SK94098A3 - Fertilizer - Google Patents

Abstract

Fertilizer with density of 1.15 to 1.40 g/ml is made: a) either of 40 to 98 wt. % of treacle burnts or liquid mixture of treacle burnts and ammonium salts and 59.60 to 1.95 wt. % of water and 0.4 to 0.05 wt. % of sodium humate or potassium humate, or ulmous acids or their mixtures; or b) of 40 to 90 wt. % of treacle burnts or liquid mixture of treacle burnts and ammonium salts and 58.50 to 4.45 wt. % of water and 1.50 to 5.55 wt. % of epsom salt or magnesia nitrate or their mixtures; or c) of 40 to 97 wt. % of treacle burnts or liquid mixture of treacle burnts and ammonium salts, 58.50 to 2.80 wt. % of water and 1.50 to 0.20 wt. % of solution containing either individually or in mixture bacteria of azobacter sp. Max 3.4x10exp.(7) or bacillus megatherium max. 2.5x10exp.(8), and/or vegetal hormones gibberallin or heteroauxin and/or vitamins of the group B.

Description

Technical field

The invention relates to a liquid organomineral fertilizer according to the main claim 1.

BACKGROUND OF THE INVENTION

Concentrated molasses stillage, as industrial waste in the manufacture of molasses in distilleries, is either burned or used for the production of protein concentrates or for processing in the feed industry for the production of pellets or organomineral fertilizers.

A solution according to US-A-4,604,125 is known using molasses stillage for the energy and technologically demanding production of solid mineral fertilizer with the necessary subsequent disposal of organic residues or a solution according to DE-OS 32 11 330 using several kinds of molasses stillage. vinass, as substrates for the decomposition of organic material. Use. This solution reduces the ratio of carbon-nitrogen elements in the soil and at the same time provides nutrient subsidies in the natural form. The disadvantage • is the relatively high potassium content and low phosphorus content in the fertilizer, which may significantly affect the level of these elements in the soil, which is undesirable.

CZ 278 603 also provides a composition and a process for the production of a complete liquid organomineral fertilizer based on molasses stillage consisting of a mixture of thickened stillage and ammonium salts of phosphoric acid or ammonium nitrate or ammonium sulfate. This fertilizer contains nitrogen-phosphorus-potassium elements in a balanced ratio, is easy to apply by spraying in the form of mist spraying, is environmentally friendly, supports the decomposition processes of organic matter and at the same time improves the mechanical structure of the soil. This improves both macro and micro nutrition of cultivated crops.

SUMMARY OF THE INVENTION

The invention provides a fertilizer of the type mentioned in the main claim 1 with an improved effect in the field of increasing yields and improving the quality of cultivated crops and their health. This object is solved by the particular features set forth in claim 1.

The parameters referred to in claim 1 are the result of both the theoretical calculation and the practical tests, taking into account that the fertilizer must be in liquid form at least during transport and application. By selecting the parameters, the optimum effect of the fertilizer components on the plants is achieved, which, moreover, increases many times due to the interactions of the individual components.

So eg. water is used to dissolve acids or their salts.

In the case of deviations from the above mentioned concentrations upwards or downwards the fertilizer may lose individual phases and their effect, resp. the fertilizer degradation may be separated. Molasses data for monohydrophosphorus and dihydrophosphorus ion concentrations.

Failure to observe some or all of the parameters disturbs the balance within the system. This may result in sedimentation and / or formation of new but desirable compounds. This also results in a large deviation from the optimum effect. The stability of the system is therefore not only important, but must be assessed comprehensively and sensitive to possible changes.

Fertilizer according to part a / feature of claim 1 ensures better nutrient utilization, permeability of plant membranes is increased, plant metabolism, photosynthesis, respiration, protein synthesis and plant and soil enzyme activity are positively influenced.

microorganisms. At the same time, the higher content of humic compounds in the soil positively affects its structure and properties, limits the amount of washed nutrients and increases the soil's ability to retain moisture. This will increase yields, improve germination and resilience of seedlings. In addition, since humates affect cadmium sorption, cadmium circulation in the food chain is disrupted and only over 20% of cadmium gets into the products compared to the original state.

