CN112645773A - Mineral supplement preparation, fertilizer comprising mineral supplement preparation, preparation method and application - Google Patents

Abstract

The invention provides a mineral supplement preparation, a fertilizer containing the mineral supplement preparation, a preparation method and an application, and belongs to the technical field of green agriculture and green food. The mineral supplement preparation provided by the invention comprises the following raw materials for preparation: land ore and coal ash; the land ore comprises a maotan mica group ore. The mineral supplement preparation of the invention contains rich mineral metal ions and can be directly added into food or feed as raw materials of the food or feed. After the mineral supplement preparation is compounded with plant nutrient elements, the mineral supplement preparation can be used for soil improvement, beneficial microorganism growth and reproduction are facilitated, further, combined metal elements which are insoluble in water in soil can be converted into metal ions which are soluble in water, sufficient cofactors are provided for enzyme protein synthesis of crops, sufficient enzyme proteins are activated, synthesis of substances required by agricultural products is promoted, and yield of the agricultural products is improved.

Description

Mineral supplement preparation, fertilizer comprising mineral supplement preparation, preparation method and application

Technical Field

The invention relates to the technical field of green agriculture and green food, in particular to a mineral supplement preparation, a fertilizer containing the mineral supplement preparation, a preparation method and application of the mineral supplement preparation.

Background

Food is basic material for human survival and health, human food types are known, and agriculture is a main source of food. At present, most of fertilizers applied in agriculture are nitrogen, phosphorus and potassium fertilizers, soil is lack of supply of other mineral substances, and enzyme protein is lack of cofactors and active biological enzyme is lack in the growth process of crops, so that substance synthesis of agricultural products is obstructed. In addition, soil and food are sources of human cells, and from the sources of the soil, only if the content of metal ions in the produced food can meet the quantity requirement of active enzyme protein of the human cells on the metal ions, enough enzyme protein can be activated, cell substances can be effectively synthesized, the completeness of the composition and the normal function of the cell substances can be guaranteed, and diseases can be effectively prevented. At present, the problem of mineral deficiency in human, animal and plant bodies is urgently to be solved. There is no closest prior art, there should be a disclosure of mineral supplements, and to the benefit of these already disclosed mineral supplements, what can this application be?

Disclosure of Invention

The invention aims to provide a mineral supplement preparation, a fertilizer comprising the mineral supplement preparation, a preparation method and an application.

In order to achieve the above object, the present invention provides the following technical solutions:

the invention provides a mineral supplement preparation which comprises the following preparation raw materials in parts by weight: 60-80 parts of land ore and 20-40 parts of coal ash; the land ore comprises a maotan mica group ore.

Preferably, the land ore further comprises vermiculite and/or micanite; the mass ratio of the maotang mica group ore to the vermiculite to the mica group ore is as follows: (60-80): (8-12): (15-25).

The invention also provides a preparation method of the mineral supplement preparation in the scheme, which comprises the following steps:

1) crushing the land ore to obtain a crushed material, and performing expansion treatment on the crushed material to obtain an expanded material;

2) mixing the puffed material, water and concentrated sulfuric acid, and carrying out acidolysis for 2-5 h at 110-120 ℃ to obtain an acidolysis product;

3) and mixing the coal ash and the acidolysis product to obtain a mixture, carrying out solid-liquid separation on the mixture, and collecting liquid components to obtain the mineral supplement preparation.

Preferably, the temperature of the puffing treatment in the step 1) is 100-120 ℃; the pressure of the puffing treatment is 1-2 MP; the time of the puffing treatment is 1-2 h.

Preferably, the mass ratio of the puffing substance to the water to the concentrated sulfuric acid in the step 2) is (25-30): (40-50): (20-25).

The invention also provides the application of the mineral supplement preparation prepared by the scheme and the mineral supplement preparation prepared by the preparation method in preparing food, fertilizer or feed.

