KR20100092812A - Seaweed artificial seedbed - Google Patents

Abstract

PURPOSE: An artificial seaweed bed is provided to effectively produce a large amount of seaweeds, to prevent the seaweeds from being separated from the seaweed bed due to external forces including tidal waves, and to eliminate coast pollutants by recycling waste shells. CONSTITUTION: An artificial seaweed bed comprises growth layer(160) in which spores of seaweeds are settled and the seaweed bed in which the growth layer is accepted. The seaweed bed has a cylindrical shape, a circular shape, or a net-like shape. The seaweed bed includes multiple layers which are connected through a connection body(310) comprising a nylon-based string or a stainless wire. A support(190) is included on one side of the seaweed bed.

Description

Seaweed artificial seedbed

The present invention relates to seaweed artificial seedlings for the upbringing of marine algae,

More specifically, the present invention relates to a seaweed artificial seedling configured to artificially cultivate marine algae by dropping the seedlings filled with shells, slags, chestnuts, and palm husks, which are thrown away by using environmentally-friendly materials, on the coast.

In modern times, the depletion of fuel and environmental pollution due to the continuous increase in the use of fossil fuels is serious and bio fuel is urgently needed as a renewable clean energy source that can replace the existing fossil fuel.

Most of the energy sources currently used are fossil fuels such as oil and coal, which expose many problems such as energy supply and demand and environmental pollution. Due to the continuous increase in demand and monopoly of petroleum supply, supply and demand instability is intensifying and environmental pollution caused by the burning of fossil fuel is serious. If this trend continues, it is obvious that it will adversely affect not only the human living environment but also the continued growth of many industries.

As a result, efforts are being made to develop alternative energy sources in various forms to solve this problem, and efforts to find renewable energy sources have become more active, especially in advanced countries, and in addition to hydropower, solar power, tidal power, wind power, and geothermal energy. An example is the development and dissemination of energy using energy. In addition, many researches and developments have been made on energy, ie, biofuels, using living organisms and related by-products that are abundant in nature and capable of continuous production. In particular, bio fuel has been suggested as one of the promising solutions for reducing environmental pollution and replacing crude oil imports due to the development of production technology and commercialization.

Bio fuel is a sustainable energy source that is made from biomass in nature. It covers all organic materials of living things such as animals, plants, and microorganisms. By-products, wastes and foods from various animals and plants, agriculture and forestry There are many different types of waste, such as industrial waste based on living organisms, and crops grown for biofuel production. Biomass can be converted into solid, liquid and gaseous biofuels with the application of physical, chemical and biological technologies. One of them can produce bio raw materials such as bioethanol from red algae such as marine algae, but the red algae is a starch system of corn, sugarcane and potato, the first generation biomass. It is expected to broaden the way of mass production of biofuels in that it is high.

On the other hand, if you look at the situation near the coast, the amount of petrification that is harvested in nature or harvested and discarded in large quantities through the oyster farming business is about 300,000 tons per year in Korea. However, since it is discarded indiscriminately and without any special purpose, it is acting as a factor of water pollution and environmental destruction due to leachate generated from illegal landfilling and discarded shells.

In order to eliminate the above conventional problems,

Tough, hard, sea salt, and the material of the material that can reduce the environmental pollution to a minimum of any one of the bamboo or plastic or nylon-based string 110 or a mixed shape of the mesh form formed by weaving it in a lattice form And a plurality of shells 120 discarded after harvesting or farming petrified, clam, or other shellfish shells configured to seed the seedlings 100 and seed the seaweeds 170 into the seedlings 100, and In order to supply the nutrients necessary for the growth of the seaweed 170, the interior of the seedling 100 by layer by using the slag 130 and the chestnut 140 and the coconut shell 150, which are by-products generated during the steelmaking process, coast by It was invented for the purpose of providing an artificial seaweed artificial seedling configured to be mass-produced so that the mass production of the algae 170 which is a raw material of the biofuel is possible. .

In order to achieve the above technical problem,

The growth layer 160 composed of slag 130, shell 120, chestnut 140, palm shell 150, which is composed of the spores of the seaweed 170 is formed to achieve growth,

To provide an artificial algae seedling, characterized in that the growth layer 160 is composed of a grid-shaped seedling 100 made of any one or mixed form of bamboo or plastic or nylon string 110 so as to be accommodated therein do.

In addition, the nursery 100 is configured vertically and multilayered, and connected to each other of the nursery 100 with a connection 310 made of a rope or stainless steel wire, buoy 180 is connected to the top of the nursery 100 It is characterized by.

In addition, the nursery 100 is arranged in a horizontal configuration, each side of the arrayed nursery 100 constitutes a connecting body 310 to interconnect the seedlings 100, the bottom surface in the sea water and The support 190 is configured to be vertically embedded is characterized in that composed of the edge of the side of the seedling 100.

