KR101852755B1 - Fertilizer with seaweed and manufacturing method of the same - Google Patents

Abstract

The present invention relates to a liquid fertilizer capable of simultaneously supplying an inorganic material and an organic material necessary for the growth of plants, and more particularly, to a liquid fertilizer containing seaweed and seaweed, which are algae, A mineral water concentration 30 to 50 wt%, a sericite water dispersion 5 to 10 wt%, and a legal sulfur water dispersion 2 to 5 wt%.
The fertilizer using the seaweed according to the present invention is a balanced composition of organic matter and inorganic matter. It is easy to absorb in plants and can accelerate early growth by interaction. It promotes rooting and growth of plant roots, Thereby improving the water holding capacity and bending strength of the soil so that the plant can grow in harsh environments.

Description

TECHNICAL FIELD The present invention relates to a fertilizer using seaweed and a method for producing the same.

The present invention relates to a liquid fertilizer capable of simultaneously supplying an inorganic material and an organic material necessary for plant growth, and more particularly, to a liquid fertilizer containing sea tangle and sea water as main components.

Recently, due to the development of chemical fertilizers, farmers generally use chemical fertilizers in crop fields such as rice fields and greenhouses.

Although chemical fertilizers have the advantage of increasing crop production, they cause problems such as acidification of the soil and weakness of the soil during long-term use.

Organic fertilizer fertilization is recommended to improve the problems of these chemical fertilizers, but organic fertilizer uses organic fertilizer, which is mainly sold as a product in general farmhouses, because the production process is cumbersome and labor is required for fertilization.

The organic compost manufacturing company manufactures and sells non-fermented compost mainly using sawdust. Due to the problem that the crops can not grow due to the gas such as ammonia generated after the compost of the non-fermented compost, And the like.

On the other hand, plants absorb the various elements based on the smallest amount of elements among all the elements that can be absorbed by Lvith's least amount of laws.

Therefore, when a mineral component as a trace element is insufficient, even if a large amount of organic fertilizer including nitrogen, phosphorus, and potassium is supplied, only the acidification of the soil is promoted, and efficient absorption of various components essential for growth can not occur, Plant growth requires continuous infusion of mineral components in addition to organic components.

Thus, with the recognition that the crops growing in the soil today are not only required to contain only nitrogen, phosphorus, or potassium components supplied through chemical fertilizers or organic fertilizers, but also components of trace elements such as magnesium and iron , And various types of liquid fertilizers in which organic and inorganic materials are mixed.

Korean Patent Registration No. 1225890 (Functional Enhanced Liquid Fertilizer Using Seaweeds and Method for Producing the Same)

The object of the present invention is to provide a complex liquid fertilizer which is easy to be absorbed by plants and which can be stored for a long period of time while containing diverse and beneficial organics and minerals by using seaweeds and seawater .

In order to solve the above-described problems, the present invention provides a method for producing a sea tangle powder comprising 40 to 60% by weight of a sea tangle aqueous dispersion containing 15-20% by weight of tidal powder, 30-50% by weight of mineral concentrated water and 15-20% A concentrated sulfuric acid salt aqueous solution, 5 to 10% by weight of a sericidal water dispersion, and 2 to 5% by weight of a legal sulfuric acid aqueous solution containing sulfuric sulfur of 15 to 20% by weight, A fertilizer using a seaweed consisting of a mixture of concentrated water and concentrated water of the brine is provided.

Also, the present invention provides a method for producing mineral concentrated water, comprising the steps of: obtaining a concentrated water of concentrated water of sea water or salted salted water or a mixture of concentrated water of salted water and concentrated saline of salted salted water; And 40 to 60% by weight of a sea tangle aqueous dispersion containing 30 to 50% by weight of the mineral concentrated water, 15 to 20% by weight of tallow powder, 5 to 10% by weight of a sericidal water dispersion containing 15 to 20% And 2 to 5% by weight of an aqueous sulfuric acid aqueous solution containing legal sulfur and 15 to 20% by weight of sulfuric acid.

The fertilizer using the seaweed according to the present invention is a balanced composition of an organic material and an inorganic material, and is easily absorbed by plants and can accelerate initial growth by interaction.

In addition, it promotes rooting and growth of plant roots and forms a herder structure in the ground to improve the soil's water holding capacity and bravely strength, so that plants can grow in harsh environments.

