JP2007170041A - Artificial tideland development method and coal ash columnar body used for the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve water quality and mud quality with an artificial tideland simultaneously with the effective use of waste by utilizing coal ash produced from a thermal electric power plant and dredged sediment and the like of a dam for the artificial tideland. <P>SOLUTION: In this artificial tideland development method of artificially developing the tideland at the mouth of a river or in an area t along the coast, mud 3 such as dredged soil is buried in a tideland development lot 2 at the mouth of the river or in the area t along the coast to form a lower stage reclaimed soil layer 4. Coal ash granules 5 are then laid in an upper layer of the reclaimed soil layer 4 to form a coal ash granule layer 6. Mud 3 is further buried to form an upper reclaimed soil layer 7 in an upper layer of the coal ash granule layer 6, and the coal ash granules 5 are formed in almost column shape in the reclaimed soil layer. In this case, a plurality of coal ash granules 5 are inserted and arranged in staggered or grated shape. The whole surface of the reclaimed soil layer is then covered with covering sand 9 so as to have a predetermined thickness. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an artificial tidal flat construction method for artificially constructing a tidal flat in an estuary or a coastal area, and a coal ash columnar body used therefor.

  Conventionally, forestry, agriculture, and fishery have been well-balanced from river basins to estuaries and seas. Nutrients from the mountain penetrated into this river basin and spread to the mouth of the river, forming a water area where tidal flat seaweed beds where fish and shellfish tend to inhabit spread. The corals, shellfish, etc. that inhabit such tidal flats naturally contributed to water and sediment purification through their own life support activities.

  In recent years, the inflow of sediment into the estuaries or coastal areas has decreased due to the construction of dams in the upstream of rivers, or the loss of tidal flats has expanded due to landfills in the estuaries or coastal areas. Therefore, from the viewpoint of environmental restoration, tideland restoration projects are being addressed in various places. In addition, the earth and sand used for tidal flat construction is a lot of mud such as harbor dredged soil, and it takes a considerable number of years to adapt as a tidal flat where organisms tend to live.

Various techniques for artificially constructing tidal flats have been proposed. For example, as shown in Japanese Patent Application Laid-Open No. 10-152890, “Artificial sandy beaches / tidal flats, etc.”, an artificial sandy beach, tidal flats, etc. created on the front of the revetment, Continuing in parallel with the front of the revetment, creating a suitable depth, and filling the inside of the bowl-shaped structure with sand or other fillers will hinder the use of water bodies and waterways In addition, a small amount of sand is necessary for the construction, there is no risk of affecting the habitat of attached organisms and fish that lived corresponding to the vertical walls of the revetment, and the front of the revetment without sacrificing ecology In addition, techniques for artificially creating sandy beaches and tidal flats have been proposed.
Japanese Patent Laid-Open No. 10-152819

As shown in Japanese Patent Laid-Open No. 6-280236, “Artificial Tidal Flat Construction Method” in Patent Document 2, a partition revetment for constructing a landfill is created, and a part of the partition revetment is in contact with the partition revetment. After creating the lower layer, spraying the surface sand mud collected from natural tidal flats on the lower layer and building the surface layer of the artificial tidal flat, landfilling the inside of the partition revetment creates the ecosystem A technology that can be recovered and restored in the same way as a natural tidal flat and that is constructed early after the ecosystem is constructed has been proposed.
JP-A-6-280236

In addition, as a technique for effectively using dredged soil, as shown in Japanese Patent Application Laid-Open No. 2003-268745, “Artificial tidal flat and its production method”, Patent Document 3 is a construction material in which an organic substance-mixed material and a sand material are mixed. Is an artificial tidal flat constructed by using 2 to 15 mg of chemical oxygen demand (COD) per 1 g of dry weight, and has excellent soil and water purification and biological growth effects, and dredged soil , Or the technology to create artificial tidal flats that can effectively use materials mixed with organic matters such as unnecessary materials discharged in the aquaculture business or food manufacturing process, and do not need to supply clean sand and sandy soil from the outside. Proposed.
JP 2003-268745 A

