KR100374749B1 - an artificial water grass of belt type for bringing up a bio resources rearing and that is used to purify method of the quality of water - Google Patents

Abstract

The present invention relates to a belt artificial plants and water purification method using the same for protecting and nurturing biological resources in the body of the water, the structure is connected to the grid pipe through the pipe (1) to each other, but the air discharge pipe (2) ) To the upper side, and install the sediment discharge pipe (3) in the lower part of the pipe pipe (1) and the air inlet pipe (4) and the hose (5) that can receive air on one side outside On the edge of the quadrilateral, the lower base (8), which is fixed to the pendulum (6) with a rope (7) or a separate anchor to sink in the water;

A belt-shaped media 10 wound around each of the lattice edges 9 of the lower foundation 8 so as to be divided into two and then fixed with a rope 7a;

It is a belt-shaped artificial plants for biological resources development, characterized in that the buoyancy rod 11 is inserted into the upper part between the bisected belt-shaped media (10) to be fixed by a rope (7b), the artificial plants As a waterfront, it has a low water depth, a gentle slope, and is a stagnant body of water. It is installed in a place where algae generation is active, and many microorganisms inhabit the media, and by supplying air from the outside, these microorganisms decompose organic matters. The water purification method using artificial aquatic plants to improve the water quality by preventing the eutrophication by breeding by safely feeding the algae and breeding algae at the same time, this is the first, many microorganisms breed and they decompose organic matters And second, animal plankton can be protected from natural fish By breeding and feeding algae, eutrophication is suppressed. Third, a productive ecological space is created to remove contaminants by the food chain. Fourth, attached algae proliferate to feed fish and generate oxygen. Fifth, provide predators with an edge to raid food and provide shade by blocking the sun. Sixth, ecosystems are maintained by feeding nutrients to the bottom with carcasses and excreta. At the same time as spawning sites, benthic animals are protected from predators and prevent erosion by the flow of water.

Description

An artificial water grass of belt type for bringing up a bio resources rearing and that is used to purify method of the quality of water}

The present invention protects biological resources in water bodies. The present invention relates to a belt-type artificial plant and a method for purifying water using the same, in particular, by installing artificial plants in the sublimated water bodies to provide habitat for aquatic organisms, and to restore biological aquatic ecosystems to foster and use biological resources. To cleanse the water quality.

In general, eutrophication in stagnant bodies of water occurs when nutrients such as nitrogen and phosphorus are abundant, and in most cases phosphorus is the limiting factor.

Phosphorus introduced into the water system exists as soluble inorganic phosphate or organic phosphorus. Algae, aquatic plants and bacteria, which are phytoplankton in the water, assimilate them to synthesize nucleic acids and convert them into biological phosphorus.

Phosphorus uptake by algae and bacteria proceeds very quickly and is absorbed into cells within minutes.

On the other hand, since zooplankton feeds on algae, when a large number of zooplanktons are present in eutrophic water bodies, algae are reduced by feeding on zooplankton, and eutrophication is suppressed.

However, in eutrophic natural waters, zooplankton is fed to a variety of fish, resulting in low habitat densities, making it less than adequate.

There are a variety of organisms in the waters, and the ecosystem is balanced by mutual competition, symbiosis, and food chains.

However, if the environment changes, competition between species is affected, and species that are beneficial to the environment multiply and disadvantageous species follow the path of decay.

Important primary producers in aquatic ecosystems are aquatic plants and phytoplankton.

They are in competition with each other, especially in eutrophicated waters, where the aquatic plants are adversely affected by light competition.

In aquatic ecosystems, aquatic plants play an important role as well as producers.

These aquatic plants come in various shapes and sizes, and live alone or in combination, so that they can be combined with natural terrain such as water depths, slopes, and obstacles to create a wide variety of environments.

Microorganisms, micro-animals, fish, etc. are based on aquatic plants, and breeding and feeding are carried out, so the area with aquatic plants has a high productivity and a variety of species.