The invention also provides a fertilizer comprising the mineral supplement preparation in the scheme or the mineral supplement preparation prepared by the preparation method in the scheme, which comprises the following raw materials in percentage by mass: 10-15% of a mineral supplement preparation, 10-15% of a secondary element raw material and a trace element raw material, 15-20% of a major element raw material, 10-25% of humic acid, 5-6% of coal ash and the balance of water;

the medium element raw materials and the trace element raw materials comprise: ferrous sulfate, copper sulfate, manganese sulfate, zinc sulfate, boric acid and magnesium sulfate; the mass ratio of the ferrous sulfate to the copper sulfate to the manganese sulfate to the zinc sulfate to the boric acid to the magnesium sulfate is (25-30): (15-20): (35-40): (45-50): (25-30): (25-30);

the macroelement raw materials comprise a nitrogenous fertilizer, a phosphate fertilizer and a potash fertilizer; the mass ratio of the nitrogenous fertilizer to the phosphate fertilizer to the potash fertilizer is (120-150): (80-100): (60-80).

Preferably, the mass percentage of nitrogen in the nitrogen fertilizer is more than or equal to 46 percent; the mass percentage of phosphorus in the phosphate fertilizer is more than or equal to 55 percent; the mass percentage of potassium in the potash fertilizer is more than or equal to 52 percent.

The invention also provides the mineral supplement preparation prepared by the scheme, the mineral supplement preparation prepared by the preparation method or the application of the fertilizer in soil improvement and/or crop quality improvement.

The invention provides a mineral supplement preparation, which comprises the following raw materials for preparation: land ore and coal ash; the land ore comprises a maotan mica group ore. The mineral supplement formulation of the present invention is rich in mineral metal ions. The mineral supplement preparation can be directly used as a raw material of food and feed to be added into the food or feed, so that the types of minerals in the food and feed are enriched, and the content of minerals in the food and feed is increased.

After the mineral supplement preparation and the plant nutrient elements are compounded, the mineral supplement preparation can be used for soil improvement, beneficial microorganisms can grow and reproduce, and further, combined metal elements which are difficult to dissolve in water in the soil can be converted into metal ions which are easy to dissolve in water.

When the mineral supplement preparation is used for soil improvement, sufficient cofactors can be provided for the enzyme protein, the crop flavor substance synthetase protein, the crop immune substance and the insect-resistant substance synthetase protein of the cultivated crop for improving the soil, the synthesis of substances required by agricultural products is promoted, the yield of the agricultural products is increased, the synthesis of the flavor substances of the agricultural products is promoted, the taste of the agricultural products is obviously improved, the synthesis of the immune substance and the insect-resistant substance of the agricultural products is promoted, and the disease and insect resistance of the crop is fundamentally improved. In addition, the mineral supplement preparation is used for crop cultivation, and crops obtained by cultivation can provide sufficient metal ions for cofactors of cell substance synthetase proteins of human bodies or animal bodies, activate the activity of the enzyme proteins, promote cell substance synthesis, repair cell defects, recover cell functions, effectively prevent and recover diseases, and guarantee life health.

Drawings

FIG. 1 is a fertilizer planted green leaf dish prepared in example 3;

FIG. 2 shows a pakchoi planted with the fertilizer prepared in example 3;

FIG. 3 shows sweet potatoes planted with the fertilizer prepared in example 3;

FIG. 4 shows a carrot planted with the fertilizer prepared in example 3;

FIG. 5 shows eggplant planted with the fertilizer prepared in example 3;

FIG. 6 shows apples planted with the fertilizer prepared in example 3;

FIG. 7 shows golden pears planted with the fertilizer prepared in example 3;

FIG. 8 shows various fruits and vegetables planted after soil improvement by the fertilizer prepared in example 3, wherein A is green pepper, B is strawberry, C is tomato, D is Eugenia jambolana, E is yellow cherry tomato, and F is paphiopedilum hirsutissimum;

FIG. 9 is a high standard rice field constructed with the fertilizer prepared in example 3;

FIG. 10 is a high standard wheat field constructed with the fertilizer prepared in example 3.

Detailed Description

The invention provides a mineral supplement preparation, which comprises the following raw materials in parts by weight: 60-80 parts of land ore and 20-40 parts of coal ash; the land ore comprises a maotan mica group ore.