In addition, as shown in Japanese Patent Application Laid-Open No. 2004-49933 of “Patent Document 4”, the mud accumulated in the bottom of the water is dredged, then the dredged mud is separated into soil and sand, and then the mud that has been separated into soil is separated. In order to dewater dredged mud soil by laying a cloth formwork on the bottom of the coastal area of the sea, lakes, etc., and filling the cloth formwork with the primary dewatering cake generated by the centrifugation. There is proposed a technique for treating dredged mud to prevent the progress of water contamination without having to secure a site for disposal of the dehydrated cake and the dehydrated cake, and effectively utilizing the dehydrated cake generated at that time.
JP 2004-49933 A

However, although the technique of the above-mentioned Patent Document 1 is suitable for a method of creating a sandy beach or a tidal flat using a creation frame in contact with the front of the revetment, there is a problem that the mud quality and water quality cannot be improved. there were.
The technique of the above-mentioned patent document 2 is a method of creating a conventional natural tidal flat on the surface layer by making a foundation using mud or the like. The technique of patent document 3 is an artificial tidal flat excellent in the effect of purifying soil and water quality and the effect of biological growth. However, none of them effectively used coal ash generated in large quantities from a thermal power plant.

  Although the technique of the said patent document 4 uses the dewatering cake of harbor dredging mud as a mat-like composition, there existed a problem that water quality and a mud quality could not be improved efficiently in the artificially constructed tidal flat.

  The present invention has been developed to solve such problems. The inventor of the present invention paid attention to whether coal ash generated in large quantities from a thermal power plant can be effectively used for the construction of tidal flats. At the dam of the hydroelectric power station, the sediment was removed to avoid power generation problems, and attention was paid to whether a large amount of finely divided sediment generated from this could be used effectively. That is, the object of the present invention is not only to effectively use waste by using coal ash generated from a thermal power plant and dredged sand of a dam for an artificial tidal flat, but at the same time, water quality and mud quality by the artificial tidal flat. It is an object of the present invention to provide an artificial tidal flat construction method and a coal ash columnar body used therefor.

According to the creation method of the present invention, an artificial tidal flat creation method for artificially creating a tidal flat in the estuary or coastal area (t), which is in the tidal flat formation section (2) in the estuary or coastal area (t). The lower landfill soil layer (4) is formed by burying mud soil (3) such as dredged soil, and then the coal ash granule (5) is laid on the upper layer of the lower landfill soil layer (4). A coal ash granulated layer (6) is formed, and mud soil (3) is further buried in the upper layer of the coal ash granulated layer (6) to form an upper landfill layer (7), and the upper stage The coal ash granule (5) is formed in a substantially columnar shape in the landfill layer (7), and a plurality of the coal ash granules (5) are arranged in a zigzag or lattice shape, and the entire surface of the upper landfill layer (7) Further, a method for constructing an artificial tidal flat is provided in which the sand covering (9) is covered with a predetermined thickness.
In the landfill layer in the tidal flat formation section (2), a plurality of coal ash pillars (8) are arranged in a staggered pattern or a lattice pattern. ) Is preferably arranged so as not to form.
A mixture of sand, coal ash granulated material, clay and the like is used for the sand covering (9).
The sand cover (9) is used in combination of two or more of sand, coal ash granulated material or dredged soil.
A plurality of the coal ash granules (5) formed in a substantially columnar shape may be inserted into the lower landfill layer (4) so as to form a staggered pattern or a lattice pattern.

The coal ash columnar body of the present invention is a landfill soil layer (4, 7) in which mud soil (3) such as dredged soil is embedded in a tidal flat constructed section (2) partitioned into a predetermined shape in an estuary or a coastal part (t). A coal ash columnar body (8) used to arrange and improve the mud suitable for tidal flats at an early stage, insolubilizing and fixing the mud soil (3) and phosphorus in the water, Made of good material,
A coal ash columnar body having a substantially columnar shape so as to be embedded in the landfill layer (4, 7) in the vertical direction is provided.
The coal ash columnar body (8) is formed in a substantially cylindrical shape, a substantially conical shape, or a substantially prismatic shape.

