DD216445A5 - METHOD FOR PRODUCING MULTI-NUTRIENTS WITH EXTENDED EFFECT - Google Patents

Abstract

The process for the preparation of Mehrnaehrstoffduengern with extended action is that a known organic and an inorganic Duenger, in particular a nitrogen and potassium fertilizer in an amount of 30 to 70 wt .-% is added to a polymer carrier having the binding ability of Duengestoffen preferably from pulp, peat and lignite. The dope fabrics, especially the nitrogen and potassium diene fabrics of the prepared blend are included in the structure of the straps or a control polymer is produced, in particular by a chemical reaction, at a temperature of 15 to 50 degrees C for 5 to 180 minutes. In the mixture, the organic ingredient, the mineral fertilizer and the deacidifying ingredient are added in order in an amount of 2 to 5 parts by weight of the organic ingredient and 2.5 to 3 parts by weight of the deacidifying ingredient per 1 part by weight, while stirring continuously. Part of the mineral fertilizer added. Thereafter, the Duenger is led for 10 to 60 minutes at a temperature of 15 to 50 degrees C and then transferred to the required utility form.

Description

- / - Berlin, 4. 7 * 1984, APC 05 G / 261 235 8 63 659 18

Process for the preparation of complex fertilizers with prolonged action

Field of application of the invention

The invention relates to a method for the production of complex nutrient fertilizers with prolonged action, in particular of organic-mineral calcium fertilizers.

Characteristic of the known technical solutions

Methods are known for the preparation of fertilizers, in particular nitrogen fertilizers with prolonged action, consisting in the coating of the fertilizers by a polymer and by sulfur as well as asphalt and paraffin, described in the journal »Technik Chemik« No. 2, p. 8, 1981 ·

It is also known from a PL-PS 126 678 a process for the production of artificial fertilizers, in particular of nitrogen and potassium fertilizers, with prolonged controllable effect, consisting in that known microelement-containing fertilizer in a polymer carrier, in particular in cellulose, are completed by drying, in the thus prepared mixture, a control polymer film is produced by introducing a corresponding polymer or by producing it by a chemical reaction

The known methods do not guarantee a simple production method of fertilizers which supply complex fertilizers, organic constituents and deacidifying agents.

'..''.-2'-': · .-. ^: 'Aim of the invention

The aim of the invention is to provide an improved process for the production of complex nutrient fertilizers with extended action, with which the desired product can be produced in a simple and economical manner and energy-saving in a single operation «

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The object of the invention is to find suitable components for the complex nutrient fertilizer and to provide suitable technology in order to be able to produce a complex nutrient fertilizer with an extended action in a single operation.

The process according to the invention for the preparation of extended-acting fertilizers consists in adding a known organic and an inorganic fertilizer, in particular a nitrogen and potassium fertilizer, preferably in an amount of from 30 to 70% by weight to a polymer carrier, which is capable of binding the fertilizers, preferably of pulp, peat and lignite. The fertilizers, in particular the nitrogen and potassium components of the mixture produced, are included in the structure of the carrier or become a control polymer, in particular by a chemical reaction in a Temperature of 15 to 50 ⁰ C made during a time of 5 to 180 minutes ·

In an extended-action fertilizer thus prepared, an organic constituent, a mineral fertilizer and a deacidifying agent in an amount of from 2 to 5 parts by weight of the organism are added, with constant stirring, in order.

After the addition of all ingredients of the fertilizer, it is stirred for 10 to 60 minutes at a temperature of 15 to 50 ⁰ O and then converted into the required form of useful, from the Needed · In the process according to the invention lignite, preferably in comminuted form, peat, ie a natural polymer, such as pulp and lignin is used as an organic component · As a mineral fertilizer is a phosphorus fertilizer, such as superphosphate or phosphorus flour and supplemental amounts of nitrogen fertilizer and a schnellesuchen Potassium fertilizers, such as urea or ammonium nitrate and potassium sulphate or chloride used, wherein the most advantageous proportion of nitrogen, potassium and phosphorus designed as 1: 2: 2.

On the other hand, brown coal ash in rubble or granule form is used as a deaerating agent with microelements. It is advantageous to use the lignite ash with the addition of a calcium fertilizer, in particular a calcium oxide or hydroxide, in order to achieve a pH of the fertilizer of 9 to 11 If the increase in the copper content is necessary, a copper fertilizer, in particular copper sulfate, is additionally introduced.

