KR920003237B1 - Process for the production of granular sulfuric mugnesia fertilizer - Google Patents

Abstract

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Description

Granular sulfuric acid fertilizer and its manufacturing method

1 is an X-ray diffraction diagram of granular sulfuric acid fertilizer using minerals as raw materials.

2 is an X-ray diffraction diagram of granular sulfuric acid fertilizer fertilizer using chemical products as a raw material.

The present invention relates to a high hardness granular sulfate fertilizer and a method for producing the same.

Koto sulfate fertilizer contains water-soluble magnesium compounds which are important for plant growth following nitrogen, phosphoric acid and kali, which are the three essential elements of plants, and are indispensable for growing plants.

Therefore, such a high-fertilizer is conventionally used in the case of decontamination of magnesium sulfate (MgSO ₄ · 7H ₂ O) by-produced (wet method), or mineral powder containing a high content of magnesium, such as olive rock, serpentine, The powder of chemical products such as magnesium hydroxide and light magnesium is reacted with sulfuric acid as a powder to make magnesium sulfate (MgSO ₄ · H ₂ O), which is pulverized, and granulated into particles having a suitable particle size by adding a binder. , Dried, packed in bags (dry method).

However, magnesium sulfate (MgSO ₄ · 7H ₂ O) produced by the wet method contains a large amount of crystal water, and thus has a drawback of being easy to absorb moisture and difficult to handle. Therefore, it is common to use a high fertilizer by the dry method as the sulphate fertilizer.

On the other hand, the high soil fertilizer of the incidence manufactured by the dry method is abrasion due to vibration when the bag is transported in the bag, and because the bag is stored in bulk, it is shaved, crushed into fine powder, and becomes difficult to handle. Occurred.

Thereafter, in order to increase the grain strength of the granular sulphate fertilizer, the pulverized sulphate fertilizer is pulverized by a pulverizer, and the binder is blended at a concentration of 3 to 5% by weight in the product to assemble a large granular sulphate fertilizer of granular strength. there was. However, since the granular sulphate fertilizer granulated by blending such a binder has a large amount of water attached to the binder, a drying step becomes essential in order to remove this adhered water in a subsequent step.

Therefore, in the conventional method for producing granular sulfuric acid fertilizer, a heat-drying step for removing adherent water must be provided, and energy is required for heat-drying, which is not an advantageous method in terms of energy saving.

The present inventors have conducted extensive research in view of the above-mentioned problems, and as a result, when water is added while the fertilized sulfuric acid fertilizer containing the produced sulfuric acid MgSO ₄ · H ₂ O is still hot and the crystal water is unstable, the foreign substance is sulfuric acid. Goto react with the MgSO ₄ and H ₂ O of the fertilizer, this occurs the beard (多水鹽) of magnesium sulfate represented by MgSO ₄ and 6H ₂ O and traces of MgSO ₄ 7H ₂ O and has a binder-like behavior, the The present invention is based on the discovery that the above-mentioned MgSO ₄ H ₂ O particles can be firmly adhered by the polysulfate magnesium sulfate represented by MgSO ₄ 6H ₂ O, and a granular goblet sulfate fertilizer of high hardness can be obtained. Completed.

In other words, the granular sulfuric acid fertilizer of the present invention is a granular sulfuric acid fertilizer containing MgSO ₄ · H ₂ O as a main component, and is expressed as MgSO ₄ · 6H ₂ O to MgSO ₄ · H ₂ O in the above-mentioned fertilizer. It is characterized by containing polysulfate magnesium sulfate in the quantity ratio of 0.2 or more.

Moreover, the manufacturing method of the granular sulfuric acid fertilizer of this invention is a magnesium sulfate containing material of the temperature of 60 degreeC or more obtained by making sulfuric acid react with at least 1 sort (s) of basic magnesium compound containing material selected from serpentine powder, olive rock powder, magnesium hydroxide, and light magnesium, It is a method characterized by adding water to granulate.

Such granular sulfuric acid fertilizer of the present invention is a granular sulfuric acid fertilizer containing MgSO ₄ H ₂ O as a main component, but a relatively large amount of polysulfate magnesium sulfate represented by MgSO ₄ H ₂ O having a binder property. MgSO ₄ H ₂ O grain copper is firmly adhered to the polysulfate magnesium sulfate, which has a significantly higher hardness than MgSO ₄ H ₂ O produced without adding water. It is a granular material.

Therefore, shaving due to abrasion due to vibrations during transportation is difficult, and it is difficult to be crushed even if it is packed in bags and stored in bulk, so that it is not finely divided and is convenient for handling.

In addition, since the method of producing granular sulfuric acid fertilizer of the present invention does not use the binder itself, it is not necessary to provide a heating and drying step for removing the moisture adhering to the binder, and also does not heat and dry, thus saving energy and industry. It is extremely advantageous.

