JP6095110B2 - Humic acid-derived fulvic acid aqueous solution and method for producing the same - Google Patents

Description

  The present invention relates to a humic substance-derived fulvic acid aqueous solution containing fulvic acid and humic acid, and a method for producing the same.

  Plant remains and animal excrement / remains are deposited on the soil, lake bottom, and sea bottom, and these are generally called “soil organic matter”. Of these, the part excluding the dead bodies of animals and plants is called “humus”. Among humus, “humic substances” are dark (yellow, brown, or black) polymer substances that have been generated through the degradation and polycondensation of microorganisms over thousands of years. As is apparent from the production process, the humic substance is a substance having resistance to microbial degradation that is not further degraded because it has been completely degraded by microorganisms.

  The humic substance is a mixture of various organic compounds, and the chemical structure is not constant because differences occur depending on the production area (FIG. 4 described below is an example of the chemical structure of the humic substance). Humic substances are humic acid, a substance that is alkaline, soluble in water and acidic, precipitates, fulvic acid (fulvic acid), a substance that is soluble at all pH, and a substance that does not dissolve. Contains humin (or humin).

  It is known that an aqueous solution containing humic substances has a deodorizing effect by spraying and an effect of reducing the smell of excrement by drinking (for example, JP 2008-7451 A [Patent] Literature 1], Japanese Patent No. 3930019 [Patent Literature 2]).

JP 2008-7451 A Japanese Patent No. 3930019

  However, the aqueous solution of Patent Document 1 has a strong astringency and a bitter taste and is unsuitable for drinking. For this reason, in Patent Document 1, it is recommended to dilute 2 to 500 times when drinking, and further pass through a cation exchange resin to remove aluminum ions and other cations ([Patent Document 1 [ [0031] Paragraph). When diluted in this way, the effect as a fulvic acid aqueous solution is diminished. Moreover, since the aqueous solution of patent document 2 uses abundant deep sea water in the production | generation process in addition to astringency and gummy taste, since it contains a large amount of salt, it is drunk like the aqueous solution of patent document 1. It is unsuitable to do.

  An object of the present invention is to provide a humic substance-derived fulvic acid aqueous solution that is suitable for drinking, is easy to drink, and sufficiently obtains the effects of drinking and a method for producing the same.

  The present invention relates to a method for producing a humic substance-derived fulvic acid aqueous solution containing at least fulvic acid and humic acid and containing fulvic acid as a main component. In the method for producing a humic substance-derived fulvic acid aqueous solution of the present invention, humus soil collected from the ground is dehydrated and dried to produce a humic substance-derived powder. Then, the obtained powder is put into water having a weight of 3 to 6 times to make a suspension, and the suspension is changed from pH 5.5 to pH 3.0 to 3.7 at a water temperature of 10 to 14 ° C. Aging is performed for a period of time (first aging step). Further, after the first aging step, the supernatant is collected or filtered to collect the liquid. Then, the collected liquid is aged for a period until the concentration of humic acid is 400 mg / L or less (second aging step). In the present invention, in particular, by performing the second aging step, the concentration of humic acid becomes 400 mg / L or less, and the astringent taste and gummy taste of the humic substance-derived fulvic acid aqueous solution can be removed. It is possible to obtain a humic substance-derived fulvic acid aqueous solution that is easy to drink and that is sufficiently effective for drinking. That is, the present invention finds that the conventional fulvic acid aqueous solution is difficult to drink due to the concentration of humic acid, and by reducing the humic acid concentration by aging, the fulvic acid aqueous solution can be made easy to drink. This is based on the knowledge found.

  The second aging step varies depending on the raw material (humus soil) used and the environmental conditions, but it is sufficient that the concentration of humic acid is 400 mg / L or less. It was a period. Here, “about 3 years” is not a strict sense of 3 years, but has a certain range, and has a range of 3 years ± several months.

  In addition, although the inventors used the humus soil collected in Kariya, Moriyama-cho, Isahaya City, Nagasaki Prefecture as a raw material, it is needless to say that other regions may be used.

  The humic substance-derived fulvic acid aqueous solution obtained by the above production method contains fulvic acid as a main component and can be used for various known applications. Since the humic substance-derived fulvic acid aqueous solution of the present invention is suitable for drinking, a deodorizing effect can be expected especially by continuously drinking. "Odor control" is a term indicating the concept of preventing the generation of odor components by preventing the generation of odor components. What is "deodorization" that eliminates odors by neutralizing odor components with chemical substances? It is a different concept. By continuously drinking the humic substance-derived fulvic acid aqueous solution of the present invention, the odor intensity of feces can be reduced.

