KR100650268B1 - Slag based reefs for marine ranching - Google Patents

Abstract

A sea jungle construction facility using slag is provided to secure high resisting power against subsidence and siltation and to increase the growth of seaweeds due to an iron fertilization effect. The sea jungle construction facility using slag is composed of a retaining wall(3), sea jungle reefs, and artificial fishing banks(4) produced by mixing steel making slag passing through a curing process with manure(1) and dialyzing materials(2) produced by crushing the steel making slag, removing impurities, and sorting the grain size and then molding the mixture. The steel making slag is cured with controlling the volume expansivity below 0.2%. Coarse and fine aggregates are mixed and molded by using the cured steel making slag. The retaining wall is installed by the slag or slag structure, the manure and dialyzing material are filled into the retaining wall, and then the sea jungle reefs and artificial fishing banks are finally built on the upside.

Description

Slag based reefs for marine ranching

1 is an explanatory diagram of a facility for the construction of a marine forest using slag of the present invention;

2 to 4 are photographs of algae attached to the surface of the facility after one month after installation of the facility for the construction of the marine forest using the slag of the present invention.

* Explanation of symbols for the main parts of the drawings

1: covering material 2: dialysis material 3: retaining wall

4: seaweed forest and artificial reef

The present invention is a facility for the construction of marine deforestation using slag, and the retaining wall structure manufactured through mixing and molding process by adjusting the volume expansion rate to 0.2% or less by curing the cover material, dialysis material and steelmaking slag manufactured by adjusting the size of steelmaking slag and It relates to a facility for the construction of a marine forest using slag, characterized in that consisting of marine forest and artificial reefs.

The facility for the construction of the marine forest using the slag of the present invention is to recycle the by-products generated in the steelmaking process of the steel mill, and when installed in the facility sea area, in addition to promoting the algae habitat, improving the environment by improving the water quality of the lower layer, sand or soft ground In addition, it is possible to provide an effective marine forest facility that is resistant to sinking and buried and has a high algae smearing effect by iron fertilization function.

Existing artificial reefs and marine deforestation have generally used concrete and natural stone, and recently, artificial reefs and marine reefs of new materials such as forced reefs have been developed. Artificial reefs and seaweeds aim to increase the productivity of aquatic resources by restoring or improving the devastated coastal environment. The requirements are to have a friendly effect on the habitat of seaweeds and animals, The effect should be great.

Looking at the characteristics of the conventional reef structure that is being used or invented but not used has the following features.

First, in the case of the most common concrete reefs, the material cost is low and the manufacturing process is simple, so the production cost is low. Therefore, it is possible to install a large amount of artificial reefs on a limited budget. However, there is no special material functionality related to the promotion of the marine life that artificial reefs and marine deforestation should have, and the disadvantage is that only the form can be relied on to express unique functionality.

Korean Patent Laid-Open Publication No. 2000-0003279 (January 15, 2000) proposes the construction of structures from 20-80% of converter and electric furnace slag, 10-70% of iron-containing sludge and 10-25% of cement-based hardener. have. At this time, the role of iron sludge is described as an increase in stability and Fe source due to the increase in weight. However, in the case of ferrous sludge, since the particles are fine and do not have hydraulic properties, there is a disadvantage in that the cost is increased by increasing the amount of the binder which is the most expensive raw material. In particular, the sludge-containing sludge contains metal iron (Fe), which is mixed with a hardened cement-based binder, which causes structural degradation during curing or corrosion in water, and thus is highly likely to be damaged. Therefore, it is difficult to expect long-term continuity of the facility when it is installed as artificial reefs and deforestation.

In order to increase the functionality of the reefs, Korean Patent Laid-Open Publication No. 1985-0002938 (Aug. 28, 1985) suggests the application of iron oxide-sulfuric acid solvent or iron oxide-based sulfuric acid-based solvent in order to promote seaweed growth on the surface of concrete structures. However, they have a high rate of dissolution in seawater, so it is unlikely that long-term sustainability will be expected because the effect is likely to occur only in the short term.

In addition, in the case of Korean Patent Publication No. 2001-0061631 (Jul. 07, 2001), the dough is made by mixing ocher, shell powder and powder such as blast furnace, steelmaking slag or copper and lead smelting slag, followed by molding and drying process. It is proposed to manufacture a structure for a ceramic fish herb through a firing process at a high temperature of 1200 ^° C. This series of processes coincides with the main manufacturing process of existing ceramics or red bricks and is a costly production process, which is not desirable as a method of manufacturing artificial reefs and seaweeds that need to be installed in large coastal fisheries on a limited budget. It is not possible.