The fertilizer produced according to the invention provides the solution of three stages of fertilization: organic, calcium and mineral fertilizers, in which all nutrients are supplied to the plants for a period of 3 to 4 years in a fertilization measure. The complex fertilization with all nutrients simultaneously provides an improvement of the structure of the soil and the regulation of the pH value of the soil. In the process according to the invention, the dewatering effect of the soil was

Exploited, which allows the production of a product in bulk form ·

An advantage of the method according to the invention consists in the solution of producing a complex fertilizer with mineral fertilizers with prolonged action in a simple technological operation with simultaneous significant shortening of the technological process compared with the known method at least 5faehe, by eliminating the drying and crushing of the mineral fertilizer prolonged action "Such a process is carried out in a single device, which substantially reduces the consumption of the energetic medium"

The fertilizer according to the invention reduces the endangerment of the environment due to the prolonged, controllable action of the fertilizer. The process according to the invention also makes it possible to utilize waste products such as brown coal dust, peat, brown coal ash, bark, wood waste, lignite ₉ lignin liquors, fiber waste, waste paper, sugar factory. Lime, which makes it possible to manage substantial quantities of hitherto useless products that are currently contaminating the natural environment ·

In the process according to the invention, the control polymer is formed under mild conditions, allowing the production of controllable slowdown fertilizer which is much higher than other processes. The resulting extended action fertilizer differs in structure and shape from other known ones Fertilizers In the process of the invention, the production of a slowed-down fertilizer is simultaneous on a peat,

Pulp and lignite carriers possible, which improves its fertilising properties ·

embodiment

The method according to the invention is explained in more detail below with reference to a few examples, these examples not limiting the scope of the invention.

Example I

In a mixer 0.83 parts by weight Niedertorf with 70 % water and pH 5 »95 are introduced and stirred for 10 minutes, after which 0.075 parts by weight of urea are added and stirred for a further 10 minutes · Then in the mixer 0.104 parts by volume of formalin 36 Of the active substance were introduced, after which the contents of the apparatus were stirred for 10 minutes, after which 0.024 part by volume of aqueous 10% sulfuric acid solution was added and stirred at a temperature of 30 minutes.

a temperature of the mixture of 27 ^° C. and at pH 5.6

In the next stage, the mixer will contain 1.4 parts by weight of lignite from the Belchatow deposit with a bulk density of 750 kg / nr and a grain diameter of up to 10 mm, 1.73 parts by weight of brown coal ash with a composition of 20% by weight of calcium , 5 wt -.% magnesium, 300 ppm boron, 2000 ppm manganese, 20 ppm copper, 20 ppm molybdenum, 20 ppm zinc, and 0.275 parts by weight of super phosphate, 0.150 parts by weight · potassium sulfate, 0.01 parts by weight of copper sulfate and 0.01 part by weight of calcium oxide is added. The contents of the apparatus are stirred for 20 minutes at a temperature of 42 ⁰ C.

A brown-colored debris product having a bulk density of 0.754 kg / l, pH 10.3, and moisture content of 20.1 % was prepared, which was characterized by a nitrogen-dissolving capacity of Ehrend 24 hours of 70.5 %, based on the starting amount "The calculation method of the dissolving power consisted in the determination of the concentration of fertilizer components after 24 hours from 10 g of a fertilizer sample, introduced in 50 ml of distilled water with a temperature of 20 ⁰ Oe. Under these conditions, the urea used as a representative of snow-soluble fertilizers completely the solution after 2 hours over

Into the mixer, 0.83 parts by weight of low peat having properties as in Example I were introduced and stirred for 10 minutes, after which 0.075 parts by weight of urea were added and stirring was continued for 10 minutes. Then 0.104 parts by volume were added to the mixer Formalin was introduced with 36% by weight of the active ingredient and the contents of the apparatus stirred for 10 minutes, after which 0.120 parts by volume of 10% sulfuric acid-water solution were added. The process was then carried out as in Example I.

A brown-colored bulk product having a bulk density of 0.726 kg / K, pH 10.1 and moisture content of 29 % was prepared, which was characterized by a nitrogen dissolving capacity after 24 hours of less than 1%, based on the starting amount s ,

0.83 parts by weight of Niedertorf with intrinsic

shaken as in Example I and during 10 minutes

Then 0.075 parts by weight of urea were added and stirred for a further 10 minutes. Then 0.104 parts by weight of formalin having properties as in Example I were added to the mixer and the contents of the apparatus were stirred for 10 minutes, after which 0.024 vol. Parts of 10% sulfuric acid solution was added and the contents were stirred for 30 minutes at a temperature of the mixture of 28 ⁰ C. In the next stage, 1.4 parts by weight of the brown coal with properties as in Example I, 0.273 parts by weight of superphosphate, 0.150 parts by weight of potassium sulfate, 0.01 parts by weight of copper sulfate were introduced into the mixer and the contents The apparatus was stirred for 10 minutes, after which 1.73 parts by weight of brown coal ash with properties as in Example I and 0.01 parts by weight of calcium oxide were introduced and the product was stirred for a further 10 minutes at a temperature of 45 ⁰ C.

