JP2019189742A - Soil environment improvement method - Google Patents

Abstract

To provide a soil environment improvement method, in which there is no need to create a large-scale drainage facility, and the soil environment of a large amount of soil can be improved at low cost.SOLUTION: Provided is a soil environment improvement method using a woody crude fiber and fulvic acid or humic acid, and in which, characterized, the woody crude fiber produced by adding fulvic acid or humic acid in the process of explosive-shattering treatment of wood chips made of wood waste or the like is mixed into soil having excessive salt accumulation, and the excessive salt is exhausted by curing in natural rainfall.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a technique for improving a soil environment by utilizing woody coarse fibers produced by adding fulvic acid or humic acid in the course of a blasting treatment of wood chips made of wood waste or the like.

  Conventionally, a drainage facility has been established to wash away salts, with the aim of improving the soil where sodium and other salts are accumulated, regardless of whether the soil is acidic or alkaline. Generally performed (see, for example, Patent Document 1 and Non-Patent Documents 1 and 2).

  In Patent Document 1, in order to efficiently remove salt with respect to clay soil such as dredged soil with low water permeability, the above-mentioned clay soil and water permeability improver are mixed, and a drainage layer made of an organic material is provided. A method is disclosed in which an embankment layer is constructed with viscous soil mixed with the above-mentioned water permeability improver on the drainage layer, and the embankment layer is desalted by rainfall and water supply.

  Non-Patent Document 1 describes a method of salt removal for adjusting high-concentration salts that interfere with the growth of greening plants to an appropriate electrical conductivity (EC) to improve the state suitable for planting soil. It is a method of leaching salts that cause growth failure using watering or neutralizing agents. If drainage from the lower layer of the local board is possible and there is a problem with soil permeability, rough tillage And the method of making the soil a temporary embankment when drainage from the lower layer is impossible, the drainage creates a temporary waterway, etc., desalinates with rainwater or watering, and periodically The electrical conductivity (EC) is measured to confirm the desalting effect.

  In Non-Patent Document 2, excess salt remaining in the soil is based on salt removal by flushing with a sufficient amount of fresh water, and a sufficient amount of fresh water is submerged in the soil. Disclosed are a method for eliminating salt in soil, and a method for diffusing and eluting the salt in soil into drained water and discharging it from the bottom of the soil. In either method, the salt concentration in the soil is set to the target value. Until it reaches, the process from flooding to draining is repeated.

Japanese Unexamined Patent Publication No. 2017-100074 "Planting Infrastructure Maintenance Technical Manual" Revised April 1, 2009 2nd Edition Japan Greening Center “Desalination Manual for Farmland, Rural Promotion Bureau” June 2011 Ministry of Agriculture, Forestry and Fisheries

In the above-mentioned Patent Document 1 and Non-Patent Documents 1 and 2, salt removal techniques for improving soil in which salts such as sodium are accumulated are disclosed, but there are the following problems.
(1) It is necessary to install drainage facilities, drainage layers and embankment layers, and the construction prior to the salt removal work becomes large-scale, which affects the surrounding environment and increases construction costs.
(2) By installing drainage facilities and drainage layers, the salted wastewater is locally discharged to further accumulate salt in the surrounding soil.
(3) Cleaning with fresh water disclosed in Non-Patent Document 1 and Non-Patent Document 2 requires a large amount of fresh water.
(4) The method of salt removal treatment by rain disclosed in Patent Document 1 does not require a large amount of fresh water for washing, but in order to ensure water permeability, one or more improvement materials are used. It is necessary to use an expensive high-molecular polymer for mixing and further promoting soil agglomeration.
(5) In the case of soil with a high content of clay minerals, it is necessary to strip off the salts that are firmly adsorbed to the clay minerals, so a large amount of water is required.

  These problems are the same not only in soils where salt accumulation has progressed but also in tsunami deposits.

  Therefore, it is an object of the present invention to provide a soil environment improvement method that can improve the soil environment of a large amount of soil at a low cost without the need for making a large drainage facility.

  Therefore, in the present invention, woody coarse fibers produced by adding fulvic acid or humic acid in the process of blasting wood chips made of wood waste or the like are mixed with the soil where excessive salts are accumulated, so that natural rain By curing, excess salt was discharged and the soil environment was improved.

