KR101774548B1 - Manufacturing method of acidic liquid composition for controlling plant disease or fertilizing and composition for acidic liquid fertilizer - Google Patents

Abstract

The present invention relates to a method for producing an acidic liquid composition for controlling disease or fertilizer using an anaerobic digestion liquid for livestock manure and an acidic liquid fertilizer composition. More specifically, the present invention relates to an acidic liquid fertilizer composition for anaerobic digestion of livestock manure, The acidic liquid composition and the acidic liquid fertilizer composition for pest control or fertilizer prepared by adding the mixture are not only economical and environmentally friendly, but also exhibit excellent nutrient supply and pest control function.

Description

Technical Field [0001] The present invention relates to a method for preparing acidic liquid compositions for controlling diseases or fertilizers using anaerobic digestive livestock of a livestock manure and an acidic liquid fertilizer composition,

The present invention relates to a method for producing a functional liquid using anaerobic digestive juices of livestock manure, and more particularly, to a method for producing a functional liquid using an anaerobic digestive juice, And a method for producing an acidic liquid composition for fertilizer and an acidic liquid fertilizer composition.

The method of fertilizing the crops using livestock manure has been known since ancient times as an essential element for maintaining the fertility of the soil before the introduction of the chemical fertilizer. The livestock manure contains various nutrients to promote the growth of crops, It has been reported to be effective in promoting the activity of biomass in soil. However, unlike chemical fertilizers, livestock manure is a mixture of inorganic and organic nitrogen, so there is a variation in nutrients used in plants and there is a problem that it is difficult to meet the exact amount in accordance with the nutrient requirement of plants. Chemical fertilizer which can be used more easily is mainly used. However, due to continuous use of chemical fertilizers, the soil is deteriorated, the tolerance to plant diseases is lowered, the use of fertilizer is gradually decreased, and environmental pollution is caused. Therefore, a number of inventions for solving such problems have been proposed. One such example is the liquid fertilizer application for lignocellulosic fertilizer, which is an improvement of inorganic chemical fertilizer. However, there is a problem that it is difficult to expect the soil improvement effect due to the high production cost and nutrient supply.

On the other hand, chemical synthetic pesticides are widely used for the control of plant diseases. However, these pesticides are left behind, causing not only adverse effects on the human body when consuming crops, but also causing environmental pollution. Usually, pesticides are used only for sterilization and insecticidal purposes It is common to use fertilizer separately for crop growth. Korean Patent No. 852,767 discloses a plant insecticidal and fertilizer composition capable of simultaneous fertilization and insecticidal action, but it includes sulfur, sericite, and fermented black garlic shells, and utilizes waste resources such as livestock manure It is not.

In recent years, the demand for safe food has been increasing strongly due to the improvement of the living standard, and the environmental pollution problem and the harmfulness of the pesticide are constantly rising. Therefore, the chemical synthetic pesticide, the chemical fertilizer and the plant growth regulator are not used at all, , Natural materials, microorganisms, and so on. Korean Patent No. 1,155,070 discloses a method for producing a liquid fertilizer using a livestock feed, but it requires a dehydration process and a stepwise fermentation process, requires a microbial growth time, and is complicated and requires more than a week Not only does it reduce efficiency, but it does not disclose any evidence to prove its effectiveness as a fertilizer.

Conventionally, livestock manure and food wastes have been dumped in the sea, but nowadays, due to international law, they can not do marine dumping, and the problem of efficient treatment and resource reclamation of livestock manure continues to arise. One such alternative is the biogas plant, which produces biogas in livestock manure processing. However, biogas plants also have challenges. It is a problem of disposal of digested waste liquid after anaerobic digestion.

Since anaerobic digestion waste liquid contains a large amount of nitrogen, phosphorus and potassium components, it can be used as an environmentally friendly fertilizer that replaces chemical fertilizer similar to that of a good fertilizer used for cultivation of crops. However, in order to improve the utilization of anaerobic digestion waste liquid, And the development of various liquids is required. Korean Patent No. 997,769 discloses a method of producing compost using an anaerobic digestion liquid. However, it requires a quick lime, coco peat, microorganism, and the like. The drying process, the temperature control process, And a step-wise fermentation process, which is economically disadvantageous.