In the present invention, the mineral supplement formulation preferably includes 70 parts by weight of land ore; the land ore comprises a maotan mica group ore. In the present invention, the ore of the maotang mica group is preferably produced from the city of navy city of south Henan province, Chun county.

In the present invention, the mineral supplement formulation preferably includes 30 parts by weight of coal ash; in the present invention, the coal ash is preferably an undersize component of a 100 mesh screen.

In the present invention, the land ore preferably further comprises vermiculite and/or micanite; the mass ratio of the maotang mica group ore to the vermiculite to the mica group ore is preferably as follows: (60-80): (8-12): (15-25), more preferably 70: 10: 20.

in the present invention, the kind of the element component contained in the mineral supplement preparation is not less than 50.

The invention also provides a preparation method of the mineral supplement preparation in the scheme, which comprises the following steps:

1) crushing the land ore to obtain a crushed material, and performing expansion treatment on the crushed material to obtain an expanded material;

2) mixing the puffed material, water and concentrated sulfuric acid, and carrying out acidolysis for 2-5 h at 110-120 ℃ to obtain an acidolysis product;

3) and mixing the coal ash and the acidolysis product to obtain a mixture, carrying out solid-liquid separation on the mixture, and collecting liquid components to obtain the mineral supplement preparation.

The land ore is firstly crushed to obtain a crushed material, and the crushed material is subjected to expansion treatment to obtain an expanded material. In the present invention, the particle size of the pulverized material is preferably 60 to 200 mesh, and more preferably 100 to 150 mesh; the temperature of the puffing treatment is preferably 100-120 ℃; the pressure of the puffing treatment is preferably 1-2 MP; the time of the puffing treatment is preferably 1-2 h.

After the puffed material is obtained, mixing the puffed material, water and concentrated sulfuric acid, and carrying out acidolysis for 2-5 h at 110-120 ℃ to obtain an acidolysis material. In the invention, the mass ratio of the puffed material to the water to the concentrated sulfuric acid is preferably (25-30): (40-50): (20-25) in the present invention, the acid hydrolysis is preferably carried out in a reaction vessel. In the present invention, the concentrated sulfuric acid preferably has a volume percentage of 98%. In the present invention, the acidolysis is used to extract trace elements.

Before acidolysis, the outer interlayer of the reaction kettle is preferably heated to 70-80 ℃ and then is insulated for 3-4 hours.

After the acidolysis product is obtained, the coal ash and the acidolysis product are mixed to obtain a mixture, the mixture is subjected to solid-liquid separation, and liquid components are collected to obtain the mineral supplement preparation. In the present invention, the solid-liquid separation is preferably performed by vacuum filtration. The coal ash and the acidolysis product are mixed, and minerals in the coal ash are dissolved into the liquid component.

The invention also provides a fertilizer comprising the mineral supplement preparation in the scheme or the mineral supplement preparation obtained by the preparation method, and the fertilizer comprises the following raw materials in percentage by mass: 10-15% of a mineral supplement preparation, 10-15% of a secondary element raw material and a trace element raw material, 15-20% of a major element raw material, 10-25% of humic acid, 5-6% of coal ash and the balance of water;

the medium element raw materials and the trace element raw materials comprise: ferrous sulfate, copper sulfate, manganese sulfate, zinc sulfate, boric acid and magnesium sulfate; the mass ratio of the ferrous sulfate to the copper sulfate to the manganese sulfate to the zinc sulfate to the boric acid to the magnesium sulfate is (25-30): (15-20): (35-40): (45-50): (25-30): (25-30);

the macroelement raw materials comprise a nitrogenous fertilizer, a phosphate fertilizer and a potash fertilizer; the mass ratio of the nitrogenous fertilizer to the phosphate fertilizer to the potash fertilizer is (120-150): (80-100): (60-80).

In the invention, the humic acid is preferably coal humic acid which contains a plurality of mineral substances; the coal material comprises peat, lignite and weathered coal. In the present invention, the humic acid is derived from conventional commercial sources. In the present invention, the content of organic matter in the humic acid is preferably 2% to 5% by mass, and more preferably 3% to 4% by mass.