Liquid organomineral fertilizer is suitable for areal and local application of thickened molasses stillage, as waste from distillery production directly to the land of crop plants, both for better plant nutrition and for reduction of cadmium content in human nutrition.

Fertilizer according to part b / feature of claim 1 ensures better nutrient utilization, plant metabolism, protein and carbohydrate synthesis are positively influenced. This causes an increase in yields, improves germination and resistance of seedling crops.

Liquid organomineral fertilizer is suitable for areal and local application of thickened molasses stillage as waste from distillery production directly on the land of crop plants, both for elimination of magnesium deficiency in soil and for general improvement of plant nutrition.

The fertilizer according to part c / feature of claim 1 ensures better utilization of nutrients, positively influencing plant metabolism, photosynthesis, respiration, protein and carbohydrate synthesis. In particular, nitrogen from the air and the utilized phosphorus released are satisfactorily used. This increases the yields and improves the germination and resistance of seedling crops.

Liquid organomineral fertilizer is suitable for area and local application of thickened molasses stillage as waste from distillery production directly on the land of crop plants in order to ensure better utilization of nutrients from the soil, to achieve higher resistance of plants against diseases and overall improvement of plant nutrition.

Preferred fertilizer compositions are set forth in the subclaims.

DETAILED DESCRIPTION OF THE INVENTION

The invention is now explained in more detail by way of examples.

Example 1

For soil with a lower nutrient supply, the main crop of spring barley, a total of 2 tons of liquid organomineral fertilizer was prepared by adding a solution of potassium humate prepared in accordance with CZ 278 603 in the amount of 1,980 kg, kg of water was dissolved 2 kg of potassium humate, with stirring, the two solutions were homogenized for 15 minutes and then transported to the field using a transporter and sprayed onto the soil with a special sprayer followed by mechanical plowing. At this rate 1 ha of soil was fertilized using a spray nozzle pressure of 0.3 to 0.5 Mp.

After evaluation of the harvest, it was found that the yield of spring barley grain compared to the control plot without the use of humate was higher by about 0.4 t / ha, which represents a relative increase of 7% with a grain number increase of 8% per grain. At the same time, the grain content of the grain was increased by 9% and the protein content of the grain was reduced simultaneously.

Example 2

Under the same soil conditions and for the same crop as in Example no. 1, potassium humate was replaced with sodium humate in the fertilizer used. The evaluation of the harvest showed the same increase in yield and quality indicators, and in addition, when determining the cadmium content in the whole plant, it was found that cadmium preferably accumulated in roots, less in straw and at least in grain. Compared to the control variant of the non-humate crop, cadmium accumulation in the grain was only 21% and in straw only 52% of the compared value.

Example 3

For soil with a lower nutrient supply, the main crop of spring barley, a total of 2 tons of liquid organomineral fertilizer was prepared by adding, after the production of 1800 kg of the basic fertilizer component by the method of CZ 278 603, a magnesium nitrate solution prepared by 126 kg of water was dissolved 74 kg of magnesium nitrate and, with stirring, the two solutions were homogenized for 15 minutes to obtain a fertilizer with a net nutrient content per ton: N - 20 kg, P ₌ 0 _s -

- 16 kg, K _and O - 28 kg and MgO - 10 kg. This fertilizer was transported to the field using a transporter and sprayed onto the soil with a special sprayer, followed by mechanical plowing. At this rate 1 ha of soil was fertilized using a spray nozzle pressure of 0.3 to 0.5 Mp.