The optimum acidity of most of the crops cultivated in Korea is mainly medium to weak acid crops. Most organisms, such as plants and microbes, grow well between the acidic and weak alkalies, where the pH of the soil is near neutral. As a result, most of the manure used neutral and alkaline fertilizers to raise the acidic soil to neutral. However, not all crops grow in neutral soils, and some acidic plants such as blueberries grow on acidic soils. Recently, in the case of house soil, since the pH is 7.0 or higher as a long-term series, there are many cases where the pH should be lowered. Therefore, development of liquid fertilizer showing acidic fertilizer and acidity is required. Of course, in the case of foreign countries, we are producing acid liquid fertilizer and we are importing as needed, but there is a considerable burden due to the high price.

Therefore, the inventors of the present invention intend to utilize the waste resources in the organic farming process as a way to utilize the waste resources in the organic farming process. The inventors of the present invention have repeatedly studied the development of agricultural materials that simultaneously exhibit the effect of controlling the acid fertilizer using the anaerobic digestive waste, , It has been found that the effect of the acid fertilizer and the effect of controlling the disease are simultaneously exerted by using the vinegar solution, the nitric acid and the phosphorous acid in combination with the anaerobic digestion solution, thereby completing the present invention.

Korean Patent No. 852,767 Korean Patent No. 1,155,070 Korean Patent No. 997,769

The object of the present invention is to provide a method for producing an acidic liquid composition for pest control or fertilizer, which has an effect of supplying balanced nutrients of organic matter and inorganic matter to various crops such as vegetables and fruits using livestock manure anaerobic digestion waste liquid, And an acidic liquid fertilizer composition.

In order to achieve the above object, the present invention provides an anaerobic digestion waste liquid produced by using livestock manure to produce biogas, and an acidic mixture of acidic nitric acid, phosphorous acid and wood vinegar, The present invention also provides an acidic liquid fertilizer composition and a method for producing an acidic liquid composition for preventing or treating a disease,

The method and the acidic liquid fertilizer composition for controlling disease or fertilizer according to the present invention can utilize the remaining anaerobic digestion waste liquid after producing biogas using livestock manure, and it is economical and environmentally friendly, It shows the effect of increasing the yield in cultivation of crops, as well as showing the effect of controlling the disease, the appearance of resistant bacteria and weakness, and there is almost no crease, fish toxicity and environmental pollution.

(A) mixing two or more solutions selected from the group consisting of vinegar solution, nitric acid solution, and phosphorous acid solution to prepare an acidic mixture; and (b) mixing the animal manure anaerobic digestion waste liquid and the And mixing the acidic mixture with the acidic liquid composition.

The vinegar generally has a high penetration power when mixed with fertilizer, and has a high sterilizing power because it has a pH of about 3, so it has a high sterilizing power. Unlike inorganic acid, its major components are organic acid, It is also known to help improve quality.

Nitric acid is a strong acidic substance with a pH near 0, and it has the effect of controlling the germs caused by acid when mixed with liquid, and promoting crop growth by supplying nitrogen which is insufficient in liquid fertilizer.

Phosphate (H ₃ PO ₃ ) inhibits phosphorylation of oomycetes and stimulates plant defense systems to improve disease resistance. It is known to move freely to the woody part and the scarlet part of the crop and to control the bottom and top part of the disease.

In one embodiment of the present invention, in the step (b), the anaerobic digestion waste liquid for livestock manure may be an anaerobic digestion waste liquid after producing livestock manure using an anaerobic fermentation tank.

In one embodiment of the present invention, in the step (a), the vinegar solution may be at least 80 w / v%, the nitric acid solution may be at least 5 w / v%, and the phosphorous acid solution may be at least 5 w / v% w / v%, the nitric acid solution may be 10 w / v% or more, and the phosphorous acid solution may be 10 w / v% or more. When the acidic solution below the concentration is mixed, the effect of pH correction is low and the sterilizing effect is low due to the low concentration, and the cost of production is high and the economical efficiency is low. On the other hand, when mixed at the above ratios, the optimum concentration of the acidic material spraying can maximize the sterilizing effect and prevent the crop from being weakened.