In the construction method with the above configuration, when artificially constructing a tidal flat in the estuary or coastal area (t), the lower landfill layer (4) and the upper landfill layer (7) are filled with dredged sand and harbor dredging. Sediment can be used. Furthermore, this earth and sand can be used in large quantities as sand covering (9) covering the entire surface of the upper landfill layer (7). Moreover, coal ash generated in large quantities from a thermal power plant can be used in large quantities as coal ash granulated material (5).
In particular, according to such a two-layer structure consisting of the lower landfill layer (4) and the upper landfill layer (7), water circulation to the inside of the constructed tidal flat occurs, reducing the dispersion of sand cover (9) due to waves, etc. It is possible to increase the degree of establishment as an artificial tidal flat.

  In the artificial tidal flat constructed in this way, a large amount of oxygen is supplied to the lower landfill layer (4) and the upper landfill layer (7) through the coal ash column (8) by the tide, and the reduced state of the mud (3) Disappears. As a result, the mud soil (3) of the landfill layer (4, 7) becomes an aerobic state, the generation of hydrogen sulfide is suppressed, and the mud quality of the landfill layer (4, 7) is favorable for living organisms. Can be improved. Moreover, in the landfill soil layer in which the land-side coal ash granule layer (6) in the tidal flat formation section (2) is omitted, the water accumulated in the coal ash columnar body (8) is formed. By gradually penetrating into the mud (3), the mud quality of the landfill layer can be improved to a favorable environment for living organisms.

  In the coal ash columnar body (8) having the above-described structure, the coal ash granule has not only the improvement of the mud quality because it has the ability to fix phosphorus, but also the fixation of phosphorus contained in the mud (3). Thus, elution of phosphorus into water can be suppressed, and water quality can be improved.

  The artificial tidal flat creation method of the present invention uses waste as effective, uses dredged earth and sand as a landfill soil layer, and uses coal ash generated from a thermal power plant in large quantities as coal ash granules. It is a method to improve the water quality and mud quality of artificial tidal flats.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a schematic view for explaining a method for constructing an artificial tidal flat according to Embodiment 1 of the present invention. FIG. 2 is a flowchart showing a method for creating an artificial tidal flat according to the first embodiment. FIG. 3 is a schematic diagram illustrating the order of creation of the artificial tidal flat of Example 1, (a) is the formation of the tidal flat formation section, (b) is the formation of the lower landfill layer and the coal ash granulated layer, (c ) Is the formation of the upper landfill layer and the arrangement of the columnar bodies of the coal ash granulated material, and (d) is the covering of the sand cover.
In the artificial tidal flat creation method according to the first embodiment of the present invention, first, the submerged dike 1 is arranged in a predetermined shape so as to partition the tidal flat to be artificially constructed at the estuary or the coastal part t, and the tidal flat formation section 2 is provided. . A mud 3 is buried in the tidal flat construction section 2 to form a lower landfill layer 4. The mud 3 is mainly made from sedimentary sediment generated from a dam of a hydroelectric power plant. As this mud 3, it is of course possible to use dredged mud other than the dam of the hydroelectric power plant. Since the submerged dam 1 requires circulation of seawater with the sea, it is made of a material having water permeability.

Next, the coal ash granulated material 5 is laid on the upper layer of the lower landfill soil layer 4 to form the coal ash granulated material layer 6. As this coal ash granulated material 5, coal ash generated in large quantities from a thermal power plant is used. Further, mud 3 is buried in the upper layer of the coal ash granulated material layer 6 to form the upper landfill layer 7. For example, in order to secure a certain amount of water retention in the mud on the land side from the aspect of biological environment, as shown in FIG. Only the seepage column is formed in the landfill layer.
In addition, when the conventional ground is mud such as silt, the coal ash granulated layer 6 may be formed before the lower landfill layer 4 is formed.

  Instead of the coal ash granulated material 5, it is also possible to use granular materials (not shown) such as sand or gravel with good water permeability.