Example 4

For soil with medium and higher nutrient bases with found content of basic elements P - 94 mg / kg, K - 140 mg / kg, Mg - 87 mg / kg, Ca - 2 460 mg / kg were prepared 3 t of organomineral fertilizer with magnesium so 300 kg of an aqueous magnesium sulphate solution containing 210 kg of water and 90 kg of magnesium sulphate was slowly admixed with 2700 kg of fertilizer of the composition corresponding to CZ 278 603. The yield of 3 t fertilizer per 1 ha contained the following basic elements in the calculation of pure nutrients: N -

- 67.5 kg, P 0 - 54 kg, K 0 - 94 kg, MgO - 33 kg.

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Example 5

A total of 2 tons of liquid organomineral fertilizer was prepared for the soil with a lower nutrient supply, the main crop of spring barley, by adding a solution containing azotobacter and bacillus bacteria after the production of the basic fertilizer component according to the method of patent CZ 278 603 in the amount of 1,800 kg. megatherium together with the plant hormones gibberallin and heteroauxin prepared so that 4 kg of the above supplements were dispersed in 196 kg H 2 O. While stirring, the two solutions were homogenized for 15 minutes to obtain an organic fertilizer which, in terms of pure nutrient equivalent, contains: N - 70 kg, P - 0 _s - 44 kg, K ₂ 0 - 70 kg.

This fertilizer was transported to the field using a transporter and sprayed onto the soil with a special sprayer, followed by mechanical plowing. Said batch was fertilized with 1 ha of soil using a spray nozzle pressure of 0.3 to 0.5 Mp.

Example 6

For soil with a lower supply of nutrients with found content of basic elements P - 75 mg / kg, K - 120 mg / kg, Mg - 83 mg / kg, Ca - 2 360 mg / kg for the main crop of winter wheat 1 ton of such that 100 kg of a solution containing 98 kg of water and 2 kg of bacterial, hormonal and vitamin supplements were slowly admixed to 900 kg of fertilizer of the composition corresponding to patent CZ 278 603. The obtained dose of 1 tonne of fertilizer per dose per ha contained the following amounts of basic elements in the equivalent of pure nutrients: N - 69 kg, P ₂ O _S - 43 kg, K 2 O - 70 kg.

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Claims (4)

1. Liquid organomineral fertilizer with a density of 1,15 to 1,40 g / ml based on molasses stillage or a liquid mixture of concentrated molasses stillage and ammonium salts of phosphoric acid or ammonium nitrate or ammonium sulphate, characterized in that and / or consists of 40 to 98% by weight of molasses stillage or a liquid mixture of molasses stillage and ammonium salts and 59,60 to 1,95% by weight of water and 0,4 to 0,05% by weight of sodium humate or potassium humate or humic acids; or mixtures thereof; or b) consists of 40 to 90% by weight of molasses stillage or a liquid mixture of molasses stillage and ammonium salts; and 58.50 to 4.45% by weight of water and 1.50 to 5.55% by weight of magnesium sulphate or magnesium nitrate or mixtures thereof; or c) consists of 40 to 97% by weight of molasses stillage * or a liquid mixture of molasses stillage and ammonium salts . 58.50 to 2.80% by weight of water; and 1.50 to 0.20% by weight of a solution containing either singly or in a mixture of a bacterium of the genus azotobacter sp. max 3,4. 10 ⁷ or bacillus megatherium max. 2,5 .10® and / or plant hormones gibberallin or heteroauxin and / or group B vitamins Fertilizer according to claim 1, characterized in that the base component is mixed with 9.9% water and 0.1% potassium humate or sodium humate. Fertilizer according to claim 1, characterized in that the base component is mixed with 6.3% water and 3.7% magnesium nitrate. 4. Fertilizer according to that base of magnesium. Claim 1, characterized by s a 3.1% by sulfate The beds are mixed so ‘ 7.2% water and 5. Fertilizer according to Claim 1 on the Hear UCE s a team. that the base component is mixed with 9.8% water and 0.2% ingredients Azotobacter, bacillus megatherium and hormones gibberallin a T Heteroauxin. C 6. Fertilizer according to Claim 1 on the Hear UCE s a by * that the base component is mixed with 9.8: % water and 0.2% ingredients Azotobacter, gibberallin hormones and heteroauxin and vitamins Group B.