In one embodiment of the present invention, in the step (a), when the acidic mixture is a mixture of two solutions, it may be mixed at a ratio of 1: 0.5 to 2. If not mixed at the above ratio, the bactericidal effect against various pathogens may not be exhibited, and the disproportion between the components may lower the effect of accelerating the growth of the crops or may cause the weakness at the time of application. On the other hand, when mixed at the above ratios, the inhibition of various germs such as fungi, plague and the like is maximized due to the balance between the components, and it is possible to exhibit the advantage of supplying balanced nutrients to the growth of the crops with the balance of fertilizer components without showing any weakness during spraying.

In one embodiment of the present invention, in the step (a), when the acidic mixture is a mixture of three solutions, it may be mixed at a ratio of 1: 0.5 to 2: 0.5 to 2. If they are not mixed at the above ratios, the disinfecting germs may be limited. On the other hand, when mixed at the above ratios, it is possible to control a variety of fungi of various fungal strains such as plague and powdery mildew, and to provide nitrogen and phosphorus to the liquid by nitrogen supply by phosphoric acid by nitric acid and phosphorous acid, It is possible to show the advantage of being able to see the effect.

The present invention also relates to a livestock manure anaerobic digestion waste liquid; And an acidic liquid fertilizer composition containing two or more acidic solutions selected from the group consisting of wood vinegar, nitric acid solution and phosphorous acid solution.

In one embodiment of the present invention, the livestock manure anaerobic digestion waste liquid may be an anaerobic digestion waste liquid after producing livestock manure using an anaerobic fermentation tank.

In one embodiment of the present invention, the vinegar solution may be at least 80 w / v%, the nitric acid solution may be at least 5 w / v%, and the phosphorous acid solution may be at least 5 w / v% The nitric acid solution may be at least 10 w / v%, and the phosphorous acid solution may be at least 10 w / v%. When the concentration of the acidic solution is less than the above-mentioned concentration, the concentration of the acidic solution may be lowered and the economic efficiency may be lowered. However, when the acidic solution is mixed at the above ratio, the acidic substance balance may be minimized.

In one embodiment of the present invention, when there are two acidic solutions contained, they may be mixed at a ratio of 1: 0.5 to 2. If not mixed at the above ratio, there is a disadvantage that a weakness appears or a spraying effect is lowered when the crop is sprayed. However, when mixed at the above ratio, no harmful effect occurs when spraying, and it shows an advantageous effect in balanced feeding of nutrients and control of germs .

In one embodiment of the present invention, when the acidic solution contains three kinds, it may be mixed at a ratio of 1: 0.5 to 2: 0.5 to 2. [ If they are not mixed at the above ratios, there is a drawback that they cause weakness or less crop growth promoting effect. However, when they are mixed at the above ratios, it is possible to maximize the crop growth promotion effect and minimize the weakness.

In one aspect of the present invention, the acidic liquid fertilizer composition may exhibit an effect of controlling the disease, and more specifically, the disease may be powdery mildew or plague.

In one aspect of the present invention, the acidic liquid composition for controlling disease or fertilizer prepared according to the present invention or the acidic liquid fertilizer composition of the present invention is prepared by mixing the acidic solution mixture with the livestock manure anaerobic digestion waste liquid And adjusting the pH to a desired value.

In one embodiment of the present invention, the acidic liquid composition for controlling disease or fertilizer prepared according to the present invention or the acidic liquid fertilizer composition of the present invention may be diluted and fertilized as required.

In one aspect of the present invention, the acidic liquid composition for controlling or preventing pests or acidic liquid fertilizer composition prepared according to the present invention or the acidic liquid fertilizer composition of the present invention can be used for lowering the pH in the case of a pH of 7.0 or more in a long- .

In one aspect of the present invention, the acidic liquid composition for controlling disease or fertilizer prepared according to the present invention or the acidic liquid fertilizer composition of the present invention can be applied to all crops irrespective of the pH of the soil, When applied to all crops of house soil, it can be used for pH reduction, promotion of crop growth and germ control. It can also be fertilized for common anthropogenic plants growing on acidic soils and specifically for crops such as blueberries, potatoes, flax, and the like.

Hereinafter, the present invention will be described in more detail with reference to Examples and Experimental Examples. However, the scope of the present invention is not limited by the following Examples and Experimental Examples.

