JP2020114785A - Environmental load reducing material, method of developing solitary island, coral growing bed, and method of growing coral - Google Patents

Abstract

To provide an environmental load reducing material capable of reducing an environmental load, a method of developing a solitary island, a coral growing bed, and a method of growing coral.SOLUTION: The environmental load reducing material for use in construction work on a solitary island, comprises a material comprising a combustion byproduct as a main component thereof. The combustion byproduct is coal ash of an optimum water content of from 19 to 40%. The coal ash is one which has been aged at the optimum water content for a period of three months. The maximum stress of the coal ash alone is 0.01 to 0.3 N/mm2 and that of a mixture of the coal ash and cement externally added thereto in the amount of 3 mass% is 0.3 to 1.5 N/mm2, at an age of 7 days.SELECTED DRAWING: None

Description

The present invention relates to an environmental load reducing material suitable for use as a material for remote island development work, a remote island developing method, a coral growth base and a coral growing method using the environmental load reducing material.

Conventionally, the procurement of building materials and civil engineering materials on remote islands has been a difficult issue when considering the environmental load. For example, the Ogasawara Islands are famous as a habitat for Maimai, but if you bring in soil from the mainland as a civil engineering work or as a tourist land, there is a possibility that the island of Planai, the natural enemy of Maimai, may be present in the remote island. May affect the environment. However, since the procurement of materials on remote islands may cause environmental damage, it is necessary to acquire materials that do not contain alien species. As such a material, for example, heat-sterilized earth and sand can be used, but when bringing it from the mainland to a remote island, processing costs are required in addition to transportation costs, which increases costs.

Examples of heat-treated materials that can be used on remote islands include perlite and vermiculite that are used as soil improvement materials. The main components of perlite are silicon oxide and aluminum oxide, and the main components of vermiculite are silicon oxide, aluminum oxide and magnesium oxide, which are used nationwide for soil improvement.

On the other hand, as a material that uses coal ash as a material, for example, a ready-made ash granulated material described in Patent Document 1 is known. This is a mixture containing crushed ready-made ash obtained by crushing a lump of ready-made ash dug out of a landfill, cement, and waste gypsum for adjusting the water content in the crushed ready-made ash. It is obtained by granulating.

JP, 2017-088847, A

By the way, the main components of combustion byproducts such as coal ash are the same as those of perlite and vermiculite. The combustion byproducts include coal ash, mineral slag, iron ore slag, non-ferrous slag, and coal ash slag from IGCC (combined coal gasification combined cycle). Etc. are available. Since coal ash and slag are combustion by-products generated from thermal power plants and metal manufacturing establishments, they do not need to be burned like perlite and vermiculite. In addition, thermal power plants and metal manufacturing businesses are often located along the coast, so combustion byproducts can be said to be materials that can be expected to reduce transportation costs.

The present invention has been made in view of the above, and an object thereof is to provide an environmental load reducing material, an isolated island development method, a coral growth base, and a coral growth method capable of reducing the environmental load.

In order to solve the above problems and achieve the object, an environmental load reducing material according to the present invention is an environmental load reducing type material used for construction on a remote island, and is composed of a material containing a combustion byproduct as a main component. It is characterized by

Further, another environmental load reducing material according to the present invention, in the above-mentioned invention, the combustion by-product is coal ash having an optimum water content ratio of 19% to 40%, and this coal ash has an aging period at the optimum water content ratio. The maximum stress at the age of 7 days is 0.01 to 0.3 N/mm ^{2 for} the coal ash simple substance, and 3% by mass of the cement added to the coal ash simple substance in the outer ratio. It is characterized by being 3 to 1.5 N/mm ² .

Further, the remote island development method according to the present invention is a method of developing a remote island using the above-mentioned environmental load reducing material, and a step of procuring a combustion by-product or an environmental load reducing material outside the remote island or the remote island, and procuring. Process combustion by-products into environmentally friendly materials and then bring them into a remote island development point, or procure combustion by-products into remote islands and then process into environmentally friendly materials or procure them. The present invention is characterized by including a step of loading the environmental load reducing material to a development point on a remote island and a step of using the loaded or processed environmental load reducing material as a material for development.

Further, the coral growth base according to the present invention is a base used for growing the coral that has settled, wherein the constituent material of the base is composed of a mixture of coal ash as a main component and cement, To do.

Further, the coral growth method according to the present invention is a method for growing coral, and a base made of a mixture of coal ash as a main component and cement, and by allowing the coral to grow, Characterized by growing corals.