It is a reference figure (vertical sectional view) which shows the state of the mining site of the soil containing humic substance used for this embodiment. It is a reference figure (vertical sectional view) which shows the state where the soil containing the extracted humic substance is dehydrated naturally. It is a reference figure (vertical sectional view) which shows the state where pressure dehydrating the soil containing mined humic substance. It is an example of the chemical structure of humic substances. It is a conceptual diagram which shows a mode that the humic acid contained in humic substance reduces by a 2nd ageing | curing | ripening process. It is a figure which shows the correlation of the density | concentration of humic acid, and the ease of drinking of aqueous solution. It is a flow which shows the process in which the effect by drinking humic substance origin fulvic acid aqueous solution arises. It is a figure which shows the deodorizing effect which is an example of the effect by drinking humic substance origin fulvic acid aqueous solution.

  Hereinafter, an example of an embodiment of a humic substance-derived fulvic acid aqueous solution (hereinafter sometimes simply referred to as “fulvic acid aqueous solution”) and a production method thereof according to the present invention will be described with reference to the drawings.

[Minching of humus soil]
The soil (humus soil) containing the humic substance used as the raw material of the humic substance-derived fulvic acid aqueous solution of the present embodiment is collected in Karahei, Moriyama-cho, Isahaya City, Nagasaki Prefecture. The mining site has an environment as shown in FIG. As shown in FIG. 1, a depression 5 is formed in the bedrock 3 near the sea 1 in the coastal area of Tachibana Bay in Kyushu, and a forest 7 spreads around the depression 5. Withered plants have accumulated in the depression 5 and humus soil 9 has accumulated as spongy soil after thousands of years. On the humus soil 9, a solid-phase soil 11 and a surface soil zone 13 are deposited, and a paddy field 15 is formed thereon. The mining of the humus soil 9 is performed by a grab bucket.

[Generation of powder derived from humic substances]
In the present embodiment, the collected humus soil 9 is spongy with a moisture content of 46.5%. And the powder derived from humic substance is obtained through the process of following (1)-(3).

(1) The 180 kg of humus soil 9 is allowed to stand on the inclined surface 17, and is subjected to natural flow dehydration until the moisture exudes to a moisture content of about 35% to obtain a primary dehydrated humus soil 19. The exuded moisture is discharged through the water channel 21.

(2) Next, the primary dehydrated humus soil 19 is subjected to pressure dehydration with a roller press 23 until the water content becomes 25% to obtain a secondary dehydrated humus soil 25. The dehydrated water is discharged through the water channel 27.

(3) After that, the secondary dehydrated humus soil 25 is spread over a flat surface and dried using sunlight, and is heated and dried with sunlight in a vinyl house until the water content becomes 10% or less. This drying is aimed at reducing the molecular weight of humic substances and inactivating bacteria. By repeating stirring and grinding and sun exposure, about 100 kg of humic substance-derived powder having a particle size of about 0.1 mm to 2 mm is produced.

FIG. 4 shows an example of the chemical structure of the obtained humic substance-derived powder, and Tables 1 and 2 show the analysis results of the components. In addition, since there is no established measurement method for fulvic acid, fulvic acid is not quantified in Table 1.

Items marked with “1” are the results of analysis by the Japan Fertilizer Testing Association, and items marked with “2” are the results of analysis by the Japan Food Analysis Center. .

  The organic carbon content of soil organic matter is determined by the nitric acid oxidation method.

  The organic matter content (converted value) of the soil organic matter is converted from the organic matter carbon content to the organic matter content by using the red field ratio (organic matter weight: carbon weight in the organic matter = 100: 16.0).

  The organic matter content of humic acid is determined by the hydrochloric acid-sodium hydroxide method.

The organic carbon content of fulvic acid was determined by the dissolved organic carbon concentration by a high temperature dry catalytic oxidation method. Specifically, the dissolved organic carbon concentration obtained by extracting 360 g of humic substance-derived powder in 2.5 L of purified water was 92 mg C / L (pH 2.8), and thus extracted from the humic substance-derived powder. When the content of alkali-soluble and acid-soluble organic substances is X%,
X = (extracted dissolved organic carbon concentration × 2.5) / (weight of powder derived from humic substance) × 100
= 92 × 10 ^-3 × 2.5 / 360 × 100
= 0.064 (%)
The organic matter content rate (converted value) of fulvic acid is converted from the organic carbon content rate to the organic matter content rate using the red field ratio in the same manner as the organic matter content rate (converted value) of the soil organic matter.

[Formation of fulvic acid aqueous solution]
In this Embodiment, the fulvic acid aqueous solution is obtained through the following process (4)-(11) using the powder derived from the humic substance obtained by the above.