[Example]

1) an acidic solution for preparing an acidic mixture

A 10% phosphoric acid solution, a 10% nitric acid solution, and a vinegar solution were used as acidic solutions for producing the acidic mixture. The 10 w / v% phosphorous acid solution was prepared by adding 100 mL of phosphorous acid (Shin-Won Trading Co., 99%, pH: 1.0) to 900 g of distilled water and stirring the mixture at 40 rpm for 30 minutes in a stirrer (model: HMS-20). The 10 w / v% nitric acid solution was prepared by adding nitric acid (purified calcium (60%), pH: 0) into distilled water and stirring. The vinegar solution (Hanong Rohas, pH: 3.2) was used as the undiluted solution.

2) Preparation of acidic mixture

10% phosphoric acid solution, 10% phosphoric acid solution and vinegar solution were used to prepare an acidic mixture by mixing the components in the proportions shown in Table 1 below.

3) Livestock manure anaerobic digestion waste liquid

The chemical composition of the anaerobic digestion liquid used as the starting material in the examples is shown in Table 2 below. Ammonium-nitrogen content of anaerobic digestion was 3,866 mg / L, but T-P content was as low as 196 mg / L.

4) Production of acidic liquid fertilizer composition

An acidic liquid fertilizer composition was prepared by adjusting the pH of the anaerobic digestion solution to pH 4.5, 5.0, 5.5, and 6.0 by mixing the thus prepared acidic mixture with the specified livestock manure anaerobic digestion waste liquid .

[Experimental Example]

Experimental Example 1: Preparation of acidic liquid fertilizer composition of pH 4.5, 5.0, 5.5, 6.0 The change of pH measured after 7 days

The pH of the acidic liquid fertilizer composition prepared by adjusting the pH to 4.5, 5.0, 5.5, 6.0 in the above example was again 7 days after the preparation. As a result, the pH range of the target pH 6.0 treatment was as large as 0.7 to 2.1 The target pH 5.0 and 4.5 treatments did not show a significant change in the pH range from 0.1 to 0.6. Especially, when the acidic mixture contains both vinegar solution, phosphorous acid solution and nitric acid solution, the range of change of pH is decreased as the target pH is lower. At the target pH 5.0 and 4.5, it was confirmed that the pH remained unchanged (Table 3).

Experimental Example 2: EC measurement results of acidic liquid fertilizer compositions at pH 4.5, 5.0, 5.5 and 6.0

As shown in the following Table 4, the EC content of the acidic liquid fertilizer composition was found to be in the range of < phosphorous acid + nitric acid &lt; RTI ID = Acid mixture, and <herb + phosphorus acid> was the lowest when the acid mixture was contained. However, the EC content for the composition in all cases prepared can be in the range of 15.3 to 21.5 dS / m, and the EC content may be sprayed at 0.5 to 2.5 dS / m depending on the kind of the crop and the cultivation step after diluting the crop.

Experimental Example 3: Cabbage cultivation test

6 m ² (2 m × 3 m) test specimens were prepared in the soil of the following properties in Table 5, and the tests were carried out in three rounds in the packing method. From 3 days after the formulation, the acidic liquid fertilizer compositions prepared in the examples were sprayed at intervals of 7 days. The spraying concentration of the potting liquid was sprayed on the basis of the electric conductivity (EC) content, and when the cabbage was cultivated, it was diluted to 2.0 of the EC concentration and fertilized 6 times.

Leaf number, leaf width, leaf length, width, gouge, and mouth weight were investigated. The lobes used for the numerical measurement were the middle and upper lobes.

As shown in Table 6, the weight of Chinese cabbage in the acidic liquid fertilizer composition composition was increased from 11% to 21% as compared with the untreated soil, as a result of investigation of the growth and yield of the Chinese cabbage according to the application of the acidic liquid fertilizer composition. Specifically, when the acidic liquid fertilizer composition contained <acid solution of wood vinegar + phosphorous acid>, the Chinese cabbage grown at an average of 1,237 g, which was 11% higher than that of the untreated group, was cultivated and <cabbage + phosphorous acid> Chinese cabbage was cultivated on an average of 1,237 g of 12% grown cabbage and an average of 1,307 g cabbage grown 18% when containing <vinegar + phosphorous acid> acidic mixture. Especially, when the acidic liquid fertilizer composition contained both wood vinegar solution, phosphorous acid solution and nitric acid solution, cabbage was grown at 21% higher than the untreated group and the heaviest 1,337 g of Chinese cabbage was grown.