  In this upper landfill layer 7, a plurality of coal ash columnar bodies 8 in which coal ash granules 5 are formed in a substantially columnar shape are inserted into the landfill soil layer 7 so as to be staggered or latticed as described later. To do. The coal ash columnar body 8 has a function of improving mud and water quality by fixing phosphorus in water.

  Seawater circulates through the coal ash pillars 8 and the coal ash granulated layer 6 due to fluctuations in water pressure due to tides, tidal currents and waves, and supplies oxygen to the mud 3 to a favorable environment for living organisms. It can be modified.

  The covering sand 9 is placed over the entire surface of the upper landfill layer 7 so as to have a predetermined thickness. For the sand cover 9, a mixture of sand, coal ash granulated material, clay and the like is used. The sand cover 9 is used in combination of two or more kinds of sand, coal ash granulated material or clay. The artificial tidal flat creation is completed by covering the sand cover 9.

FIG. 4 is a schematic diagram for explaining a method for creating an artificial tidal flat according to Embodiment 2 of the present invention. FIG. 5 is a flowchart showing a method for creating an artificial tidal flat according to the second embodiment. FIG. 6 is a schematic diagram illustrating the order of creation of the artificial tidal flat of Example 2, (a) is the formation of the tidal flat formation section, (b) is the formation of the lower landfill layer and the arrangement of the coal ash pillars, (c ) Is the formation of a coal ash granulated layer, (d) is the formation of the upper landfill layer and the arrangement of the columnar bodies of coal ash, and (e) is the covering of the sand cover.
The method for creating an artificial tidal flat of Example 2 of the present invention is basically the same as the method of Example 1 except that the coal ash granulated material 5 is also formed in a substantially columnar shape in the lower landfill layer 4. A feature is that a plurality of coal ash pillars 8 are inserted and arranged in a staggered pattern or a grid pattern. Thus, seawater circulates through the coal ash columnar body 8 and the coal ash granulated material layer 6, and oxygen can be supplied to the mud 3 to improve the environment suitable for living organisms. Even in the case of Example 2, when the conventional ground is mud such as silt, the coal ash granulated layer 6 may be formed before the lower landfill layer 4 is formed.

FIG. 7 is a front view of Example 3 in which a coal ash columnar body is formed in a substantially cylindrical shape. FIG. 8 is a front view of a modified example of Example 3 in which the coal ash columnar body is formed in a substantially conical shape. FIG. 9 is a front view of a modified example of Example 3 in which the coal ash columnar body is formed in a substantially prismatic shape.
The coal ash column of Example 3 of the present invention insolubilizes and fixes the landfill soil layers 4 and 7 and phosphorus in the water, and is made of a material having good water permeability. It has a vertically long substantially columnar shape so that it can be embedded. For example, the coal ash columnar body 8 was formed in a substantially cylindrical shape. This is to facilitate the placement into the landfill layers 4 and 7. This coal ash columnar body 8 is obtained by forming a coal ash granulated material into a substantially columnar shape. For example, as described above, a coal ash material obtained by adding coal ash to a main material and granulating it by a granulation method can be used. As shown in FIG. 7, the coal ash columnar body 8 may be formed in a substantially cylindrical shape so that many voids are formed like a sintered metal (powder metallurgy).

  The shape of the coal ash columnar body 8 is not limited to a substantially cylindrical shape, and can be formed into a substantially conical shape as shown in FIG. 8 or a substantially prismatic shape as shown in FIG.

  In addition, the present invention not only uses waste effectively but also improves the water quality and mud quality of the artificial tidal flat at the same time by using coal ash generated from the thermal power plant and dredged sand of the dam for the artificial tidal flat. If it can do, it is not limited to embodiment of the invention mentioned above, The construction method of the artificial tidal flat is not restricted to the method mentioned above, You may arrange | position with arbitrary patterns. Moreover, the shape of the coal ash columnar body 8 may be an arbitrary shape, and can be variously changed without departing from the gist of the present invention.