(4) Put 100 kg of humic substance-derived powder and 600 L of clean water (3 to 6 times the weight of the powder) into a water tank. The water used here is spring water at the foot of Mt. Ontake.

(5) Stir so that the powder is uniform in water to form a suspension. The initial pH value when the powder is poured into water and stirred is about pH 5.5.

(6) While the suspension is slowly stirred once to several times daily at a water temperature of 10 ° C. to 14 ° C. (preferably 12 ° C.), the pH value is pH 3.7 to pH 3.0 (pH 3.0 is Aged until desired. This aging step is referred to as a first aging step. The duration of the first aging process is approximately 30 days.

(7) The supernatant is collected or filtered to collect the liquid. The pH value of the liquid is 2.8.

(8) Put the collected liquid into a polyethylene cylindrical water tank (1 ton or 2 ton), cover it, and further prevent the contents from evaporating and dust intrusion. It is completely covered with a vinyl sheet from above, and ripened again for a period until the concentration of humic acid reaches 400 mg / L or less. This aging step is referred to as a second aging step. In the present embodiment, the second ripening step is performed in a wooden factory on the riverbed of the Tsukechi River in the Kisogawa tributary of Tsuchimachi, Nakatsugawa City, Gifu Prefecture. The room temperature is an environment where the liquid component does not freeze throughout the year at a maximum of 28 ° C. and a minimum of 1 ° C., and the water tank is kept out of direct sunlight so as to be well ventilated. In the present embodiment, the period of the second aging step is about 3 years. After 3 years, no decrease in liquid volume due to evaporation was observed.

(9) After coarse filtration with a cloth, sterilization filtration is performed with a membrane filter having a pore size of 0.2 μm.

(10) The produced aqueous solution is bottled in a PET bottle.

(11) When drinking, use low temperature sterilization (65 ° C, 30 minutes) to make the product.

[About the second aging step]
In the present embodiment, the humic acid concentration is 400 mg / L or less by aging for 3 years in the second aging step (8). FIG. 5 is a conceptual diagram showing how the concentration of humic acid decreases over time. In the liquid obtained in the step (7), fulvic acid and humic acid are dissolved as organic substances. FIG. 5 shows that the amount of humic acid in the organic substances is gradually reduced by the second aging step. It shows how to do.

[Sensory test of fulvic acid aqueous solution]
The aqueous fulvic acid solution of the present embodiment becomes easy to drink after undergoing the second aging step (8). The evaluation of the inventors drinking three types of aqueous solutions when the aging period is 1 year, 2 years, and 3 years is as follows.

  -1 year: Sedimentation is noticeable in sterilized products and bottled products, and when drunk, the astringency and gummy taste are strong, and the throat and tongue feel irritated.

  ・ 2 years: The occurrence of precipitates is considerably reduced, but when drinking, it is still unpreferable as a beverage because it feels astringent and pungent.

  ・ 3 years ... Feels sour with some astringency, and feels good if you drink it cold. Precipitate hardly occurs, and even if the expiration date of the product is set to one year, hardly any precipitate is generated in the product during that period.

To demonstrate this, a sensory test was performed. Table 3 summarizes the results of the sensory test in which three types of aqueous solutions were sampled by seven panels when the aging period was set to 1 year, 2 years, and 3 years in the second aging step of (8) above. Is. In addition, as an evaluation method, the data of the person with the best grade and the person with the worst grade are cut, and the evaluation is made with the data of the remaining five people.

  As a result, many people judged that it was easy to drink those with an aging period of 3 years.

  FIG. 6 is a graph summarizing the correlation between the concentration of humic acid and the ease of drinking an aqueous solution. The fulvic acid aqueous solutions judged to have good taste (easy to drink) were all fulvic acid aqueous solutions that were aged for 3 years in the second aging step in which the concentration of humic acid was 400 mg / L or less.

  From the results of the above sensory test, as in the present embodiment, until the concentration of humic acid is 400 mg / L or less (3 years in the present embodiment), the second of (8) above. It can be seen that an easy-to-drink fulvic acid aqueous solution can be obtained by carrying out the aging step.

[Effect of drinking fulvic acid aqueous solution]
FIG. 7 is a flow chart showing the effect of drinking a fulvic acid aqueous solution. By drinking the fulvic acid aqueous solution (step ST1), the fulvic acid that is an acid reaches the intestine (step ST2). This is similar to the process in which lactic acid bacteria release lactic acid in the intestine and lactic acid, which is an acid, reaches the intestine by drinking a lactic acid bacteria beverage. However, in the case of fulvic acid, as described above, it is completely degraded by microorganisms, so that the fulvic acid that is drunk is not digested and absorbed in the middle and reaches the intestine directly, so that it is more efficient than in the case of lactic acid bacteria beverages. It can often deliver acid to the intestines.