  That is, according to the first aspect of the present invention, the salt-improving material containing the woody coarse fiber produced by adding the fulvic acid or humic acid in the course of the explosion treatment of the wood chip made of wood waste or the like is excessive in salt. It is a soil environment improvement method characterized by discharging excess salt by mixing in soil accumulated in soil and curing by natural rainfall.

  According to a second aspect of the present invention, in the first aspect of the present invention, the soil-improving material containing woody crude fibers mixed with the fulvic acid or humic acid is mixed into the soil, thereby improving the water permeability of the soil. Or it promotes the effect of chelating salts of humic acid in soil.

  3rd of this invention improves the water permeability of soil by mixing the soil improvement material containing the woody coarse fiber mixed with the said fulvic acid or humic acid in 1st invention, The said fulvic acid Alternatively, salt in the soil chelated by humic acid is precipitated by natural rainfall to remove salt.

  4th of this invention improves the water permeability of soil by mixing the soil improvement material containing the woody coarse fiber mixed with the said fulvic acid or humic acid in 1st invention, The said fulvic acid Alternatively, the pH of the soil is brought close to neutrality by a chemical buffering ability that is a function of adjusting the pH of humic acid.

  According to a fifth aspect of the present invention, in the first aspect, the soil environment is further improved by mixing the soil-improving material containing the woody crude fiber mixed with the fulvic acid or humic acid into the soil, and further improving the soil environment. When improving, fulvic acid is additionally applied.

  6th of this invention is 1st invention WHEREIN: When mixing the soil improvement material containing the wood coarse fiber mixed with the said fulvic acid or humic acid in soil, the fulvic acid which is not mixed with the said wood coarse fiber or At least one selected from the group of humic acid, sulfur, desulfurized gypsum, and converter slag is added.

  In a seventh aspect of the present invention, in any one of the first to sixth aspects, as the fulvic acid or humic acid, wood, grass, vegetable waste, or undecomposed organic matter of litter in the process of producing charcoal is obtained. It uses fulvic acid or humic acid produced by immersing a proper amount in wood vinegar or bamboo vinegar, which is a very acidic organic acid produced, and curing for a long time.

  Since the present invention has the above configuration, the following effects are obtained. That is, by mixing fulvic acid or humic acid in the process of blasting wood chips made of wood waste, etc., into the soil in need of improvement, mixing the crude wood fiber produced in the process of blasting the wood chip, the water permeability in the soil is increased. Improved and improved water permeability allows the chelating effect of fulvic acid or humic acid to be uniformly expressed in the soil, which effectively drains excess salts in acidic and alkaline soils by natural rainfall It is possible to do. In addition, even in soil with a high concentration of clay minerals, fulvic acid or humic acid is evenly dispersed in the soil whose water permeability has been improved by the crude wood fiber. It can be expected to efficiently strip salts from clay minerals.

It is a schematic explanatory drawing which shows the manufacturing process of the soil improvement material in one Embodiment of this invention. It is a SEM image of the fiber which boiled the wood chip | tip and was defibrated with the refiner. It is a SEM image of the fiber defibrated by the continuous explosion device. It is a schematic explanatory drawing which shows the process of the soil environment improvement method which concerns on one Embodiment of this invention.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The following description of the preferred embodiments is merely exemplary in nature and is in no way intended to limit the invention, its application, or its application.

<Soil improvement material>
The soil improvement material in the present embodiment includes woody coarse fibers mixed with fulvic acid or humic acid. Hereinafter, the manufacturing method of a soil improvement material is demonstrated.

  As shown in FIG. 1, the manufacturing process of the soil improvement material in the present embodiment includes a chip forming step S1 for obtaining wood chips by cutting wood as a raw material into chips, and a woody coarse fiber by blasting the wood chips. The blasting process step S2 for obtaining

  The timber used in the chipping process S1 is a piece of wood generated from the thinned wood and forest land residue, construction industry, wood and wood product manufacturing industry, furniture manufacturing industry, pulp manufacturing industry, imported timber wholesale business and goods rental business. And wood waste such as industrial waste such as sawdust and other general waste of wood such as pruned branches of plants. The tree species is not limited, but examples include zelkova, cedar, taro, oak, hinoki and red pine. The bark content in the wood is preferably less than 80% by volume. This is because in the blasting treatment step S2, when the bark content is 80% by volume or more, compression cannot be performed during the blasting treatment step S2.