In addition, the support plate 190 is composed of a circular nursery 200 in the form of a cylinder, constitutes the connecting body 310 on both sides of the circular nursery 200 and is embedded vertically with the bottom surface in the sea water 190 ), The circular seedlings 200 are fixed by weaving the support 190 and the connector 310.

In addition, the circular seedlings 200 are arranged vertically to be connected to the connecting body 310, and the buoy 180 is configured to the connecting body 310 extending upward.

In addition, the growth layer 160 is composed of a slag 130, shell 120, chestnut 140, palm shell 150 is configured to form the spores of the algae 170 to grow,

It provides an artificial seaweed seedlings, characterized in that the growth layer 160 is composed of a mesh seedling 300 made of a connecting body 310 is configured in the form of a net so as to be accommodated therein.

In addition, by arranging a plurality of the mesh seedlings 300 to be connected to the connector 310, and to the buoy 180 that rises above the sea surface in the connector 310 extending upward to form the extended connector ( 310 is configured to be coupled.

In addition, the growth layer 160 consisting of the slag 130, shell 120, chestnut 140, palm shell 150 is seated on the bottom of the waste salt, and one of nylon string or wood or stainless steel wire Or it is configured to cover the first half of the growth layer 160 by weaving the connector 310 having a mixed form in a grid form of a mesh, the support 190 at a predetermined interval on the surface of the connector 310 It provides an algae artificial seedlings, characterized in that the horizontal seedling 400 is embedded.

Seaweed artificial seedlings constructed by the present invention can be installed and dropped off the coast to cultivate a large amount of algae 170 required for the production of bioethanol, the pore portion of the slag 130 and the outer uneven portion of the shell 120 and The uneven parts of the chestnut 140 and the palm shell 150 can be utilized as the seedling attachment position, making it easy to attach the seeds of the algae 170 and external physical forces such as waves and tidal waves during the growth of the algae 170. It is not easy to fall by the large amount of algae 170 can be produced and provided effectively. In addition, the carbon dioxide consumed according to the photosynthesis of the algae 170 can reduce the greenhouse effect, by removing the main coastal pollution cause by recycling the waste oyster shell 120, the algae 170 to be grown is a seaweed community It provides a hiding place for aquatic life and creates an effect that can prevent whitening of underwater.

The present invention relates to seaweed artificial seedlings for the upbringing of marine algae,

More specifically, it relates to a seaweed artificial seedling configured to artificially cultivate marine algae by dropping the seedlings filled with shells, slags, chestnuts, and palm husks, which are thrown away by using environmentally-friendly materials, onto the coast. It is a strong, salt-resistant, low-environmental material in a net-shaped nursery that consists of many shells, shellfish, or other shellfish that are discarded after harvesting or farming, and by-products generated during the steelmaking process. By using phosphorus slag, chestnut and palm bark, the inside of the nursery is composed to cultivate effective algae, and the algae harvested from the seedling provides alternative raw material of fossil raw material, that is, bioethanol. Can, of course, shells discarded indiscriminately Recycling algae into environmentally friendly artificial seedlings, and the algae grown in the seedlings absorb the carbon dioxide through photosynthesis to suppress the greenhouse effect and form a habitat for aquatic life. will be.

1 is a perspective view showing a preferred form of the seaweed artificial seedlings according to the present invention, Figure 2 is an exemplary view showing an embodiment in which the seaweed artificial seedlings according to the present invention is positioned vertically, Figure 3 is an artificial seaweed artificial Figure 4 is an exemplary view showing an embodiment in which the seedlings are positioned horizontally, Figure 4 is an exemplary view showing another embodiment of the seaweed artificial seedlings according to the present invention, Figure 5 is another embodiment where the algae artificial seedlings according to the present invention is located Figure 6 is a perspective view showing the configuration of the form, Figure 6 is an exemplary view showing another form of the seaweed artificial seedlings according to the present invention, Figure 7 is an illustration showing an embodiment of another arrangement of the seaweed artificial seedlings according to the present invention 8 is an exemplary view showing an embodiment of another configuration of the seaweed artificial seedlings according to the present invention, seen with reference to the drawings For patients embodiment will be described in detail the specific content.

Referring to the seaweed artificial seedlings according to the present invention based on the bar shown in Figure 1, 2, 3, 4, 5, 6, 7, 8

As shown in FIG. 1, the growth layer 160 includes shells 120, slags 130, chestnuts 140, and coconut shells 150 configured to settle the seed of the algae 170 to form a growth pattern. And the components are composed of the support plate 190 and the buoy 180 configured to fix the seedling 100 and the seedling 100 is configured to be fixed without being separated from external physical forces such as waves and the seawater do.