Low-nutrition lakes have clean water, few phytoplankton and algae, light penetrates deep, underwater plants grow, and a variety of invertebrates and fish.

However, the enrichment of nutrients leads to an increase in primary production and an increase in aquatic plants initially, but over time, the production of aquatic plants decreases.

In aquatic plants, the effect on the growth of nutrients is to promote growth and grow with plant density.

This intensifies competition with sunlight, weakens individual plant stems, accelerates algae production, and precipitates algae carcasses, increasing organic matter on low soils, and promoting growth of algae attached to plant stems.

Increased nitrogen also weakens thick tissue and reduces stem strength.

As a result, the plant stem is weakened relative to its weight, and loses stability due to physical forces such as waves and falls.

As such eutrophication continues, submerged plants are inhibited in growth by competition for light with attached algae and floating algae.

Species that are unable to adapt to low brightness and high melt concentrations are difficult to tolerate, and thus, species diversity is reduced, and eventually, aquatic plants disappear.

As such, changes in the state of aquatic plants affect fish communities.

Animals that feed on phytoplankton (algae) and fish that feed on zooplankton need a colony of aquatic plants that can hide and live.

Therefore, when aquatic plants disappear, aquatic ecosystems appear as follows.

The zooplankton is eaten by them because they have no place to hide and hide from predators such as pyramids, cutlass, loach, smelt, and carp, as well as Beth and Brugils fry.

In addition, predatory fish such as Bluegills, Bess, and warehouses, which eat fish that feed on zooplankton, hide and wait for food, and the algae deteriorate, resulting in poor light transmission and breeding crucian carp, sea bream, etc. Stirring makes the transparency worse, making it difficult to obtain food, making it difficult to format.

Instead, the carp and smelt that preys on the zooplankton dominates and preys on the zooplankton, so the predation pressure of the phytoplankton is eliminated, so that it breeds in large quantities to promote eutrophication.

In addition, the disappearance of root plants widens the mud area on the bottom of the lake, and increases the carp crucian bream that feed on benthic creatures.They stir the bottom of the mud, worsening transparency, worsening sunlight transmission, and injuring nutrients that emerge from the algae. By breeding, aquatic plants become a more adverse environment.

In addition, large-scale breeding of algae due to eutrophication leads to an increase in organic matter, and microorganisms and oxygen, which are decomposers, are required to treat these organic matters.

Decomposition of organic matter is carried out by bacteria, which are the primary decomposers, and since they exist in the water in a suspended state, their density is low.

Therefore, in eutrophic water bodies, there is a lot of oxygen near the surface of the water due to photosynthesis of algae during the day, but the decomposition of organic matter is delayed due to the small number of microorganisms, which are decomposers, and oxygen is deficient due to the respiration of algae and microorganisms at night.

Algae die off and settle to the bottom and consume a lot of oxygen as they decompose, making the bottom anaerobic.

This lack of oxygen had a problem that adversely affects both fish and benthic organisms.

In addition, natural aquatic plants are impossible to grow in winter, decompose during death, and become a source of oxygen consumption. Seaweeds such as seaweed and kelp have been killed in the summer when the water temperature rises.

Therefore, in order to ecologically purify the water quality in eutrophic waters, there is a need for a method for protecting and nurturing the zooplankton that feeds algae from predators and supplying oxygen to promote organic decomposition.

As such, artificial aquatic plants are needed to protect and foster zooplankton from predators, but there is no suitable method at home and abroad. However, artificial seaweeds developed by the Korea Maritime Research Institute as part of the sea ranching project have flexibility. Made of lightweight polypropylene synthetic resin, 2m deep, 13mm wide, and 1.3mm thick plastic belts are made, folded in half and glued sideways into 10 units and placed in a binding clip, and many of them are attached to a 1m × 2m wire mesh. It was used as a medium for seaweed growth, hide for fry.

