UA71046C2 - A method for obtaining organic and mineral fertilizers - Google Patents

Abstract

The invention relates to the production of a large set of organic and mineral fertilizers which mineral part contains nitrogen, phosphorus and potassium. The process provides for mixing lignin with ammonium nitrate and 50% sulphuric acid with subsequent addition of apatite into the mixture up to obtaining a ratio of N:Р, being equal to 1:1.3-1.7. The process of mixing is performed up to the mixture pH of 5.0-6.0 with subsequent neutralization of the mixture with calcium carbonate to pH of 6.5-8 and incorporation of potassium salt to achieve a ratio of N:К, being equal to 1:1.8-2.2, magnesium salts, microelements and growth regulators – chlorine choline chloride. The obtained mixture is granulated and dried. The organic and mineral fertilizer is efficient for growing vegetable and technical crops due to an optimal components ratio.

Description

Description of the invention

The invention relates to the production of a wide range of organo-mineral fertilizers, the mineral part 2 of which includes M, R, K elements intended for the cultivation of vegetable and industrial crops.

There is a known method of obtaining organo-mineral fertilizers, which involves the oxidation of brown coal with air and its treatment with a 596% aqueous solution of caustic alkali with the addition of a solution of Ca(OH)" and crushed limestone. As a plasticizer, urea is introduced into the mixture (Patent KO Mo2051884, 1992).

The disadvantage of the method is that, according to it, it is impossible to obtain an organo-mineral fertilizer with an organic part content of more than 1795, and at the same time, mainly in the form of insoluble Ca humates. This fertilizer does not contain the necessary mineral components (M, R, K).

The closest to the proposed method in terms of technical essence and the result achieved is the method of obtaining an organo-mineral fertilizer, described in the Russian patent Мо2054404, 1996 (МПК! СО503/00), which involves mixing lignin with ammonium nitrate and 50956 sulfuric acid at room temperature t with stirring for 30-60 minutes with the subsequent addition to the resulting mixture of components containing phosphorus and potassium, calcium carbonate, magnesium salts, trace elements and a growth regulator. According to this method, lignin and ammonium nitrate ground into powder are brought into the reactor, 50905 sulfuric acid is added to them and intensively mixed with a stirrer for 30-60 minutes at room temperature. Then, nitroammophoska, urea, calcium carbonate, magnesium oxide, elemental sulfur, ammonium molybdate, manganese chloride and a growth regulator - chlorocholine chloride are added to the obtained modified lignin. The mixture is stirred until a homogeneous mass is obtained. Next, granulation of the product is carried out with the addition of a 1095% aqueous solution of a binder, while polyurethane semicarbazide, polyacrylamide, carboxymethyl cellulose, and sapropel are used as such. Then the product is dried. сч 29 The disadvantage of the method is the use of ready-made forms of He fertilizers (nitroamophos) as the main mineral part (M, R, K), which significantly increases the cost of the process. In addition, the ratio of MRK in the prototype, as well as other constituent components in it, were developed taking into account the peculiarities of the metabolism of cereal crops, in particular winter and spring wheat, to increase their productivity, increase the content of protein and gluten in grain. The use of this fertilizer (prototype) for vegetable and industrial crops, which differ from cereals in the predominance of carbohydrate metabolism, is ineffective. ch.i

The task of the invention is to create an organo-mineral fertilizer with a different ratio of macroelements, effective for growing vegetables and technical crops, since for vegetable and technical crops it is necessary to increase carbohydrate metabolism, which leads to the accumulation of sugars, vitamins, and also to reduce the content of "- nitrates, radionuclides and heavy metals in plant products.