Experimental Example 4: Effect of Controlling Powdery Mildew

The occurrence of powdery mildew caused by the cultivation of the crops and the control effect test were carried out through the package test in the cabbage cultivation of Experimental Example 3. As a result, as shown in Table 7, the incidence of powdery mildew of cabbage was the highest at 17.7% in the untreated area, and the maximum incidence was 5.3% in the application of the acidic liquid fertilizer composition prepared in the example, and the incidence of powdery mildew Respectively. Specifically, the incidence of powdery mildew in the application of the acidic liquid fertilizer composition prepared in the examples was 5.3% when the acidic liquid fertilizer composition contained <phosphorous acid + nitric acid> mixture, 4.8% when containing the acidic mixture with vinegar + nitric acid, 2.2% in the case of the acidic mixture of vinegar + phosphorous acid and 1.4% in the case of containing the acidic mixture of <wood vinegar + phosphorous acid + nitric acid>, and the acidic liquid fertilizer composition contained the vinegar solution, the phosphorous acid solution and the nitric acid solution , The control effect of powdery mildew was the highest.

Experimental Example 5: Effect of Controlling the Red Pepper Plague

The test to confirm the effect of controlling the pepper blight was performed on the mythological cultivars. The test strips were randomly arranged in 3 repetitions and sprayed at intervals of 10 days. The investigations were carried out at intervals of 10 days.

Table 8 shows the results of experiments on the effect of the acidic liquid fertilizer composition prepared in the examples on the control of the blight of pepper. All of the acidic liquid fertilizer compositions prepared in the above examples were found to be effective in controlling pestilence. Particularly, the acidic liquid fertilizer composition containing the acidic mixture of <phosphorous acid + nitric acid> showed the most excellent control effect with 47.3% control, and the acidic liquid fertilizer composition containing <acidic mixture of wood vinegar + phosphorous acid had 46.9% And the acidic liquid fertilizer composition containing the acidic mixture of &lt; vinegar + phosphorous acid + nitric acid &apos; also exhibited a long-lasting effect for effectively inhibiting reverse bacterial growth.

Claims (14)

(a) mixing a wood vinegar solution, a nitric acid solution and a phosphorous acid solution at a volume ratio of 1: 0.5 to 2: 0.5 to 2 to prepare an acidic mixture; And
(b) mixing an anaerobic digestion waste liquid from a livestock manure with an acidic mixture prepared in step (a).
The method according to claim 1,
In the step (b), the anaerobic digestion waste liquid for livestock manure is an anaerobic digestion waste liquid after producing livestock manure by using an anaerobic fermentation tank, and the method for producing an acidic liquid composition for pest control or fertilizer.
The method according to claim 1,
The method according to any one of the above items (1) or (2), wherein the vinegar solution is at least 80% (w / v), the nitric acid solution is at least 5% (w / v), and the phosphorous acid solution is at least 5% Soluble liquid composition.
The method according to claim 1,
Wherein the amount of the vinegar solution is at least 90% (w / v), the nitric acid solution is at least 10% (w / v), and the phosphorous acid solution is at least 10% (w / v) Soluble liquid composition.
delete delete Livestock manure anaerobic digestive waste; And
Wherein the vinegar solution, the nitric acid solution and the phosphoric acid solution contain an acidic solution in a volume ratio of 1: 0.5 to 2: 0.5 to 2.
8. The method of claim 7,
Wherein the livestock manure anaerobic digestion waste liquid is an anaerobic digestion waste liquid after livestock manure is produced by using an anaerobic fermentation tank to produce biogas.
delete 8. The method of claim 7,
Wherein the disease is powdery mildew or pestilence disease.
8. The method of claim 7,
Wherein the vinegar solution is at least 80% (w / v), the nitric acid solution is at least 5% (w / v), and the phosphorous acid solution is at least 5% (w / v).
8. The method of claim 7,
Wherein the vinegar solution is at least 90% (w / v), the nitric acid solution is at least 10% (w / v), and the phosphorous acid solution is at least 10% (w / v).

delete delete