However, since the above-mentioned artificial reefs are made of plastic plates and have no voids, they have a small specific surface area, so there is little microbial habitat space, and plankton does not have a problem of water purification efficiency because the plank body has no problem. When the seaweed is colored, it does not disappear and there is a problem that the attachment and assembly of the plastic plate is difficult.

Meanwhile, Aquamats developed in the United States (M. Meridian) is mainly used for farms, and is made of sand-bags made of light textiles in the form of plates made of non-woven fabrics and sponges, filled with sand, and the remaining parts are narrow and long. It is installed in water to allow microorganisms or attached algae to attach.

However, the above are voids and the specific surface area is rather large so that microorganisms can be inhabited, but the aquatic plant itself does not have a space for hiding the zooplankton, and because the aquatic plants are lined up, there is less contact space with the water body per second area. There is a problem that the utilization of less water purification efficiency is less and due to the lack of diversity of space composition in the mass installation in order to increase the treatment efficiency due to the lack of utilization and the development of a desirable ecosystem.

In order to solve the above problems, by installing the belt-type artificial plants of the present invention in contaminated stagnant waters, they act as natural plants to restore a healthy aquatic ecosystem, provide a habitat for many microorganisms, and supply oxygen to decompose organic matters. Its purpose is to make it active and purify the water quality.

A lattice bottom foundation provided with an air supply pipe so as to supply air from the outside to achieve the above object; Weaving chemical fibers on the front and rear lattice sides of the lower foundation irregularly in the form of springs, and winding the belt-shaped media made of plate into two parts and binding them with ropes to fix them, and the artificial plants with buoyancy bars installed between the bisected belt-shaped media. The purpose is achieved by providing.

1 is an overall configuration diagram of the present invention

2 is a front view of a portion of FIG. 1 viewed from the front;

Figure 3 is a side view of Figure 2

* Description of the main parts of the drawings *

1: pipe line 2: air exhaust line

3: sediment discharge line 4: air inlet line

5: hose 6: invasion

7: 7a: 7b: Rope 8: Lower Foundation

9: lattice edge 10: belt type media

11: Buoyant Rod 12: Foundation

The constitution and effects of the present invention will be described with reference to the accompanying drawings.

As shown in FIGS. 1 to 3, a plurality of chemical fibers are irregularly woven into a spring shape to form a plate, and the belt-shaped media 10 composed of a loofah is formed by adhering between the fibers and the fibers to form a lattice lower foundation 8. Wrapped in a lower portion so as to be bisected into each of the lattice edges 9 of and then tied with a rope 7a so as not to move, while a buoyancy rod 11 is inserted between the bisected belt-shaped media 10 and the rope 7b. The belt-shaped media 10 are configured to be suspended in water.

The lattice bottom foundation 8 determines the size of the base and the lattice in consideration of the size, shape, ecological characteristics, water quality, median characteristics, manufacturability, maintenance, etc. If the weight is insufficient, additionally fix the invasion (6) with a rope (7) or install an anchor separately on the edge of the quadrilateral.

A passage is formed in the base 12 to allow air to communicate, and an air discharge pipe 2 is installed at an upper intersection or a grid side, and a sediment discharge pipe 3 inside the base is installed at a lower side.

The air discharge pipe 2 selects an installation position in consideration of the size of the base 12, the oxygen demand, and the like, protrudes upward, and makes the discharge hole narrower than the passage to prevent the inflow and clogging of the sediment.

In addition, the base 12 is attached to the air inlet pipe (4) and connected to an external blower or compressor with a hose (5) to receive air.

The air generated in the blower is sent to a header pipe, which is supplied to a plurality of media base 12, respectively.

If the air outlet hole is blocked, concentrate the air to one side and drill the blocked hole with high pressure.

In the present invention configured as described above, the belt-shaped media (10) are non-corrosive, durable, light, flexible, and have a large specific surface area, and have a large porosity, so that many microorganisms can live while floating in the flow of water in water, and in large and small spaces. Zooplankton, micro-animals and fish can inhabit.