So far, the characteristics of marine deforestation or artificial reef structures have been mentioned, but the facility method is just as important as its characteristics. To date, the facilities of common reefs and deforestation have simply remained at the level arranged in the water. That is, there was a lack of active prescription considering the characteristics of low quality sediment in the sea area.

For example, if the low sedimentary layers are soft ground, the lower part of the reefs is designed as a flat plate to suppress settlement, and this type of reefs have some effects in the wetland area, but it is difficult to obtain a stable effect in the sandy sediments.

In addition, most of the reefs have been installed as it is, regardless of the rock area or sandy area, and if this is a significant portion of the sinking or buried was observed to be lost.

Accordingly, the present invention proposes an underwater facility and a method for solving the two problems pointed out above using a slag and a structure made of slag to create a stable and effective sea forest.

Here, the solution of the two problems mentioned should first have the effective and long-lasting fertilizing effect of iron, which is beneficial for seaweed attachment and growth, and secondly, subsidence, burial caused by sand sand sand flow, and typhoons or storms. It should be possible to effectively suppress the loss of the facility by the rapid flow of seawater.

Accordingly, an object of the present invention is to create a marine forest with facilities consisting of marine reefs and cover material manufactured using steelmaking slag and artificial reefs and underwater retaining wall structures manufactured using slag as a main material.

The present invention is a retaining wall structure (3) produced through the mixing and molding process by curing the cover material (1), dialysis material (2) and steelmaking slag produced by adjusting the size of the steelmaking slag to adjust the volume expansion rate to 0.2% or less And it relates to a facility for the construction of a marine forest using slag, characterized in that consisting of a marine forest and artificial reef (4).

That is, the configuration of the present invention consists of cover material, dialysis material and planting structures such as retaining walls, seaweeds and artificial reefs.

The reason for the volume expansion rate being 0.2% or less is that when the volume expansion rate is greater than 0.2%, there is a high possibility that the strength decreases and the appearance is broken.

In addition, steelmaking slag (coarse aggregate) stabilized according to the present invention is mixed with cement, sand (Aggregate aggregate), water is made of raw concrete (dough) and then the final product is produced through a molding and curing process.

As the cover material and dialysis material, steelmaking slag that has undergone impurities removal and particle size selection process is used, and in the case of dialysis material, a concrete structure manufactured using steelmaking slag or steelmaking slag aggregate is used. Deforestation, retaining walls, and artificial reefs use structures manufactured from steel slag aggregates and slag cement.

Here, the slag constituting the various structures is used alone or in combination of steelmaking slag, pre-processing slag and blast furnace slag according to each purpose. Steelmaking slag is used as aggregate after processing, and blast furnace slag is used as a binder or admixture for binders. In addition, since there are many kinds of steel slag, it should be slag that has been tested for hazard.

Steelmaking slag used in the present invention is generated in the steelmaking process of steel mills, and representative chemical components are shown in Table 1.

Chemical composition T-Fe SiO2 CaO Al2O3 MgO MnO P2O5 TiO2 Content (% by weight) 12-25 8-15 30-45 2 ~ 7 5-10 3 ~ 5 1-7 0.5 ~ 2

As shown in Table 1, steelmaking slag contains somewhat more iron than ordinary rock. Iron ions are a pigment protein component that activates the cells after the spores of the algae grow and germinate, and are involved in the absorption of pigment proteins, and the formation of electron transport systems and pigment proteins required for photosynthesis by cells during growth. It is known that there is. In addition, the redfield ratio indicates that the seawater lacks iron, particularly in the growth conditions of plants, than other components. Therefore, steelmaking slag containing a large amount of iron is useful as a material for marine deforestation and artificial reefs.

Hereinafter, the cover material, dialysis material, retaining wall and seaweed forest used in the present invention will be described.

Steelmaking slag cover material in the present invention has the following features.

-It has the effect of improving the environment by promoting the algae habitat and improving the quality of low and low water by iron fertilization.

-Strengthen sand or soft ground to prevent settlement and loss of marine forest facilities.

-Features: Normal steel slag less than 100mm is used. In particular, when there is a need to improve the contaminated reservoir more effectively, a particle size of 5 to 10 mm is usually used, but when the contamination is severe, steel slag of 5 mm or less may be used.

In addition, the steelmaking slag dialysis material has the following characteristics.

-It provides not only iron fertilization but also algae attachment matrix and large amount of irregular gap space to provide hiding and spawning space for young fish and shellfish.

-Material: Large bulk steel slag of 100 ~ 2,000mm is applied.

In addition, marine deforestation, retaining wall structure and artificial reefs have the following characteristics.