[Sulfate Koto Fertilizer]

[Components]

Ipsan sulfate Goto fertilizer of the present invention is composed mainly of MgSO ₄ · H ₂ O, typically 30-80%, preferably 31-75%, and containing, moreover, the MgSO ₄ · H ₂ O MgSO per 1 mol of ₄ , it is preferably decided to the beard magnesium more than 0.2 mole, represented by 6H ₂ O is contained in a quantitative ratio of 0.3 to 0.9 mol.

Specifically, MgSO ₄ · H ₂ O is mainly produced as a main component, and minerals are prepared as raw materials, and generally 30 to 40%, preferably 31 to 35%, and manufactured using chemicals as raw materials. Generally, the content is 70 to 82%, preferably 72 to 80%.

The more MgSO ₄ · When the mineral is magnesium sulfate whiskers represented by MgSO ₄ · 6H ₂ O with respect to H ₂ O as a starting material has a ratio of 0.7 to 1.0 molar quantity contains decided least 0.5 mole, preferably.

Moreover, when using a chemical product as a raw material, it contains 0.2 mol or more, Preferably it is contained in the quantity ratio of 0.3-0.4 mol.

The molar ratio of MgSO the beard magnesium sulfate represented by ₄ · 6H ₂ O with respect to MgSO ₄ · H ₂ O in the magnesium-containing those crystals by X-ray diffraction to be drawn 2θ is drawn to the 26.4 position is MgSO ₄ · H _For a peak of ₂ O, it is drawn at the position of 20. 2. It can calculate by calculating the intensity ratio of the peak of MgSO ₄ .6H ₂ O.

Specifically, the chlorinated sulfuric acid fertilizer according to the present invention contains MgSO ₄ · H ₂ O as a main component produced by a dry method, and contains trace components in raw materials inevitably included in other manufacturing processes.

The raw material provided for the fertilizer is generally manufactured by reacting a basic magnesium compound containing sulfuric acid with a high content of magnesium in a mineral powder such as olive rock and serpentine, magnesium hydroxide and light magnesium, and sulfuric acid. Elements containing less sulfates of various elements such as silicon, iron, calcium, and boron are 0.2%, and many elements contain about 16%.

[Properties]

The oxidized sulfuric acid fertilizer of the present invention contains MgSO ₄ · H ₂ O as the main component, but contains polysulfate magnesium sulfate represented by MgSO ₄ · 6H ₂ O having a binder action therein, The sulfuric acid sulphate of the present invention has a hardness of 0.2 to 2.8 kg / particles of the high-fertilizer, ie, the particle itself having a low content of polysulfate magnesium sulfate represented by MgSO ₄ · 6H ₂ O, which is composed of a chemical product. The hardness of the high-fertilizer particles themselves is about 1.2 to 5.4 kg / particles and about 2 to 3 kg / particles.

Particularly, in the case of using mineral as a raw material, the hardness of the particles themselves of the phosphate fertilizer of the present invention is from 6.9 to 12.0 kg /, while the hardness of the particles themselves of those containing no polysulfate magnesium sulfate is 0.9 to 6.4 kg / particle. The particle | grain and 5-6 kg / particle | grains are improving (Furthermore, hardness was measured with the particle diameter of 2.0-2.83 mm using the wooden hardness tester).

In addition, the phosphate sulfate fertilizer of the present invention has sufficient water solubility, although the particle size is generally 1.0 to 10.0 mm, preferably 1.5 to 5.0 mm.

[Preparation of Gothic Acid Sulfur Fertilizer]

[reaction]

Such oxidized sulfuric acid fertilizer is usually produced by a dry method. In the preparation of chlorinated sulfuric acid fertilizer by such a dry method, basic magnesium containing high magnesium content and sulfuric acid having a high concentration of 70 to 98%, usually at normal pressure, usually at a reaction heat of 110 to 180 캜, preferably In general, the reaction is carried out at a temperature of 150 to 200 ° C.

The fertilized sulfuric acid fertilizer produced in this way has MgSO ₄ H ₂ O as a main component and contains 0.2% of silicon, iron, calcium, boron, and other raw sulfates contained in other raw materials. As mentioned above, it contains 16% of many elements.

[ferment]

The reaction product obtained by the reaction is discharged from the outlet of the reactor to a temperature of 110 ~ 160 ℃ and temporarily stored in the aging hopper. Maturation in the hopper is usually performed at a temperature of 100 to 150 ° C for 0.5 to 1 hour, and then moved to a grinder.

[smash]

Before the granulation, the sulfuric acid fertilizer produced by the above reaction is generally 0.1 to 1.5 mm, preferably 0.1 at a temperature of 60 캜 or more, preferably 80 to 90 캜, by a mill such as a hammer mill. It is pulverized until it reaches a particle diameter of ˜0.5 mm.

