 NDS ₀₅ hours differences 2,3 0.4 5.8 0.2 - -

The data table. 3 indicate that when using complex mineral fertilizer for flax flax 7:17:37 with boron and zinc, the yield of flax seeds significantly increases by 0.7-0.8 c / ha compared with the base case. The increase in the yield of flax straw was significant in 2008 (+2.4 c / ha) and was at the level of the base case with NPK in 2009.

Complex mineral fertilizer for flax flax had the greatest influence on fiber yield (Table 4).

Table 4 The influence of the claimed fertilizer on the yield of flax fiber Option 2008 year year 2009 2 years on average total fiber including long total fiber including long total fiber including long Control (without fertilizer) 7.9 6.0 12,4 10.1 10,2 8.1 RK - background 1 7.7 5.8 13.9 11.1 10.8 8.5 NPK basic version - 2.1 c / ha 8.2 6.7 14.5 11.9 11,4 9.3 PKBZn - Background 2 8.6 6.9 13.9 11.5 11.3 9.2 NPK 7:17:37 s V, Zn - 2.1 q / ha 8.9 7.2 15.8 13,4 12,4 10.3 NDS ₀₅ hours differences 0.5 0.4 1.3 1,1 - -

On average, over 2 years of experiments, the yield of all flax fiber was 8% higher than the base variant, and 10.8% higher than the long one. Significant influence of the claimed fertilizer on the quality of scruffy and combed flax fiber was not noted (table. 5).

Table 5 The influence of the claimed fertilizer on the quality of flax fiber Option Fiber Relative breaking load (calculated), gf / tex battered number combed breaking force, kgf flexibility mm linear density tex Control (without fertilizer) 19.5 23.0 37.8 4,5 13.7 RK - background 1 19.5 23,4 40,4 4.4 13.9 NPK basic version - 2.1 c / ha 19.5 22.7 38.7 5.2 12,4 PKBZn - Background 2 19.5 24.3 44.1 4.9 14.3 NPK 7:17:37 c B, Zn - 2.1 q / ha 19.0 22.0 35,4 5.1 12.5

The data presented indicate the promise of using the proposed complex mineral fertilizer for flax flax 7:17:37 with boron and zinc in the technology of cultivating flax flax on sod-podzolic medium loamy soils.

The optimal ratio between nitrogen, phosphorus and potassium, as well as the inclusion of boron and zinc in the proposed fertilizer, can increase the yield of the most valuable long-quality flax fiber by 10.8%, while increasing the seed yield by 0.7-0.8 c / ha ( an average of two years of research by 14%) compared with the base case.

At the same time, due to the more complete use of elements from complex mineral fertilizers for long flax, the costs of its introduction are significantly reduced compared to single-sided fertilizers or other complex fertilizers that are not balanced in composition.

LITERATURE

1. Tikhomirova V.Ya., Sorokina O.Yu. and others. An improved system for the use of fertilizers in flax crop rotation. Monograph. - Torzhok, 2005 .-- 82 p.

2. Patent WO 2001/030724 A1 (SISO SOCIETA INDUSTRIA SEGUESTRANTI ORGANICI SRL), 05.03.2001.

3. Patent RU 2193546 C2. Slow-acting complex granular fertilizer with microelements and method for its preparation. 11.24.2000.

4. Patent RU 2223250 C2. Complete complex organo-mineral fertilizer Zeolite-3. 04/02/2002.

5. Patent EA 007603 B1. Complex fertilizer for flax. 12/29/2006.

Claims (1)

Complex mineral fertilizer for flax flax containing nitrogen, phosphorus, potassium, and sulfur - 1.5% with a ratio of N: P: K = 1: 2.4: 5.3 with a mass fraction of assimilable and water-soluble phosphates of 91 , 8-95.3% of the total P ₂ O ₅ in the fertilizer, as well as boron or boron and zinc, in accordance with the compositions: 7% N, 17% P ₂ O ₅ , 37% K ₂ O, 0.2% boron and 7% N, 17% P ₂ O ₅ , 37% K ₂ O, 0.2% boron and 0.4% zinc.