The environmental load reducing material according to the present invention is an environmental load reducing type material used for construction on a remote island, and is composed of a material containing combustion by-products as a main component, so that the environmental load on the remote island can be reduced. It has the effect of being able to. Further, it is possible to effectively utilize combustion byproducts such as coal ash.

Further, according to another material for reducing environmental load according to the present invention, the combustion by-product is coal ash having an optimum water content ratio of 19% to 40%, and this coal ash has an aging period of 3 months at the optimum water content ratio. The maximum stress at the age of 7 days is 0.01 to 0.3 N/mm ^{2 for} the coal ash simple substance, and 0.3 to 1 for the cement ash simple substance added with 3% by mass of cement. Since it is 0.5 N/mm ^2, it is possible to reduce the environmental load on remote islands. In addition, it is possible to effectively use the coal ash.

Further, according to the remote island development method according to the present invention, a method of developing a remote island using the environmental load reducing material described above, the step of procuring a combustion by-product or an environmental load reducing material outside the remote island or the remote island, Either process the procured combustion by-products into an environmental impact reduction material and then carry them into a remote island development point, or carry the procured combustion byproducts into a remote island development point and then process them into an environmental impact reduction material, or It has the steps of bringing in the procured environmental load reduction materials to the development points of remote islands and using the loaded or processed environmental load reduction materials as materials for development, so it is possible to develop remote islands while reducing the environmental load of remote islands. The effect that construction can be carried out is exhibited. Further, it is possible to effectively utilize combustion byproducts such as coal ash.

Further, according to the coral growth base according to the present invention, which is a base used for growing the coral that has settled, the constituent material of the base is composed of a mixture of coal ash as the main component and cement, The coral can be grown while reducing the environmental load on the ocean. In addition, it is possible to effectively use the coal ash.

Further, according to the coral growth method according to the present invention, a method for growing coral, in which a coral ash as a main component and a base material having a mixture of cement as a constituent material are used to grow the coral. As a result, corals are grown, so that it is possible to grow corals while reducing the environmental load on the ocean. In addition, it is possible to effectively use the coal ash.

FIG. 1 is a side view showing an embodiment of a coral growth base and a coral growth method according to the present invention. FIG. 2 is a diagram showing physical property values of coal ash.

Embodiments of an environmental load reducing material, a remote island development method, a coral growth base, and a coral growth method according to the present invention will be described below in detail with reference to the drawings. The present invention is not limited to this embodiment.

(Environmental load reduction materials)
First, an embodiment of the environmental load reducing material according to the present invention will be described.

The environmental load reducing material according to the present embodiment is an environmental load reducing type material used for construction on remote islands. This environmental load reducing material is made of a material whose main component is combustion by-products.

As the combustion by-product, for example, coal ash, slag, iron ore slag, non-ferrous slag, coal ash slag, and other substances that are secondarily produced during the combustion process can be used. Such combustion byproducts are produced through heat treatment from, for example, a thermal power plant or a business of a metal manufacturing industry. Therefore, the combustion by-product can be used on the remote island as a heat-treated material that can reduce the load on the remote island environment. In the present embodiment, by using the combustion by-product as the main component of the material, it is not necessary to perform firing unlike perlite or vermiculite that has been conventionally used as a soil improving material or the like. Therefore, the heat treatment cost can be eliminated.

In addition, thermal power plants and metal manufacturing businesses are often installed along the coast, so the cost of transporting combustion byproducts to remote islands can be suppressed. If a thermal power plant or a metal manufacturing business is located on a remote island, transportation costs can be further reduced by using the combustion by-products generated from this site.

There are three possible modes of the environmental load reducing material, "direct use", "mixed use", and "processing use", depending on the use mode of the combustion by-product which is the main component.

“Direct use” is an environmental load reduction material that uses combustion by-products alone. That is, this environmental load reducing material consists of a single substance of combustion by-products and does not contain a mixed material other than the combustion by-products.

“Mixed use” is an environmental load reducing material in which a mixed material is added to a combustion by-product according to the purpose or use of the environmental load reducing material. As the mixed material, for example, a solidifying material such as cement can be used. For example, when the environmental load reducing material requires a certain strength or more, a solidifying material such as cement is added to the combustion by-product to improve the strength.

For example, when coal ash is used as a combustion by-product, coal ash, a solidifying material such as cement, and water may be mixed in a predetermined composition and used as a slurry-like environmental load reducing material. Here, it is preferable to measure the optimum water content ratio of coal ash regardless of dry ash or wet ash, and adjust the material properties in consideration of the self-hardening property of the coal ash and the strength development of cement.