[Assembly]

The obtained sulfuric acid fertilizer powder contains MgSO ₄ · H ₂ O as a main component, and even if the granulated sulfuric acid fertilizer is granulated, it does not become a hardened sulfuric acid fertilizer. In order to make a high-fertilizer, it is necessary to convert a part of it into the majority salt of MgSO ₄ .6H ₂ O or a mixture of MgSO ₄ .7H ₂ O with a binder action. The conversion is 20 to 35 kg per 100 kg of MgSO ₄ ㆍ H ₂ O in consideration of evaporated water in pulverized sulphate fertilizer as described above. ). In addition, when a chemical product is manufactured as a raw material, it is performed by adding 15-45 kg (60-130 degreeC) water.

In this case, it is important that the addition of water is performed when the sulphate fertilizer just after the reaction is hot at 60 ° C or higher.

If the temperature is too low, too sulfate fertilizer Goto MgSO ₄ and H ₂ O as it does not convert to MgSO ₄ and H ₂ O and MgSO _4, or 7H ₂ O, it is preferred that the temperature of the sulfate fertilizer goto 60 ℃.

Although the above-mentioned method of adding water can take various states, it is common to carry out powdered sulphate fertilizer into 100 kg into the granulator and spray water from above.

In this assembly, it is generally assembled to a particle diameter of about 1 to 10 mm.

[Cooling]

Since the sulfuric acid fertilizer granulated by the above granulation process is discharged at a temperature of about 50 to 55 ° C., it is slightly soft. It becomes a product.

The cooled granulated sulfuric acid fertilizer can be transferred to a vibratory separator and sifted, and further packed into bags and delivered to the market.

Example 1

[reaction]

With a particle size of 100 mesh passages of 100% or more (150 mesh passages of 70% or more), 100 kg of olive rock powder and 94.4 kg of 98% sulfuric acid, each having a MgO content of 39.0 to 41.0%, were weighed by a meter and supplied to the reactor, The reaction was carried out at a reaction temperature of 160 ° C. for 0.1 hour.

[ferment]

The obtained reaction product is aged for 1 hour at a temperature of 100 to 150 ° C.

[smash]

Next, this reaction product is taken out of the grinder and carried out at a temperature of 80 to 90 ° C until the particle size is 0.1 to 0.5 mm.

[Assembly]

While the pulverized sulphate fertilizer was still hot at 70 to 80 ° C, 28 kg of normal temperature water to 100 kg of the sulphate fertilizer was added and granulated to a predetermined particle size.

The particles were further cooled to a temperature of 40 to 50 ° C. with a cooler, and transferred to a vibratory sieve to divide the granular product into a sieve to obtain a ferric phosphate fertilizer having a uniform particle size.

[evaluation]

The hardness of the obtained granular sulfuric acid fertilizer was measured. The hardness was measured using a wooden hardness tester with a particle diameter of 2.0 to 2.83 mm. The results are shown in the first table.

TABLE 1

In addition, the X-ray rotation of the granular sulfuric acid fertilizer is carried out, the result is shown in FIG. 1, and the peak strength is shown in the second table.

TABLE 2

Comparative Example 1

In the granulation step, the same procedure as in Example 1 was carried out except that the pulverized sulphate fertilizer was cooled to room temperature and granulated with water. The result of having measured the hardness of the obtained granular sulphate fertilizer is shown in a 1st table | surface. The X-ray diffraction is performed, and the result is shown in FIG. 1, and the peak intensity is shown in the second table.

Example 2

Instead of olive powder, the particle size passed through 9 mesh 100%, and the reaction, aging, pulverization, granulation and evaluation were carried out in the same manner as in Example 1 except that 100 kg of MgO content of 60.0 to 63% of magnesium hydroxide and 98% of sulfuric acid of 153 kg were used. Was performed. The measurement results of the hardness are shown in the third table.

TABLE 3

Moreover, X-ray rotation of this granular sulfuric acid fertilizer is performed, the result is shown in FIG. 2, and a peak intensity is shown in a 2nd table | surface.

Comparative Example 2

It replaced with the olive rock powder of the comparative example 1, and carried out by the method similar to 1 except having used the magnesium hydroxide used in the Example 2. The result of having measured the hardness of the obtained granular sulfuric acid fertilizer is shown in Table 3. The X-ray rotation is carried out, and the result is shown in FIG. 2 and the peak intensity is shown in the second table.

Claims (2)

In particulate sulfuric Goto fertilizer containing and composed mainly of MgSO ₄ and H ₂ O, it is represented by MgSO ₄ and 6H ₂ O with respect to MgSO ₄ and H ₂ O in the above-described fertilizer beard magnesium is a ratio over 0.2 Quantitative Granular sulfuric acid fertilizer, characterized in that it contains. At least one basic magnesium compound-containing compound selected from serpentine powder, olive rock powder, magnesium hydroxide and light magnesium may contain sulfuric acid at a temperature of 60 ° C. or higher to granulate by adding water. Manufacturing method of granular sulfate fertilizer.

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