The task is solved in the proposed method of obtaining organo-mineral fertilizers, which - involves mixing lignin with ammonium nitrate and 5096 sulfuric acid and stirring for 30-60 minutes with the subsequent addition of components containing phosphorus and potassium, calcium carbonate, magnesium salts, trace elements and growth regulator - chlorocholine chloride, granulation and drying of the product. As a component containing phosphorus, apatite is used, it is added to the previously obtained mixture of lignin with ammonium nitrate and sulfuric acid. Apatite is taken in the amount necessary to achieve the MR ratio. in the finished product, equal to 1:1.3-1.7. The mixing process leads to a pH of the mixture of 5.0-6.0. After that, the mixture of these components is neutralized with calcium carbonate to a pH of 6.5-8.0, and then potassium salts are introduced until the M:K ratio in the product is 1:1.8-2.2. Necessary trace elements - Mo, Mp (as in the prototype method), Si, 7p, Ii, B are added based on the brand of fertilizer. The resulting powder mass -1 15 is granulated and dried.

The essence of the method is as follows. In the proposed method of mixing lignin with ammonium nitrate and - sulfuric acid, it is carried out similarly to the prototype, which leads to the formation of an organic component in the fertilizer - modified lignin with humus carbon content - 25-4bmas.9o from total carbon.

This determines the increase in soil fertility and the efficiency of the use of nutrients by plants.

Her 50 In the proposed method, apatite is used as a component containing phosphorus, which on the one hand

Ф significantly simplifies the process (ready-made forms of fertilizers containing phosphorus are not used), and on the other hand, there is saturation with calcium salts contained in apatite. Apatite in the process of mixing decomposes in the presence of an acidic environment (modified lignin). At the same time, complex organo-mineral compounds are formed, which, under the influence of plant root secretions - organic acids - are decomposed into ions, absorbed by plant roots and assimilated by them.

GF) The amount of added apatite is regulated by the required M:P ratio in the finished product and varies depending on the brand of fertilizer. The process of mixing (and essentially decomposition) of apatite leads to a pH of the mixture of 5.0-6.0. Lowering the pH below 5.0 is impractical, as this will further require an increased amount of neutralizing agent, which disrupts the balance of nutrients in the finished product. An increase in pH above 6.0 is impossible, since the neutralization process does not proceed further.

The use of calcium carbonate allows not only to neutralize the mixture, but also to bring the amount of calcium in the finished product to the required level. The total content of Ca, Ma and organic matter creates conditions under which the physical and chemical properties of the soil improve.

Potassium sulfate, potassium chloride, potassium carbonate and others can be used as potassium salts. The process is then carried out similarly to the prototype, adding magnesium salts, trace elements and a growth regulator. The set of trace elements can be increased due to the introduction of compounds of copper, zinc, lithium, boron.

Using the proposed method of obtaining organo-mineral fertilizers allows you to obtain a wide range of fertilizers without making changes to the technological line, quickly switching from the production of one brand

TO another. The method also makes it possible to use the raw product - apatite instead of the expensive finished product (nitroamofoska) and to obtain fertilizer with an optimal ratio of components for growing vegetable and industrial crops.

A high content of humus-like organic matter (modified lignin) in the fertilizer will contribute to strengthening the biogenic activity of the soil, increasing the humus content, improving the physico-chemical structure of the 7/0 soil, fixing nutrients in the top layer, increasing soil fertility and the efficiency of the use of nutrients by plants. Such changes in the "soil-plant" system lead to an increase in the yield of crops, improvement of the quality of plant products, prevention of environmental pollution by chemical agents and contribute to the sustainable development of crop production and the biosphere.

The method is illustrated by the following examples.

Example 1.

Lignin in the amount of ZOO kg is loaded into the reactor and mixed with 120 kg of ammonium nitrate, 138 kg of 5090 sulfuric acid is added. The mixture is stirred for 40 minutes. 312 kg of apatite is added to the resulting mixture in the same reactor. The M:P ratio in the product is 1.0:1.3. Mixing leads to reaching the pH of the mixture of 5.0. Further neutralization of the mixture is carried out by adding calcium carbonate in the amount of 5 kg to the reactor.

The mixture is neutralized to pH 6.5. Potassium chloride in the amount of 140Okg is introduced into the neutralized mixture.

The M:K ratio in the product is 1.0:1.8. Magnesium sulfate in the amount of 52 kg is added to the mixture, as well as appropriate salts of microelements - Mo, Mp, Si, 2p, Yz, B and a growth regulator - chlorocholine chloride in quantities determined by the brand of fertilizers. The resulting product is granulated and dried to a moisture content of 10905.