FIG. 2 shows the physical property values of coal ash suitable for use as combustion by-products collected from various locations in Japan. Regarding the dry density (g/cm ³ ), JIS A 1202 (Density test method for soil particles: measured by pycnometer) is used, and regarding the maximum dry density (g/cm ³ ), the optimum water content (%) is JIS A 1210 ( Soil compaction test method by tamping: According to tamping method A), for maximum stress (N/mm ² ) according to JIS A 1216 (Soil uniaxial compression test method: age 7 days, specimen 50 mm x 100 mm) It was measured. As shown in this figure, the coal ash used as a combustion by-product preferably has an optimum water content ratio of about 19% to 40%. In addition, the aging period at the optimum water content is about 3 months, the maximum stress at the age of 7 days is about 0.01 to 0.3 N/mm ^{2 for} the coal ash alone, and the cement for the coal ash alone is 3%. It is preferable that the amount added is about 0.3 to 1.5 N/mm ² with the addition of mass%.

"Processing and utilization" is to produce a granulated product (for example, coal ash granulated product) or a secondary product using a combustion by-product as a main component, and use the produced product as an environmental load reducing material. The granulated product and the secondary product can be produced by mixing, for example, a combustion byproduct and a solidifying material such as cement.

According to the present embodiment, by using the combustion by-product as a material for construction and civil engineering on remote islands, it is possible to suppress the effect of living organisms (eg planaria) hidden in materials brought in from the mainland on the ecosystem of remote islands. be able to. Therefore, the environmental load of the remote island can be reduced. Further, it is possible to effectively utilize combustion byproducts such as coal ash. In particular, it is extremely effective when a large amount of material is needed, such as port construction on remote islands, seawall construction, and airport construction.

(Remote island development method)
Next, an embodiment of the remote island development method according to the present invention will be described.

The remote island development method according to the present embodiment is a method of developing a remote island using the above-described environmental load reducing material. This method can be implemented by the following steps S1 to S3.

First, in step S1, an environmental load reducing material is procured on a remote island or outside the remote island. In the next step S2, the procured environmental load reducing materials are carried into a development point on a remote island. In the next step S3, the introduced environmental load reducing material is used as a material for development.

By doing so, it is possible to carry out remote island development work while reducing the environmental load on the remote island. Further, it is possible to effectively utilize combustion byproducts such as coal ash.

In the above steps S1 to S3, the combustion by-product may be procured on the remote island or outside the remote island instead of the environmental load reducing material. After that, the procured combustion by-products may be processed into environmental load reduction materials and then carried into the remote island development point, or the procured combustion byproducts may be processed into remote island development points and then processed into environmental load reduction materials. Good. Then, the environmental load reducing material that has been carried in or processed may be used as a material for development.

(Coral growth base)
Next, an embodiment of the coral growth base according to the present invention will be described.

In recent years, there is a tendency that coral calcification is inhibited by the effect of ocean acidification, which is a decrease in the pH value of ocean surface water due to carbon dioxide. Therefore, in the present embodiment, as a seawater acidification countermeasure for coral growth, a coal ash product containing coal ash as a main component among the above combustion byproducts is used. Supporting the growth of coral-like organisms that produce particularly sensitive aragonite crystalline calcium carbonate shells by localizing the neutralization of coal ash products with basic substances in the coal ash. Is possible.

FIG. 1 shows a coral growth base according to the present embodiment. As shown in this figure, the coral growth base 10 according to the present embodiment is installed, for example, on the seabed G, and a coral 12 can settle around the surface thereof. The constituent material of the coral growth base 10 is a coal ash product containing coal ash as a main component.

When the coral growth base 10 is manufactured, coal ash, a solidifying material such as cement, and water are kneaded in a predetermined composition to prepare a mixture, and the mixture is used to manufacture the coral growth base 10. The mixture may be used in a processed form such as a slurry, a granulated product, and a secondary product. By installing the produced coral growth base 10 in the sea, an environment required for coral growth can be formed. The coral growth base 10 can be used as a transplant base or a coral aquaculture base necessary for coral relocation in port construction or seawall construction.

According to the present embodiment, since the coal ash product containing coal ash as the main component is used as the constituent material of the coral growth base 10, the local neutrality around the coral growth base 10 due to the basic substance in the coal ash. And the ocean acidification can be suppressed. Therefore, corals can be grown while reducing the environmental load on the ocean. In addition, coal ash can be effectively used.