  Moreover, it is preferable that the moisture content of a wood is more than 30 mass% of dry bases. When the moisture content of wood is 30% by mass or less on a dry basis, there is a problem that steam explosion does not occur in the explosion treatment step S2. However, even when the moisture content of the wood is 30% by mass or less on a dry basis, it is possible to perform a blasting treatment by adding water together with the wood.

  In the chip forming step S1, wood is cut into chip-shaped pieces using, for example, a wood chipper to obtain wood chips. The size of the wood chip is preferably a maximum diameter of 100 mm or less, more preferably a maximum diameter of 2 mm or more and 70 mm or less, and particularly preferably a maximum diameter of 5 mm or more and 40 mm or less from the viewpoint of improving the efficiency of the explosion treatment in the explosion treatment step S2.

  In the blasting treatment step S2, the wood chips are put into a continuous blasting device such as a twin screw extruder disclosed in Japanese Patent Application Laid-Open No. 2006-239729, a batch-type pressure cooker device, or the like. Apply.

  In continuous blasting equipment, when wood chips are inserted into the inlet of the blasting equipment, the wood chips are sandwiched between rotating screws and crushed and crushed, and sent to the high compression section through the compression section. Is fully compressed. In the present embodiment, fulvic acid or humic acid is added in the explosion treatment step S2.

  When a batch-type pressure cooker is used as a steaming blasting device, wood chips and fulvic acid or humic acid are introduced into the pressure cooker, under steam of 180 ° C. or higher and 250 ° C. or lower and under a force of 1 MPa or higher and 2 MPa or lower. The woody crude fiber of this embodiment can be obtained by performing the steaming / explosion treatment for 5 to 10 minutes.

The fulvic acid or humic acid added in the blasting treatment step S2 is, for example,
(A) An appropriate amount of undecomposed organic matter such as wood, grass, vegetable waste or litter is immersed in wood vinegar or bamboo vinegar, which is a very acidic organic acid produced in the process of charcoal production, for example, longer than 600 hours What was manufactured by curing for a period,
(I) Extracted from humus and
(C) At least one fulvic acid or humic acid selected from the group of those extracted from sedimentary soil at the bottom of the water area. These fulvic acids or humic acids may be used alone or in combination of two or more.

In addition, about (a) fulvic acid or humic acid, it manufactures with the following manufacturing methods, for example.
(1) Naturally-derived wood vinegar or bamboo vinegar is produced from undecomposed organic matter such as wood, bamboo, grass, and residue in the process of charcoal production.
(2) The ratio of the vinegar to the organic matter is, for example, a volume ratio, and the ratio of the wood vinegar or bamboo vinegar to 0.5 or more relative to the undecomposed organic matter of wood, grass, vegetable waste, or litter. can do.
(3) It takes 5 hours or more for the vinegar to soak into the organic matter, and the humus content is 5% or more. For example, the vinegar is immersed in the vinegar for 600 hours or more.

  In the explosion treatment step S2, fulvic acid or humic acid is added in a state diluted with water. At this time, fulvic acid or humic acid is added so that it is preferably diluted 100 times or more, more preferably diluted 300 times or more, particularly preferably diluted 500 times or more with respect to the amount of water added.

  Fulvic acid or humic acid has a chemical pH buffering capacity. Thereby, since the pH of the woody coarse fiber containing fulvic acid or humic acid is stabilized in a weakly acidic region, it is not necessary to mix the pH adjuster and adjust the pH of the soil improving material. In addition, the aggregation effect of fulvic acid or humic acid can promote aggregation in the long term and increase water permeability. Then, the function of the woody coarse fiber as the soil improvement material can be dramatically improved.

  The compressed wood chip is discharged from the discharge port to cause an explosion of water vapor containing fulvic acid or humic acid, and is crushed to obtain a crude wood fiber mixed with fulvic acid or humic acid. .