They receive 1000Okg of the finished product with the ratio of M:P:K-1.0:1.3:1.8 and the following content of the components of the components (wt.7o): o

M 4

R 53

Kk TA «so zo Sa 13.5

Ma 14 "

The amount of trace elements is 12 o

The content of the organic part 3895 - from Example 2. M

Lignin in the amount of ZOO kg is loaded into the reactor and mixed with 120 kg of ammonium nitrate, 138 kg of 5O0F0 sulfuric acid is added. The mixture is stirred for 40 minutes. 357 kg of apatite is added to the resulting mixture in the same reactor. The M:P ratio in the product is 1.0:1.5. Mixing leads to the pH of the mixture reaching 5.5. Further neutralization of the mixture is carried out by adding 55 kg of calcium carbonate to the reactor. « 20 The mixture is neutralized to pH 7.0. Potassium chloride in the amount of 16 boOkg is introduced into the neutral mixture. -in

The ratio of MC in the product is 1.0:2.0. Then, magnesium sulfate in the amount of 53 kg s and other magnesium salts are added to the mixture, as well as the corresponding salts of the trace elements Mo, My, Si, 2p, Her, B and the growth regulator - :z" chlorocholine chloride in quantities determined by the brand of fertilizers. The resulting product is granulated and dried to a moisture content of 10956. The finished product is obtained with a M:P:K ratio of 1.0:1.5:2.0 and the following content of 15 components (wt.9b5):

M 3.75 - R 5.62 o Kk 7.5O

Sa 142 g» 50 Ma 1.00

Ф Sum of trace elements 1.12

Content of organic part 37905

Example 3.

Lignin in the amount of ZOO kg is loaded into the reactor and mixed with 120 kg of ammonium nitrate, 138 g are added

HF) of 5OF0 sulfuric acid. The mixture is stirred for 40 minutes. 4O0Okg of apatite is added to the resulting mixture in the same reactor. The M:P ratio in the product is 1.0:1.7. Mixing leads to reaching the pH of the mixture of 6.0. Further neutralization of the mixture is carried out by adding 55 kg of calcium carbonate to the reactor.

The mixture is neutralized to pH 8.0. Potassium chloride in the amount of 170.Okg is introduced into the neutralized mixture. 60 The M:K ratio in the product is 1.0:2.2. Magnesium sulfate in the amount of 58 kg or other magnesium salts are added to the mixture, as well as the appropriate salts of trace elements Mo, My, Si, 2p, Her, B and the growth regulator - chlorocholine chloride in quantities determined by the brand of fertilizers. The resulting product is granulated and dried to a moisture content of 895. The finished product is obtained with a M:P:K ratio of 1.0:1.7:2.2 and the following content of components (wt.9b5): b5

M 3.55

P 6.0

Kk 7,8

Sa 141

Ma 1.0

The amount of trace elements is 1.0

The content of the organic part is 35.55

Claims (2)

The formula of the invention 1. The method of obtaining organo-mineral fertilizers, which includes mixing lignin with ammonium nitrate and 5O0O sulfuric acid, stirring for 30-60 minutes, followed by adding to the resulting mixture components containing phosphorus and potassium, calcium carbonate, magnesium salts, trace elements and the growth regulator - chlorocholine chloride, granulation and drying of the product, which differs in that apatite is taken as a component containing phosphorus and added to the mixture of modified lignin with ammonium nitrate and sulfuric acid in the quantities necessary to achieve the M:P ratio in the product , equal to 1:1.3-1.7, the mixing process leads to a pH of the mixture of 5.0-6.0, followed by neutralization of the mixture with calcium carbonate to a pH of 6.5-8.0 and the subsequent introduction of potassium salt until the ratio of M :K in the finished product, equal to 1:1.8-2.2. 2. The method according to claim 1, which differs in that C, 7p, ii, B are introduced as microelements in quantities determined by fertilizer brands. official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated (o) microcircuits", 2004, M 11, 11/15/2004. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. (Se) « «c) - and - - and? -i - ("c) Cheka" 4) name) 60 b5