The present invention relates to an aqueous dispersion of sericin water, which comprises 40 to 60% by weight of a tallow aqueous dispersion containing 15 to 20% by weight of tidal powder, 30 to 50% by weight of mineral concentrated water, and 15 to 20% The present invention also relates to a liquid fertilizer containing an organic matter and an inorganic matter together, wherein the organic fertilizer comprises 2 to 5% by weight of a legal sulfuric acid aqueous solution containing 15 to 20% by weight of sulfur.

The kelp is a large part of the seaweed family, with a length of 1.5-3.5 m and a width of 25-40 cm. The leaves are 2-4 years old. They are spore generations. They are apparently stems, leaves, roots It is distinctive, the leaf is long in band shape, and the lower part is slightly wider than the middle.

In addition to various pigments such as carotene, xanthophyll and chlorophyll, kelp contains carbohydrates such as mannitolaminarin and alginic acid, which are components of the cell wall, which are made by carbon assimilation. In addition, iodine, vitamin B2 and glutamic acid Of amino acids.

The composition of the kelp varies depending on the species, but generally it is about 16% moisture, 7% protein, 1.5% fat, 49% carbohydrates and 26.5% inorganic salts, 20% of carbohydrates are cellulose and the rest are polysaccharides such as alginic acid and laminarin Especially, the content of alginic acid is the highest.

Particularly, since there are many inorganic salts such as iodine, potassium and calcium, the kelp is a good material for supplying inorganic salts.

In the present invention, kelp is abundant in amino acids, vitamins, carbohydrates, etc., and promotes growth of plants with natural physiologically active substances. Especially, kelp can be used as a source of organic matter.

Plant hormones such as cytokinin, auxin, and gibberellin, which are contained in kelp, can help plant growth and improve crop quality, crop quality, and yield.

On the other hand, kelp generally contains nitrogen, potassium and effective trace elements, and because it contains important alginic acid as an ingredient that affects the improvement of soil physical properties, it can satisfy both of two aspects as fertilizer and soil improvement agent have.

Alginic acid is a type of polysaccharide contained in seaweeds and is water-soluble fibrous. It exists in an alkaline environment and easily binds to various minerals such as potassium, calcium and the like.

In the present invention, alginic acid and polysaccharides interfere with fine clay particles in the soil to form lumps, thereby providing smooth flow of water and air in the soil, and ultimately increasing the yield of crops and soil Can serve as a good microorganism habitat.

In the present invention, an organic-inorganic composite in which an alginic acid bonds alginic acid and a tangle powder together with an after-mentioned sericite are integrated to form an organic-inorganic composite, and a component of the integrated organic / inorganic composite forms a swarm structure in the soil, So that the crops can grow even in dry and bad environments such as drought.

In addition, since alginic acid promotes the growth of plants and develops the fine roots of plants, it combines soil, microbes, and roots to form a herder structure. Therefore, even in the humid or dry external environment, it maintains a constant water content in the soil, .

Generally, when seaweeds such as kelp are used as fertilizer without any additional processing or treatment, the period of soil formation is over 100 days, so there is no effect as a fertilizer at the initial stage of plant growth. When the sea tangle extract is used as a fertilizer in a liquid state, There is a problem in that it is necessary to prepare an extract of kelp which is too low in complexity and low in economic efficiency.

The present invention uses a sea tangle aqueous dispersion prepared by mixing kelp with water and dispersing it in a mill to disperse fine powder having an average particle size of 1 to 5 탆. Therefore, the content of the active ingredient is increased And can exhibit sufficient effect as fertilizer at the beginning of plant growth.

If the tallow water dispersion containing 15 to 20 wt% of tallow powder in the fertilizer of the present invention is less than 40 wt%, the initial growth of the plant is not accelerated, the development of the fine roots of the plant is difficult, and the moisture retention It is difficult to grow plants. When the amount exceeds 60% by weight, the environment in the soil becomes too humid and the growth environment deteriorates and the plants become large and the deletion may be delayed, which is not preferable.

The mineral-enriched water may be obtained by concentrating salty water using seawater or sun-salt, or by mixing the concentrated water of sea water concentrated water and salted salted water with a salt concentration of 30-40 Brix, Lt; / RTI >

Seawater contains a variety of minerals, including nutrients such as nitrogen, phosphoric acid, and silicon, necessary for the growth of plants and plants.

The seawater contains dozens of trace elements such as calcium, potassium, magnesium, iron, iodine, and phosphorus, as well as toxins and enzymes. These enzymes decompose the organisms such as plankton and carcasses in seawater and these organisms grow seaweed It acts as a nutrient.