A light brown color bulk product having a bulk density of 0.740 kg / l, pH 10.5 and humidity of 29 »1 % was prepared which was characterized by nitrogen dissolution capacity after 24 hours of 15 to 18%, based on the starting amount. .

Example IV

0.83 parts by weight of peat having properties as in Example I were introduced into the mixer and stirred for 10 minutes, after which 0.075 part by weight of urea was added and stirred for a further 10 minutes. Then 0.104 parts by weight of formalin having properties as in Example I were introduced and the contents of the apparatus were stirred for 10 minutes, after which 0.048 part by volume of 10% sulfuric acid solution was added and stirred at a temperature of 30 ⁰ C for a further 60 minutes

"In the next stage, the remaining ingredients were introduced as in Example III".

A brown-colored bulk product having a bulk density of 0.730 kg / l, pH 10.4 and moisture content of 29-2 % was prepared, which was characterized by nitrogen dissolution capacity after 24 hours of $ 1, based on the starting amount * ^a

Beispjeljr

In the mixer, 0.83 parts by weight of peat having properties as in Example I were introduced and stirred for 10 minutes, after which 0.150 parts by weight of urea and 0.150 parts by weight of potassium sulfate were introduced, followed by stirring for an additional 10 minutes was "Then in the mixer were 0.208 by volume ψ -part © formalin with properties as in example I, after which the contents of the apparatus for 10 minutes and then stirred 0.048 by volume · parts by the 10 Sßigen SchwefelßäUrelösung added and for 60 minutes at a temperature were stirred from 29 ⁰ C · Then the remaining ingredients were introduced as in Example II »

A brown-colored bulk product having a bulk density of O ₉ 780 kg / l, pH 10.1, moisture content of 27.5 % was prepared which was characterized by nitrogen dissolving power after 24 hours of 7 % and potassium dissolving power after 24 hours of 3 % the initial quantity was marked ·

Example, VI. , ''"^;

O "_9" 4 piles of peat having properties as in Example I were introduced into the mixer and stirred for 10 minutes,

After which 0.15 parts by weight of urea were added and the whole was stirred for a further 10 minutes. Then 0.02 parts by weight of a polyvinyl acetate emulsion containing 80% by weight of the active substance in 0.1% by volume were added. parts of water was added and the residual mass was stirred for 20 minutes at 25 ⁰ O · in the next stage the Düngstoffe were introduced as in example I ·

There was prepared a bulk product with a light brown color, a bulk density of 0.71 kg / 1, pH 9.9 and moisture content of 31%, which was obtained by a nitrogen resolution after 24 hours of 45% ₉ on the starting amount in ·

Claims (3)

1 »A process for the preparation of extended-acting multi-nutrient fertilizers, in particular of organic-mineral calcium fertilizers consisting in the introduction of known organic and inorganic fertilizers, in particular the nitrogen and potassium fertilizers in the polymer carriers, which have the binding capacity of the fertilizers, preferably from pulp, Peat or lignite and in the subjection of the mixture produced the effect of the control polymer or in the production of a control polymer film, by a chemical reaction, characterized in that the binding of the fertilizers in the carrier structure and the production of Control polymer is preferably conducted at a temperature of the mixture of not more than 50 ⁰ C for 5 to 180 minutes, after which in a thus prepared fertilizer with prolonged action with constant stirring the series'nach'organisch® ingredient, the mineral fertilizer and the Deacidifier introduced Rt is added, preferably in an amount of 2 to 5 parts by weight of the organic constituent and 2.5 to 3 parts by weight of the deacidifying agent per 1 part by weight of the mineral fertilizer, and then after adding all the ingredients for 10 to 60 minutes a temperature of 15 to 50 ⁰ C is stirred, after which the fertilizer is converted into the required -ifutzform. 2 » Method according to item 1, characterized in that brown coal is used as organic constituent, preferably in comminuted form, peat and a natural polymer such as cellulose and lignin * 3 * Method according to item 1, characterized in that as a mineral fertilizer, the phosphorus fertilizer, such as superphosphate or Phosphoritmahl and supplemental amounts of the rapidly dissolvable nitrogen and potassium fertilizer, such as urea or ammonium nitrate and potassium sulfate or · chloride is used, wherein preferably the ratio of nitrogen, potassium and phosphorus is designed as 1: 2: 2 · Process according to item 1, characterized in that the brown coal ash in bulk form or as granulate and the brown coal ash with addition of the calcium fertilizer, in particular in the form of a calcium oxide or hydroxide, is used as deacidification agent to obtain a pH of the fertilizer from 9 to 11 ,