In particular, the myelin sheath formed by the belt-shaped media forms a space between the media itself and the media. In the media itself, microorganisms such as bacteria and fungi, and micro-animal animals with low mobility are attached to the media. Micro-animals inhabit their own habitats and spaces between them

The artificial aquatic plants constructed in this way are equipped with oxygen supply facilities in accordance with the purpose of installation and the nature of the water, such as the place where organic matter removal is needed, where zooplankton needs to be nurtured, where fish breeding is required, or where a healthy ecosystem needs to be controlled. It is good to install with different existence, scale and location.

Natural aquatic plants grow, reproduce, and die according to the season, and growth sites grow in sunny areas.

However, the artificial aquatic plants of the present invention can be installed where necessary regardless of season and water depth, but it is necessary to install them to have the function of natural aquatic plants.

Therefore, the target area for planting the artificial aquatic plants is the waterfront, where the water depth is low, the slope is gentle, and the stagnant water is active.

In order to create various environments by connecting with underwater obstacles such as existing plants or reef areas.

It is installed linearly to be a concealment and a moving passage of fish and connects from a low place to a deep place so that fish can escape.

In addition, there is a flow, there is a floating material, the artificial water plants of the present invention is installed in the stagnant waters of the river, such as water bodies, beams, sedimentation basin, which requires the removal of organic substances.

As described above, the present invention is not limited to the preferred embodiments of the above-described characteristics, and various changes can be made by those skilled in the art without departing from the gist of the present invention claimed in the claims. .

When the artificial aquatic plants of the present invention configured as described above are installed in the water system, first, many microorganisms multiply and they decompose organic matter, and the water quality is purified, and secondly, because the zooplankton can be protected from natural fish, it breeds and feeds on algae. Eutrophication is suppressed, and third, a highly productive ecological space is created, contaminants are removed by the food chain, and fourth, attached algae are multiplied to feed fish and generate oxygen, and fifth, to feed predators. Sixth, the nutrients are supplied to the bottom with carcasses and excreta to maintain the ecosystem, and seventh, to become a place for laying various fishes and benthic animals. They are protected from predators and prevent erosion by the flow of water.

Claims (4)

The pipe pipe 1 is connected to each other in a lattice shape, but at the grid intersections, the air discharge pipe 2 is installed to the upper side, and the sediment discharge pipe 3 is installed at a plurality of lower sides of the pipe pipe 1, and at one outside The air inlet pipe (4) and the hose (5) that can receive the air is installed, while the lower end of the four sides (6) is fixed to the spindle 6 with a rope (7) or an anchor is installed to sink in the water Base 8; A belt-shaped media 10 wound around each of the lattice edges 9 of the lower foundation 8 so as to be divided into two and then fixed with a rope 7a; Belt-shaped artificial plants for biomass development, characterized in that the buoyancy rod 11 is inserted into the upper part between the two divided belt-shaped media (10) to be buoyant to support According to claim 1, wherein the belt-shaped media (10) belt-shaped artificial plants for biological resources development, characterized in that made of a plate-like weaving a plurality of strands of chemical fibers irregularly According to claim 1, wherein the belt-shaped media (10) installed in the lower base of the lattice form is formed in the media (10) itself and the space between the media (10) and media (10) to ensure these spaces Animal plankton and micro-animals inhabit them to feed on breeding algae using nutrients such as nitrogen and phosphorus, and form a food chain that increases fish by feeding the multiplied animal plankton and micro-animals. Belt artificial plants for the development of biological resources, characterized in that the development of biological resources By installing the above artificial aquatic plants composed of belt-type media with a large specific surface area and supplying air, many microorganisms multiply in the media to decompose organic matters in the media, and zooplankton and micro-animals into media and spaces of media. Water purification method using belt type artificial plants for fostering biological resources that can escape from predation of fish and at the same time feed and breed algae safely to prevent eutrophication and improve water quality