However, as NaCl exists in seawater excessively, seawater concentrated water with reduced NaCl concentration of 30 to 40 Brix obtained by concentrating seawater while removing sodium by a conventional method can be used as mineral concentrated water.

The concentration of salt in the seawater concentrate thus obtained greatly decreases the salt content causing the various physiological disorders, and the content of magnesium is the largest as 4 to 6% as a useful ingredient, and the content of potassium is 1 to 2%, and the content of calcium 0.2 to 0.7%. In addition, various minerals are mixed with high contents of liquid minerals.

When the liquid mineral is used as a fertilizer, it functions as a source of various minerals that are essential for the growth of plants, and can act as an absorption catalyst for supplying various nutrients through the roots or side surfaces of plants, thereby helping plant growth.

In addition, the effect of soil improvement can be shown by supplementing insufficient minerals in the soil.

On the other hand, a concentrated aqueous solution of an aqueous solution of sodium chloride having a reduced NaCl concentration of 30 to 40 Brix obtained by dissolving the salt in water and then concentrating while removing the salt can be used as mineral concentrated water.

The mineral water thus obtained is greatly increased to 200,000 ~ 300,000 as compared with the hardness (ratio of magnesium and calcium content) of general mineral water in the agricultural water is 50 ~ 15.

In the present invention, if the content of the mineral-enriched water is less than 30% by weight, the effect of accelerating the growth of plants can be reduced due to insufficient supply of minerals required for plant growth. If the content is more than 50% by weight, The growth of the plant is not rapid, the hair is not developed, and the environment in the soil is not improved.

The chemical composition of the sericite is generally 45.83% of SiO _2, 33.35% of Al ₂ O ₃ , 1.75% of Fe ₂ O ₃ , 0.06% of CaO, 8.98% of K ₂ O and 0.11% of Na ₂ O, It is a mineral.

In the present invention, since it acts as a source of an inorganic substance and has an excellent adsorption ability between a cation and an organic matter, it forms an organic-inorganic complex by binding with kelp, and the organic / inorganic composite can form a swarm structure in the soil. In the present invention, since the inorganic clay component of the sericite and the alginic acid, which is a viscous organic component of the sea tangle, are bonded to each other, the hercelial structure is easily formed .

In the present invention, when the amount of the sericite aqueous solution containing 15 to 20 wt% of the sericite powder is less than 5 wt%, the balance of the inorganic material is broken due to the lowering of the SiO ₂ component and the initial growth rate is lowered, %, The content of clay minerals increases, so the soil becomes hard and precipitation occurs in the liquid fertilizer, which makes it impossible to block the nozzles of the agricultural machinery when used.

Sulfur is an essential element of organism. It is necessary for protein synthesis and affects amino acid production and photosynthesis. When it is deficient, sugar content is decreased by yellowing of plant and deterioration of photosynthesis. Such sulfur is toxic and strongly acidic in inorganic sulfur or synthetic organic sulfur, so it is preferable to use sulfur in the present invention.

In the present invention, it is more preferable to use an aqueous dispersion having an average particle size of 1 to 5 mu m of sulfur produced by mixing a volatile sulfur with an alginic acid extract obtained from kelp powder or sea tangle as a dispersant, and mixing the mixture with water and dispersing the mixture with a ball mill or a nano- .

The aqueous dispersion of legal sulfur obtained in this way facilitates mixing with water and other components.

The fertilizer according to the present invention is composed of the composition as described above and promotes the early growth of the plant, promotes the rooting of the root and the formation of the feather grass, thereby enlarging the plant stem and enlarging the plant. have.

The method for producing fertilizer according to the present invention comprises the steps of: concentrating seawater or salted salt of salt of sea salt while removing salt from seawater or salty salt water to obtain concentrated salt water of sea water or salted salted water having reduced NaCl concentration of 30 to 40 Bricks by mineral concentrated water; And 40 to 60% by weight of a sea tangle aqueous dispersion containing 30 to 50% by weight of the obtained mineral concentrated water, 15 to 20% by weight of kelp powder, 5 to 10% of a sericite water dispersion containing 15 to 20% And 2 to 5% by weight of a legal sulfuric water dispersion containing 15 to 20% by weight of legal sulfur.