-It has the functionality of fertilizing fertilizer and can be molded in various forms to suit the purpose, and the main purpose is to provide the algae attachment matrix.

-Material: It is composed of steel slag coarse aggregate, fine aggregate, blast furnace slag cement, and additives. Basically, the strength is made of 210Kg / cm ² or more.

Hereinafter, the process of manufacturing the cover material, dialysis material, retaining wall and seaweed forest and artificial reef of the present invention will be described.

First, the steel slag generated in the steelmaking process is subjected to a crushing and impurity removal process, and then a cover material and a dialysis material are manufactured through a particle size selection process. In addition, the steelmaking slag for the retaining wall, seaweeds and artificial reefs is adjusted through a separate curing process to adjust the volume expansion ratio to 0.2% or less, and is manufactured by molding and curing by mixing with cement, water and additives.

Hereinafter, the present invention will be described in more detail.

 [ Example  One]

The facility of the present invention was installed in the village fishery located on the east coast (Yangyang-gun, Gangwon-do) as it was for the effect investigation in the real sea area (June 2005).

The facility area has a typical fishing structure of the east coast fishing system and produces abalone as a strategic shellfish species, but there is a great demand for its expansion as a small-sea forest area serving as an abalone feeding ground. The government and local governments are receiving annual support for subversive defeat, but the productivity was not high due to the lack of marine resources.

The characteristics of the sea area are coexisting with rock and sand, and they have good algae habitat in the rock area, but they are not large enough to be used as shellfish farms.

Therefore, by expanding the sand between the rock area and the adjacent rock area by connecting the seaweed habitat to the steel slag cover and seaweed reef facilities, the following facilities were established to maximize the productivity by expanding the spawning grounds and feeding grounds of seaweed breeding. .

-Steelmaking slag for sand reinforcement and fertilization effect

: 1,000 tons of steel slag with particle size of 20 ~ 40mm to prevent powder slag mixing

-. Steel slag dialysate for algae habitat: 2,000 tons at 0.5 to 1.5m

-. Steelmaking slag concrete seaweed forest: 140

1 is an explanatory diagram of a facility for marine deforestation using the slag of the present invention of the above facility.

As shown in the drawing, the retaining wall (3) is installed with steelmaking slag or its structure in the facility sea area firstly, and the steelmaking slag cover material (1) and the dialysis material (2) are installed in this order, and finally the marine Secondary and artificial reefs (4).

More specifically, first, buoys were installed at the edges of the target area by preliminary rip-off examination, and barges were entered, followed by cover work for soil reinforcement and fertilization effect. Then, the steelmaking slag dialysate (2) was introduced and finally, the deforestation and artificial reefs (4) were dropped on the steelmaking slag concrete structure to the target point. It maximized the effect of marine deforestation by connecting the two rock areas by putting them in the sand zone between the existing rocks and the rocks.

One month after the facility, the connection between the existing rock and the rock is generally good. The dialysis material (2) is installed on the top of the cover material (1), and the deforestation and artificial reefs (4) are spaced thereon. I could see that. Among them, several marine forests and artificial reefs (4) were dropped out of the sand zone, but the overall condition of the facility was confirmed.

2 to 4 are photographs of algae attached to the surface of the facility after one month after installation of the facility for the construction of the marine forest using the slag of the present invention.

As shown in the drawing, the algae attachment state was installed in mid-June due to the facility period, and since the first investigation was July 14, it was a very unfavorable time in terms of algae attachment. It was confirmed that the algae of about 1 to 5 cm in size, which can be observed with the naked eye, are densely attached to the surface of the c). In addition, many shellfish that feed on it also inhabit fish.

As described above, the present invention provides a structure for constructing a marine forest with excellent resource composition effect while utilizing the steelmaking slag generated in the steelmaking process, and a method for installing the same, and particularly, has a high resistance to sinking and has a seaweed agitation effect due to iron fertilization effect. It can provide great effective deforestation facilities.

In addition, it is cheaper than existing marine and artificial reefs in terms of price, and thus it is economical and long-term effect can be sustained to restore coastal ecosystems more efficiently. Restoration is possible.

Claims (2)

Retaining wall (3), sea retaining forest and artificial reef (4) manufactured by blending and forming steel cover slag (1) and dialysis material (2) manufactured by crushing steelmaking slag, removing impurities, and particle size selection, and steelmaking slag undergoing curing process (4) Facility for the construction of a marine forest using slag, characterized in that consisting of The method of claim 1, The steel slag is cured by adjusting the volume expansion rate to 0.2% or less, and the aggregate and fine aggregate is formed by mixing and molding using the hardened steel slag, facility for the composition of the marine forest using the slag

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