In the above embodiment, the case where the coral growth base 10 is installed on the seabed G as a bottom has been described as an example, but the installation location of the coral growth base 10 is not limited to this. For example, it may be installed in any place in the sea where corals can grow. Further, the shape of the coral growth base 10 is illustrated as a dish having a concave portion on the upper surface in FIG. 1, but the shape is not limited to this. For example, it may be flat, hilly, rocky, block, or granular. Even in this way, the set coral can grow.

(Coral growth method)
Next, an embodiment of the coral growing method according to the present invention will be described.

As shown in FIG. 1, the coral growing method according to the present embodiment grows a coral by allowing the coral 12 to grow on the coral growing base 10. Since the same coral growth base 10 as that of the above-mentioned embodiment is used, detailed description thereof will be omitted.

According to the present embodiment, since the coral growth base 10 containing coal ash as the main component is used, local neutralization around the coral growth base 10 due to the basic substance in the coal ash is achieved, and ocean acidification is achieved. Can be suppressed. Coral can be grown while reducing the environmental load of the ocean. In addition, it is possible to effectively use the coal ash.

As described above, according to the environmental load reducing material of the present invention, the environmental load reducing type material used for construction on remote islands is composed of a material containing combustion by-products as a main component. The load can be reduced. Further, it is possible to effectively utilize combustion byproducts such as coal ash.

Further, according to another material for reducing environmental load according to the present invention, the combustion by-product is coal ash having an optimum water content ratio of 19% to 40%, and this coal ash has an aging period of 3 months at the optimum water content ratio. The maximum stress at the age of 7 days is 0.01 to 0.3 N/mm ^{2 for} the coal ash simple substance, and 0.3 to 1 for the cement ash simple substance added with 3% by mass of cement. Since it is 0.5 N/mm ² , the environmental load on the remote island can be reduced. In addition, it is possible to effectively use the coal ash.

Further, according to the remote island development method according to the present invention, a method of developing a remote island using the environmental load reducing material described above, the step of procuring a combustion by-product or an environmental load reducing material outside the remote island or the remote island, Either process the procured combustion by-products into an environmental impact reduction material and then carry them into a remote island development point, or carry the procured combustion byproducts into a remote island development point and then process them into an environmental impact reduction material, or It has the steps of bringing in the procured environmental load reduction materials to the development points of remote islands and using the loaded or processed environmental load reduction materials as materials for development, so it is possible to develop remote islands while reducing the environmental load of remote islands. Construction can be carried out. Further, it is possible to effectively utilize combustion byproducts such as coal ash.

Further, according to the coral growth base according to the present invention, which is a base used for growing the coral that has settled, the constituent material of the base is composed of a mixture of coal ash as the main component and cement, Coral can be grown while reducing the environmental load of the ocean. In addition, it is possible to effectively use the coal ash.

Further, according to the coral growth method according to the present invention, a method for growing coral, in which a coral ash as a main component and a base material having a mixture of cement as a constituent material are used to grow the coral. Since corals are grown by the method, it is possible to grow corals while reducing the environmental load on the ocean. In addition, it is possible to effectively use the coal ash.

As described above, the environmental load reducing material, the remote island development method, the coral growth base and the coral growth method according to the present invention are useful for remote island development and coral growth, and are particularly suitable for reducing the environmental load. ..

10 Coral growth base 12 Coral G seabed

Claims (5)

A material that reduces the environmental load used for construction on remote islands,
An environmental load reducing material that is made of a material whose main component is combustion by-products. The combustion by-product is coal ash having an optimum water content of 19% to 40%, and this coal ash has an aging period of 3 months at the optimum water content, and the maximum stress at the age of 7 days is the coal ash. 0.01~0.3N / mm ² alone, to claim 1, characterized in that the cement coal ash alone is 0.3~1.5N / mm ² at those added by outer percentage 3% Environmental load reduction materials listed. A method for developing a remote island using the environmental load reducing material according to claim 1 or 2,
Procuring combustion by-products or environmental load reducing materials on or off remote islands,
Either process the procured combustion by-products into an environmental load reduction material and then carry them into a remote island development point, or carry the procured combustion byproducts into a remote island development point and then process them into an environmental load reduction material, or The step of bringing in the procured environmental load reduction materials to the development point on the remote island,
A method for developing a remote island, comprising the step of using a material for reducing environmental load that has been carried in or processed as a material for development. The base used to grow the settled corals,
A coral growth base characterized in that the base material is a mixture of coal ash, which is the main component, and cement. A method for growing corals,
A method for growing corals, which comprises growing the corals on a base composed of a mixture of coal ash, which is a main component, and cement.

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