  As described above, according to the artificial tidal flat creation method of the present invention and the coal ash columnar body used therefor, it can be used for a tidal flat construction project for repairing a tidal flat disappeared in an estuary or a coastal area.

It is the schematic explaining the construction method of the artificial tidal flat of Example 1 of this invention. It is a flowchart which shows the creation method of the artificial tidal flat of Example 1. FIG. It is the schematic explaining the creation order of the artificial tidal flat of Example 1, (a) is formation of a tidal flat formation section, (b) is formation of a lower landfill soil layer and a coal ash granule layer, (c) is an upper stage. The formation of the landfill layer and the arrangement of the columnar bodies of the coal ash granulated material, (d) is the covering of the sand covering. It is the schematic explaining the construction method of the artificial tidal flat of Example 2 of this invention. It is a flowchart which shows the construction method of the artificial tidal flat of Example 2. It is the schematic explaining the creation order of the artificial tidal flat of Example 2, (a) is formation of a tidal flat formation section, (b) is formation of a lower landfill layer and arrangement | positioning of a coal ash columnar body, (c) is coal. Formation of ash granulated material layer, (d) is formation of upper landfill layer and arrangement of columnar body of coal ash, (e) is covering sand-covering. It is a front view of Example 3 which formed the coal ash columnar body in the substantially cylindrical shape. It is a front view of the modification of Example 3 which formed the coal ash columnar body in the substantially cone shape. It is a front view of the modification of Example 3 which formed the coal ash columnar body in the substantially prismatic shape.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Submerged dike 2 Tidal flat formation 3 Mud 4 Lower landfill layer 5 Coal ash granulation 6 Coal ash granulation layer 7 Upper landfill layer 8 Coal ash columnar body 9 Covered sand t Estuary or coastal area

Claims (9)

An artificial tidal flat construction method for artificially constructing a tidal flat in an estuary or coastal area (t),
The lower landfill soil layer (4) is formed by burying mud soil (3) such as dredged soil in the tidal flat formation section (2) in the estuary or coastal part (t),
Next, a coal ash granule (5) is laid on the lower landfill layer (4) to form a coal ash granule layer (6),
Further, mud (3) is embedded in the upper layer of the coal ash granulated material layer (6) to form an upper landfill soil layer (7), and the coal ash granulated material (7) 5) is formed in a substantially columnar shape, and a plurality of these are inserted and arranged in a zigzag or lattice shape,
A method for constructing an artificial tidal flat, wherein the entire surface of the upper landfill layer (7) is covered with sand covering (9) to a predetermined thickness. In the landfill layer in the tidal flat formation section (2), a plurality of coal ash pillars (8) are arranged in a staggered pattern or a lattice pattern. The method for producing an artificial tidal flat according to claim 1, wherein: The method for creating an artificial tidal flat according to claim 1, wherein a mixture of sand, coal ash granulated material, dredged soil, and the like is used for the sand covering (9). The method for creating an artificial tidal flat according to claim 2, wherein two or more kinds of sand, coal ash granulated material, or dredged soil are used in combination for the sand covering (9). A plurality of the coal ash granules (5) formed in a substantially columnar shape are inserted into the lower landfill layer (4) so as to form a staggered pattern or a lattice pattern. 1 artificial tidal flat construction method. It is also suitable for tidal flats in the estuary or coastal area (t) by placing it in a landfill layer (4, 7) in which mud soil (3) such as dredged soil is embedded in a tidal flat construction section (2) partitioned into a predetermined shape. The coal ash columnar body (8) used when improving early to the mud,
Insolubilize and fix the mud (3) and phosphorus in the water, and made of a material with good water permeability,
A coal ash columnar body having a substantially columnar shape so as to be embedded in the landfill soil layer (4, 7) in a vertical direction. The coal ash columnar body according to claim 6, wherein the coal ash granule (5) is formed in a substantially cylindrical shape. The coal ash columnar body according to claim 6, wherein the coal ash granule (5) is formed in a substantially conical shape. The coal ash columnar body according to claim 6, wherein the coal ash granule (5) is formed in a substantially prismatic shape.

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