  In addition, the surface of the wooden coarse fiber which boiled the wood chip | tip and performed the defibration process with the refiner is shown in the electron microscope (SEM) image of FIG. 2A. Moreover, the surface of the coarse wood fiber when the explosion treatment is performed by the continuous explosion device used in the explosion treatment step S2 in the present embodiment is shown in the SEM image of FIG. 2B. Compared to FIG. 2A, in FIG. 2B, the surface of the wood coarse fiber is finely crushed so as to be fluffy in a direction perpendicular to the length direction of the wood coarse fiber. Thereby, when wooden coarse fiber is mixed in soil, the water permeability of soil improves. In addition, a slit is formed in a direction perpendicular to the length direction of the coarse wood fiber, and moisture containing fulvic acid or humic acid is taken into the fiber by capillary action, thereby improving the water retention effect of the coarse wood fiber. Thus, according to the blasting treatment step S2 in the present embodiment, the water permeability and water retention performance of the woody coarse fiber can be effectively improved. Moreover, it is preferable to use a continuous blasting device from the viewpoint of enabling mass production by continuous blasting and not requiring heating.

  The woody crude fiber mixed with fulvic acid or humic acid obtained as described above can be used as a soil improvement material as it is, for example. Moreover, various soil-improving materials can be obtained by, for example, drying or further adding additives to woody raw fibers mixed with fulvic acid or humic acid.

<Soil environment improvement method>
The soil environment improvement method according to the present embodiment is a soil environment improvement method using woody coarse fibers and fulvic acid or humic acid, and the soil improvement material manufactured as described above is contained in the soil in which salts have accumulated excessively. It is performed by discharging excess salt by mixing and curing in natural rainfall.

  FIG. 3 is a schematic explanatory diagram illustrating the steps of the soil environment improvement technique according to the present embodiment. In FIG. 3, G is the ground surface, 1 is a soil improvement material, 2 is fulvic acid or humic acid, 3 is an additive (sulfur powder, desulfurized gypsum, converter slag), 41 is a shovel car, and 42 is a watering machine.

  As shown in FIG. 3, first, the excavator 41 digs up the soil on which excess salts are accumulated, mixes the soil improvement material 1 and embeds it in the soil. After the soil improvement material 1 is mixed with the desired range of soil, it is cured by natural rainfall and excess salts are discharged.

  As described above, the soil-improving material 1 includes woody coarse fibers produced by adding fulvic acid or humic acid in the process of blasting wood chips made of wood waste or the like.

  Physical and chemical properties in the soil by mixing soil improvement materials into the soil so that the crude wood fiber containing fulvic acid or humic acid is mixed in the soil at a rate of 1 to 30% by volume per unit volume. By the chelating effect of fulvic acid or humic acid, the salt deposited excessively can be discharged by natural rainfall to make the soil healthy.

  That is, the water permeability of the soil can be improved by mixing the soil improving material 1 into the soil. Moreover, the effect which chelates the salt in the soil of a fulvic acid or humic acid can be accelerated | stimulated. Furthermore, salts in the soil chelated with fulvic acid or humic acid can be precipitated and precipitated by natural rainfall. Moreover, the pH of soil can be brought close to neutrality by the chemical buffering ability, which is a function of adjusting the pH of fulvic acid or humic acid.

  Moreover, as shown in FIG. 3, when the soil improvement material 1 is mixed in the soil, fulvic acid or humic acid 2, which is not mixed with the crude wood fiber, or additive 3 is added before or after the mixing or simultaneously with the mixing. And may be mixed in the soil. The additive 3 is at least one selected from the group of sulfur, desulfurized gypsum, and converter slag.

  In addition, after mixing the soil-improving material 1 into the soil or after a predetermined period of time has elapsed after mixing, in order to further enhance the effect of improving the soil environment, fulvic acid or humic acid 2 may be additionally sprayed with, for example, water. Is possible. As the fulvic acid or humic acid 2, those obtained by the same method as the fulvic acid or humic acid mixed with the crude wood fiber can be used.

  According to the soil improvement method according to the present embodiment, it is not necessary to make a large drainage facility, and since natural rainfall can be used, excessive salt is discharged without drastically changing the soil environment to be improved. Cost can improve the soil environment of large volumes of soil.

  Next, specific examples will be described.