  When the fulvic acid reaches the intestines, so-called good bacteria are increased by the action of the fulvic acid, the bad bacteria are decreased, and the intestinal flora becomes healthy (step ST3). As a result, the odor of feces etc. is weakened (deodorizing effect), and further, the odor component in the blood is reduced, so that the body odor and bad breath are reduced. If the intestinal flora becomes healthy, the function of the intestines becomes healthy (step ST4), and according to a report from a drinking experience person, effects such as improved nutrient absorption efficiency, improved constipation, and reduced hangover appear.

  When the function of the intestines becomes healthy, the immunity becomes healthy (step ST5). As a result, effects such as a refreshing feeling of physical condition, improvement of wound healing power, and improvement of stomatitis appear.

  If the immunity becomes healthy, the immune disease is finally improved (step ST6). As a result, allergic disease improvement, hay fever improvement, atopic disease improvement, diabetes improvement, obesity improvement, dyslipidemia improvement, hypertension improvement, colon cancer improvement, liver disease improvement Effects such as appear.

[Deodorizing effect of fulvic acid aqueous solution]
Of the above effects, a demonstration experiment was conducted on the deodorizing effect. Here, the term “deodorization” is a term indicating the concept of preventing the generation of odor components and preventing the generation of odor itself. By neutralizing the odor components with chemical substances, It is a different concept from "odor". The inventor is a qualified person of “Odor determination person (odor measurement worker): No. 3927A”, a national qualification established based on the Odor Control Law, and the humic substance-derived fulvic acid aqueous solution according to the present invention is used every day. After drinking 30 mL, the odor intensity of their stool was measured over 680 days. In order to make a comparison before and after the start of drinking after the start of measurement, drinking of the fulvic acid aqueous solution is started from the 85th day. FIG. 8 shows the measurement results. The “odor intensity” is an index indicating the intensity of smell due to human olfaction according to the “6-level odor intensity display method” that evaluates the odor intensity in 6 levels from 0 to 5. It is represented by

0: Odorless 1: Smell that can be finally detected 2: Weak scent that understands what smell it is 3: Smell that can be easily detected 4: Strong odor 5: Strong odor In the Odor Control Law, the regulation value is set based on the odor intensity Yes.

  As apparent from FIG. 8, the odor intensity is reduced from about 4 before the start of drinking to about 3.5 after the start of drinking. Therefore, it has been demonstrated that drinking the humic substance-derived fulvic acid aqueous solution of the present embodiment provides a deodorizing effect that weakens the smell of stool and the like.

  The above embodiment has been described as an example, and is not limited to the present embodiment unless departing from the gist thereof. For example, the production area, amount, period, numerical value, and the like of the humus soil shown in the above embodiment are merely examples for realizing the present invention, and the present invention is limited only to the contents of the above embodiment. Is not to be done.

  According to the present invention, by lowering the concentration of humic acid in the aqueous humic substance-derived fulvic acid solution to 400 mg / L or less, it is easier to drink and easier to drink than before, and the effect of drinking is sufficient The humic substance-derived fulvic acid aqueous solution obtained and the method for producing the same can be provided.

1 sea 3 bedrock 5 depression 7 forest 9 humus soil 11 solid soil 13 surface soil belt 15 paddy field 17 slope 19 primary dehydrated humus soil 21 water channel 23 roller press 25 secondary dehydrated humus soil 27 water channel

Claims (4)

In the method for producing a humic acid-derived fulvic acid aqueous solution containing fulvic acid and humic acid,
The humus soil collected from the ground is dehydrated and dried to produce powder derived from humic substances,
The powder is put into water consisting of 3 to 6 times its weight to form a suspension,
The suspension is subjected to a first aging step of aging at a water temperature of 10 to 14 ° C. for a period of time from pH 5.5 to pH 3.0 to 3.7,
After the first ripening step, the supernatant is collected or filtered to collect the liquid,
Performing the second aging step of aging the collected liquid for a period until the concentration of the humic acid is 400 mg / L or less,
The method for producing a humic substance-derived fulvic acid aqueous solution containing fulvic acid as a main component, wherein the period of the second aging step is about 3 years.   The method for producing a humic substance-derived fulvic acid aqueous solution according to claim 1, wherein the humus soil is collected in Karahisai, Moriyama-cho, Isahaya City, Nagasaki Prefecture. A humic substance-derived fulvic acid aqueous solution produced by the production method according to claim 1 or 2 . The deodorizer containing the humic substance origin fulvic acid aqueous solution of Claim 3.

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