In the invention, the mass percentage of nitrogen in the nitrogen fertilizer is more than or equal to 46 percent in terms of N; with P₂O₅The mass percentage of phosphorus in the phosphate fertilizer is more than or equal to 55 percent; with K₂And (4) calculated by O, the mass percentage of potassium in the potassium fertilizer is more than or equal to 52%.

In the present invention, the coal ash is derived from conventional commercial sources.

The invention also provides the application of the mineral supplement preparation prepared by the scheme and the mineral supplement preparation prepared by the preparation method in preparing food, fertilizer or feed.

The invention also provides the mineral supplement preparation prepared by the scheme, the mineral supplement preparation prepared by the preparation method or the application of the fertilizer in soil improvement and/or crop quality improvement.

The technical solution of the present invention will be clearly and completely described below with reference to the embodiments of the present invention. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

1) Mixing the maotang mica group ore, vermiculite and mica rock according to the proportion of 7: 1: 2 to obtain a mixture, crushing the mixture to 200 meshes, heating to 120 ℃ in a high-temperature high-pressure furnace, pressurizing to 1MP, and expanding for 1h to obtain an expanded material.

2) Adding the puffed material into a reaction kettle, stirring and mixing with water, and then slowly adding concentrated sulfuric acid (the volume concentration is 98%), according to the puffed material: water: the mass ratio of concentrated sulfuric acid is 3: 5: 2.5, and acid hydrolysis under continuous stirring. Strictly controlling the temperature of the reaction kettle in the acid adding process, and keeping the temperature of the reaction kettle at 110-120 ℃ for acidolysis for 2 hours.

3) And (3) after the acidolysis is finished, adding coal ash (the mass ratio of the total mass of the maotang mica group ore, vermiculite and mica to the coal ash is 7: 3) pumping the mixture into a filtering device for vacuum filtration under the condition of continuously stirring in the reaction kettle to obtain the ultra-trace element stock solution.

Table 1 shows the contents of the elements contained in the preparation in mg/L.

Table 1 element content of the mineral supplement formulation prepared in example 1

Example 2

The maotang mica group ore, vermiculite and mica rock in example 1 were all replaced with maotang mica group ore.

Example 3

1) 200kg of the mineral supplement preparation prepared in example 1 and 800kg of water were uniformly stirred.

2) And then adding 30kg of ferrous sulfate, 20kg of copper sulfate, 40kg of manganese sulfate, 50kg of zinc sulfate, 30kg of boric acid and 30kg of magnesium sulfate into the mixture obtained in the step 1), wherein the total amount is 200 kg.

3) Then 300kg of humic acid (the organic matter content is 60kg) is added.

4) Then adding 150kg of nitrogen which is more than or equal to 46 percent, 100kg of phosphorus which is more than or equal to 55 percent and 80kg of potassium which is more than or equal to 52 percent, and stirring to dissolve the nitrogen, the phosphorus and the potassium.

5) Then adding 100kg of coal ash, and stirring to dissolve the coal ash to obtain the fertilizer.

The fertilizer prepared in example 3 was applied to the planting of green-leaf vegetables. The growth vigor of the green leaf vegetables can be seen without any other chemical fertilizers and pesticides (figure 1), and the fertilizer prepared in example 3 can completely enable the leaf vegetables to obtain high yield without pests and diseases. And the leaf vegetables have good taste.

In the pakchoi planted with the fertilizer prepared in example 3, the weight of each individual pakchoi is 11.2 jin (fig. 2), and the yield is high. The outermost layer of pakchoi is also delicious. In summer seasons with serious diseases and insect pests, pesticides and chemical fertilizers are not used, and the pakchoi can grow larger, so that the fertilizer prepared in the embodiment 3 improves the disease and insect pest resistance of the pakchoi and the fertility of soil.

The sweet potatoes planted with the fertilizer prepared in example 3 (fig. 3) contain high sugar content and abundant flavor substances, and have excellent mouthfeel.

The carrot planted by the fertilizer prepared in example 3 has insect eyes but no harm to insects (figure 4), and the carrot has strong disease and insect pest resistance.