[Soil improvement materials]
The soil improvement material was adjusted using cedar wood chips of 5 to 40 mm using a chipper.

This wood chip and fulvic acid (Fujimin, made by National Land Disaster Prevention Technology Co., Ltd.) at a 500-fold dilution 10L / m ³ are added to the inlet of a twin-screw extruder (Mori Machinery Co., Ltd., MORI-LEHMANN Extruder). Mixed and blasted.

  The crude wood fiber after the explosion was dried in the atmosphere for 2 hours to obtain a soil improvement material.

[Effect confirmation test 1]
Fulvic acid produced as described above for soil having a soil pH of 11, a soil EC (electric conductivity) of 6 dS / m, and a soil hydraulic conductivity of 10 ⁻⁵ cm / S at Matsue Proving Ground (Shimane Prefecture) As a result of mixing 5% by volume of soil improvement material consisting of crude wood fibers mixed with and leaving it to stand in natural rainfall, the soil permeability improved to ^10-3 cm / S after one week of rainfall. And improved to soil pH 8 and soil EC 0.7 dS / m.

[Effect confirmation test 2]
In the vegetation embankment of Minamisoma, Fukushima Prefecture, 3 soil-improving materials consisting of woody coarse fibers mixed with fulvic acid produced as described above on the embankment surface of diatomaceous earth that had a water level drop of 24 mm per hour in the Hasegawa-type permeability test By mixing volume%, the water level can be reduced to 60 mm per hour. In the planting infrastructure maintenance manual (2000) in the greening project of the Japan Institute of Landscape Architecture, it is determined that a water permeability of 30 mm or more per hour is permitted as a planting infrastructure. In addition, the pH of the soil was improved from 3 to 5.5, and the soil EC was also improved to 0.8 dS / m.

  According to the present invention, it is not necessary to make a large-scale drainage facility, and the soil environment of a large amount of soil can be improved at a low cost, which is extremely useful.

DESCRIPTION OF SYMBOLS 1 Soil improvement material 2 Fulvic acid or humic acid 3 Additive 41 Excavator 42 Watering machine S1 ... Chip formation process S2 ... Blasting process

Claims (7)

  Soil improvement materials containing coarse wood fibers produced by adding fulvic acid or humic acid in the process of blasting wood chips made of wood waste, etc., are mixed into soil with excessive salt accumulation, and natural rain A soil environment improvement method characterized by discharging excess salt by curing in the soil.   The effect of improving the water permeability of the soil and chelating the salts of the fulvic acid or humic acid in the soil by mixing the soil improvement material containing the woody coarse fiber mixed with the fulvic acid or humic acid into the soil The soil environment improving method according to claim 1, wherein the soil environment is improved.   By mixing the soil improvement material containing the crude wood fiber mixed with the fulvic acid or humic acid into the soil, the water permeability of the soil is improved, and the salts in the soil chelated by the fulvic acid or humic acid are added. The soil environment improving method according to claim 1, wherein the salt environment is precipitated by natural rainfall and demineralized.   Chemical that is a function of improving the water permeability of the soil and adjusting the pH of the fulvic acid or humic acid by mixing the soil improvement material containing the woody crude fiber mixed with the fulvic acid or humic acid into the soil The soil environment improving method according to claim 1, wherein the pH of the soil is close to neutrality by buffering capacity.   After improving the soil environment by mixing the soil improvement material containing the woody coarse fiber mixed with the fulvic acid or humic acid into the soil, additionally spraying fulvic acid or humic acid when improving the soil environment The soil environment improvement method according to claim 1, wherein:   When mixing the soil improvement material containing the woody coarse fiber mixed with the fulvic acid or humic acid into the soil, fulvic acid or humic acid not mixed with the woody coarse fiber, sulfur, desulfurized gypsum, and converter slag The soil environment improvement method according to claim 1, wherein at least one selected from a group is added.   As fulvic acid or humic acid, an appropriate amount of wood, grass, vegetable waste, or undecomposed organic matter of litter is suitable for wood vinegar or bamboo vinegar, which is a very acidic organic acid produced in the process of charcoal production. The method for improving soil environment according to any one of claims 1 to 6, wherein fulvic acid or humic acid produced by soaking and curing for a long time is used.