Another method for producing fertilizer according to the present invention comprises the step of concentrating seawater or salty salt water while removing salt from seawater or salty salt water to obtain seawater or salted saline solution concentrated water having a reduced NaCl concentration of 30 to 40 Bricks by mineral concentrated water ; A montmorillonite aqueous dispersion containing 15 to 20% by weight of a sericite powder and a legal sulfuric water dispersion containing 15 to 20% by weight of sulfur are mixed and heated and stirred at 60 to 80 DEG C for 30 minutes to 2 hours to prepare an aqueous alkaline solution ; Adding a sea tangle aqueous dispersion to the alkalinizing aqueous solution at 60 to 80 캜 and cooling the mixture to room temperature to obtain a mixed solution; And mixing and mixing the mixed solution with the mineral concentrated water. Finally, the mixture is mixed with 40 to 60% by weight of a sea tangle aqueous dispersion, 30 to 50% by weight of mineral concentrated water, 5 to 10% by weight of a sericidal water dispersion, 2 to 5% by weight.

At this time, the mineral concentrated water may be used as mineral concentrated water by mixing the seawater concentrated water and the salted saline concentrated water.

The mineral-concentrated water is mixed with water such that the content of the collected seawater or sun salt is 20 to 25% by weight, filtered through a filter of 100 to 200 mesh to remove foreign substances and filtered to obtain filtered water, A third step of putting the filtered water in the centrifugal separator into a salt and a mineral stock solution, a third step of separating the mineral stock solution into activated carbon filtration Followed by filtration and concentration in the apparatus to obtain a concentrated mineral water of 30 to 40 Bricks with reduced salt concentration.

It is preferable to use the aqueous dispersion of the sericite powder having an average size of 1 to 5 占 퐉 obtained by mixing the sericite powder with water and finely crushing the mixture with water or a nano-mill to enlarge the surface area of the sericite .

Hereinafter, the present invention will be described in detail with reference to Examples. It is to be understood, however, that the invention is not to be construed as being limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Will be apparent to those skilled in the art to which the present invention pertains.

[Example 1]

The resulting mixed water was filtered through a 100-mesh filter to obtain filtered water. The obtained filtered water was heated in an evaporator at 50 DEG C to recrystallize the salt The precipitated mineral was separated into a salt and a mineral stock solution. The separated mineral stock solution was filtered through an activated carbon filtration apparatus and concentrated to produce 40 ml of mineral concentrated water.

1.4 Kg of the sericite water dispersion containing 15% by weight of the sericite powder having an average size of 3 탆, 8 Kg of the mineral concentrated water, 0.6 Kg of the legal sulfuric acid water dispersion containing 15% by weight of the legal sulfur having an average size of 1 탆, 10 Kg of a sea tangle water dispersion containing 15% by weight of a sea tangle powder having a size of 3 탆 was added and mixed uniformly while stirring and then allowed to stand for one day to prepare a manure using seaweeds.

[Example 2]

A liquid fertilizer using sea water was prepared in the same manner as in Example 1, except that the sea salt was used in place of the sea water in Example 1.

[Example 3]

The resulting mixed water was filtered through a 100-mesh filter to obtain filtered water. The obtained filtered water was heated in an evaporator at 50 DEG C to recrystallize the salt The precipitated mineral was separated into a salt and a mineral stock solution. The separated mineral stock solution was filtered through an activated carbon filtration apparatus and concentrated to produce 40 ml of mineral concentrated water.

1.4 Kg of the sericite water dispersion containing 15% by weight of the sericite powder having an average size of 3 탆 and 0.6 Kg of the legal sulfuric acid water dispersion containing 15% by weight of the legal sulfur having an average size of 1 탆 were mixed and heated, And the mixture was stirred for 2 hours to obtain an aqueous alkaline solution having a pH of 10.

Then, 10 kg of tangle water dispersion containing 15 wt% of tallow powder having an average size of 3 μm was added to the alkalinizing aqueous solution, mixed with stirring, and cooled to room temperature to obtain a mixed solution.

8 Kg of concentrated mineral water was added to the mixed solution, and the mixture was homogeneously mixed with stirring and then allowed to stand for one day to prepare a manure using seaweed.

[Comparative Example 1]

A fertilizer using seaweeds was prepared in the same manner as in Example 1, except that the dispersion of sericin water containing 15 wt% of the sericite powder was used instead of the mineral-concentrated water.

[Comparative Example 2]

A fertilizer using seaweeds was prepared in the same manner as in Example 1, except that purified water was used instead of the sericite aqueous dispersion.

[Comparative Example 3]

A fertilizer using seaweeds was prepared in the same manner as in Example 1, except that 12 kg of the mineral-concentrated water and 6 kg of the tangle water dispersion were used in Example 1.