The eggplant trees grown by the fertilizer prepared in example 3 (figure 5) have a picking period of zero eleven months per year, no pesticide or chemical fertilizer is used in the period, the eggplants have strong vitality and disease and pest resistance, and the fertility of soil is improved, so that continuous fruit bearing in zero eleven months per year is maintained.

Apples (figure 6) and golden pears (figure 7) planted with the fertilizer prepared in example 3 had excellent mouthfeel due to high sugar, balanced sweetness and sourness and rich flavor substances.

The various fruits and vegetables (fig. 8) planted after the soil is improved by the fertilizer prepared in example 3 have high yield, strong disease and pest resistance and excellent taste.

The fertilizer prepared in example 3 was used to construct a high-standard rice field, and the rice produced (fig. 9) was high in yield, rich in flavor and aromatic in flavor.

The fertilizer prepared in example 3 was used to construct a high-standard wheat field, and the produced wheat (fig. 10) not only has high yield, but also has rich flavor substances, and the flour steamed bread made of the wheat has a strong flavor.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (9)

1. A mineral supplement preparation comprises the following preparation raw materials in parts by weight: 60-80 parts of land ore and 20-40 parts of coal ash; the land ore comprises a maotan mica group ore.

2. The mineral supplement formulation of claim 1, wherein the land ore further comprises vermiculite and/or micanite; the mass ratio of the maotang mica group ore to the vermiculite to the mica group ore is as follows: (60-80): (8-12): (15-25).

3. A method for preparing the mineral supplement formulation of claim 1 or 2, comprising the steps of:

1) crushing the land ore to obtain a crushed material, and performing expansion treatment on the crushed material to obtain an expanded material;

2) mixing the puffed material, water and concentrated sulfuric acid, and carrying out acidolysis for 2-5 h at 110-120 ℃ to obtain an acidolysis product;

3) and mixing the coal ash and the acidolysis product to obtain a mixture, carrying out solid-liquid separation on the mixture, and collecting liquid components to obtain the mineral supplement preparation.

4. The preparation method according to claim 3, wherein the temperature of the puffing treatment in the step 1) is 100-120 ℃; the pressure of the puffing treatment is 1-2 MP; the time of the puffing treatment is 1-2 h.

5. The preparation method according to claim 3, wherein the mass ratio of the puffed material, water and concentrated sulfuric acid in the step 2) is (25-30): (40-50): (20-25).

6. Use of the mineral supplement preparation according to claim 1 or 2 or the mineral supplement preparation obtained by the production method according to any one of claims 3 to 5 for producing a food, a fertilizer or a feed.

7. A fertilizer comprising the mineral supplement preparation of claim 1 or 2 or the mineral supplement preparation obtained by the preparation method of any one of claims 3 to 5, wherein the fertilizer comprises the following raw materials in percentage by mass: 10-15% of a mineral supplement preparation, 10-15% of a secondary element raw material and a trace element raw material, 15-20% of a major element raw material, 10-25% of humic acid, 5-6% of coal ash and the balance of water;

the medium element raw materials and the trace element raw materials comprise: ferrous sulfate, copper sulfate, manganese sulfate, zinc sulfate, boric acid and magnesium sulfate; the mass ratio of the ferrous sulfate to the copper sulfate to the manganese sulfate to the zinc sulfate to the boric acid to the magnesium sulfate is (25-30): (15-20): (35-40): (45-50): (25-30): (25-30);

the macroelement raw materials comprise a nitrogenous fertilizer, a phosphate fertilizer and a potash fertilizer; the mass ratio of the nitrogenous fertilizer to the phosphate fertilizer to the potash fertilizer is (120-150): (80-100): (60-80).

8. The fertilizer as claimed in claim 7, wherein the mass percentage of nitrogen in the nitrogen fertilizer is more than or equal to 46%; the mass percentage of phosphorus in the phosphate fertilizer is more than or equal to 55 percent; the mass percentage of potassium in the potash fertilizer is more than or equal to 52 percent.

9. Use of the mineral supplement formulation according to claim 1 or 2, the mineral supplement formulation obtained by the preparation method according to any one of claims 3 to 5, or the fertilizer according to claim 7 or 8 for soil improvement and/or crop quality improvement.

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