The liquid fertilizer obtained from the above-mentioned Examples and Comparative Examples was diluted 200 times and the tomatoes were fertilized three times at intervals of 2 weeks and the height, root length, leaf weight and weight of the tomato plants grown at 5 and 7 weeks The average values are shown in Tables 1 and 2 below.

In addition, the average value of the height, root length, leaf number and body weight of the tomato plants grown after 7 weeks from fertilization immediately after the planting were measured and shown in Table 3 below.

(Measured after 5 weeks of formal application, 3 times of application) Height (cm) Root length (cm) Leaf (dog) Weight (g) Example 1 45.2 15.8 15 5.9 Example 2 42.5 15.4 12 5.1 Example 3 47.7 16.1 17 6.3 Comparative Example 1 39.8 11.6 9 3.9 Comparative Example 2 41.4 12.3 10 3.6 Comparative Example 3 38.6 13.8 10 3.2 Control * 34.7 9.7 9 2.8 * Fertilizer does not apply

(Measured after 7 weeks of formal application, 3 times) Height (cm) Root length (cm) Leaf (dog) Weight (g) Example 1 56.3 18.6 36 11.6 Example 2 53.4 18.2 34 10.5 Example 3 58.8 18.9 42 11.8 Comparative Example 1 50.6 13.1 30 8.7 Comparative Example 2 52.3 14.8 31 8.3 Comparative Example 3 49.5 14.3 30 7.8 Control * 44.9 12.9 19 4.5 * Fertilizer does not apply

From the above Tables 1 and 2, it was confirmed that the fertilizer according to the embodiment of the present invention grows up to 7 weeks after the tomato planting.

(Measured 7weeks after the formal meal, once administered) Height (cm) Root length (cm) Leaf (dog) Weight (g) Example 1 52.8 16.3 29 9.1 Example 2 50.1 16.0 26 8.2 Example 3 55.6 16.5 35 9.8 Comparative Example 1 47.7 11.6 24 6.7 Comparative Example 2 49.2 12.6 23 6.3 Comparative Example 3 46.6 12.1 22 6.1 Control * 44.1 11.8 18 3.9. * Fertilizer does not apply

From Table 3, it can be seen that the fertilizer according to the embodiment of the present invention is fertilized even after 7 weeks of fertilization with the fertilizer applied only once just after the tomato formation, because the fertilizer according to the embodiment forms a swarm structure in the soil and promotes rooting And it is considered that maintenance and absorption of nutritional components are facilitated.

On the other hand, it was confirmed that soil hardening (curing) phenomenon did not occur when the soil was applied after three times fertilization and the soil was measured 7 weeks after the formulation.

Claims (7)

delete delete delete Obtaining a mineral-enriched water with a mixture of concentrated water of sea water or salted salted water, or concentrated water of salty water and concentrated saline of salted salted water; And
40 to 60% by weight of a sea tangle aqueous dispersion containing 30 to 50% by weight of the mineral condensed water, 15 to 20% by weight of kelp powder, 5 to 10% by weight of a sericite water dispersion containing 15 to 20% by weight of a sericite powder, And 2 to 5% by weight of a legal sulfuric water dispersion containing 15 to 20% by weight of legal sulfur,
The preparation of the mineral-enriched water,
Mixing with water so that the content of seawater or sun salt is 20 to 25% by weight, filtering with a filter of 100 to 200 mesh to remove foreign matter, and filtering to obtain filtered water;
A second step of placing the filtered water in an evaporator and heating it at a low temperature of 40 to 60 ° C to precipitate the salt;
A third step of separating the filtered water from the second step into a salt and a mineral stock solution in a centrifugal separator; And
And a fourth step of filtering the mineral stock solution in an activated carbon filtration apparatus and concentrating the concentrated mineral water to obtain mineral concentrated water having a concentration of 30-40 Bricks reduced in salt concentration,
Wherein the mixing comprises:
Mixing the montmorillonite aqueous dispersion and the legal sulfuric acid water dispersion, heating and stirring at 60 to 80 ° C for 30 minutes to 2 hours to obtain an alkaline aqueous solution;
Adding the kelp aqueous dispersion to the alkalinizing aqueous solution at 60 to 80 ° C and cooling to room temperature to obtain a mixed solution; And
And adding the mixed liquid to the mineral concentrated water to mix the mineral liquid. delete delete 5. The method of claim 4,
Wherein the sea tangle water dispersion is prepared such that the sea tangle is mixed with water and dispersed in a mill to disperse the sea tangle into fine powder having an average size of 1 to 5 탆.