As shown in FIG. 1, the seedling 100, which is a basic framework for the growth of the algae 170, is tough and hard, and has a string of bamboo or plastic or nylon system 110 that can minimize environmental pollution without corrosion to sea salts. ) Or any one of thin wires or mixed forms, long and thin processed to be bent freely to form a grid-shaped network to accommodate the growth layer 160.

In addition, the seedling 100 is configured by weaving in a grid-shaped net so that the shell 120, the slag 130, the chestnut 140, the coconut shell 150, etc. accommodated therein are not separated to the outside. In addition, the algae 170 germinated and grown in the growth layer 160 is configured to adjust the size and spacing of the net so that it can easily grow through the net of the seedling 100.

On the other hand, the seedling 100 is preferably composed of bamboo to prevent the sea pollution, in order to facilitate the production of the seedling 100, the material of the seedling 100 is replaced with a plastic or nylon string line It is possible.

In addition, the slag 130 of the components of the growth layer 160 is a slag 130 in the form of stones generated when iron is separated from iron ore during the steelmaking process is similar to the general rock or soil components, but calcium and iron components As it contains a lot of fertilizer raw materials, when the by-products are dropped offshore, the habitat rate of sea creatures is much higher than that of existing concrete reefs. In addition, the slag 130 has a large amount of T-Fe, and the iron ions released therein are related to the absorption of the pigment protein as a pigment protein component that actively activates cells after spores of seaweeds grow and germinate. It is known that the activity of the electron transport system required for photosynthesis and the formation of pigment proteins are related to the iron ions. Therefore, since the components contained in the slag 130 greatly improves the ability to purify contaminants and grow algae, it is useful as a mother seedling of the algae 170 artificial seedlings.

In addition, the shell shell (120) including shells and oyster shells, the content ratio of the inorganic components of the shell 120 occupies a considerable number of calcium carbonate 89 to 90%, calcium phosphate is about 1 to 2%, magnesium carbonate Very small amount is included. As such, the shell 120 contains a large amount of trace elements to help the growth of algae, such as calcium and magnesium, it can achieve a more effective growth of algae when used in combination with the slag 130 and shells (120). .

In addition, the slag 130 and the shell 120 has a pore portion and an uneven portion, respectively. The pore portion and the uneven portion release the spores of the seaweed 170 collected as a site for the seeding of the seaweed 170 is released, such as in a water tank (not shown) and the slag 130 and shell 120 Inoculate the seeds of seaweed 170 by immersing in a water tank several times. Spores of the seaweed 170 seated on the slag 130 and the shell 120 by the above method is settled in the gap between the uneven portion and the pore portion to form a configuration that does not easily fall on external physical forces such as waves.

In addition, the chestnut 140 and the coconut shell 150 has many irregularities, so that the algae 170 can be more effectively settled, and the algae 170 can be protected from the attack of the fish.

The growth layer 160 inoculated with the spores by the above method is introduced into the above-described seedling 100, and opens a portion of the netting 100, the slag 130, shell 120, chestnut 140 ) And palm bark 150 to complete the closing of the net of the seedling 100 is completely closed, as shown in Figure 1, the seedling 100 is grasping the center of gravity to separate the upper and lower layers so as not to be shaken In order to concentrate the center of the bottom of the seedling 100, the shell 120, chestnut 140 and the palm shell 150 to load the heavy slag 130 to be located in the lower layer, the upper layer shell (120), Chestnut 140, the palm shell 150 is placed so as to position.

In addition, as shown in Figures 2 and 3, in order to increase the efficiency of the growth of the algae 170, a plurality of seedlings 100 is configured in a horizontal or vertical multi-stage installation, as shown in Figure 2 slag 130 ), Shell (120), chestnut 140 and palm peel 150 is filled with a vertically formed multi-layer extending, the upper and lower layers of the edge of the edge of the nylon line or stainless steel wire connection Tied with a sieve 310 to extend and fix the seedling 100, and to form a buoy 180 that rises above the sea surface through a connection 310 extending to the top layer to combine into the extended connection 310 to the Dropping the seedlings 100 suspended below the buoy 180 to the sea level to form the growth of the algae 170 while hanging on the buoy 180 to form a plurality of the seedlings 100 consisting of the buoy 180 to each other Tied to the connector 310 It constitutes achieve the Community.

In addition, as shown in FIG. 3, the seedling 100 is horizontally connected to the bottom portion in the sea water, and the connecting body 310 is formed on both sides of each of the seedling 100 arranged on the bottom A connecting body connected to the nursery 100 by interconnecting the nursery 100 and configuring the support 190 configured to be buried vertically with the bottom surface in the seawater as an edge of the side of the side of the nursery 100 arranged. It is configured to tie and secure the 310 to the support 190, and is installed on a flat sea floor of a relatively shallow depth. In addition, the support 190 is preferably made of a material made of wood or stainless so that corrosion is not easily made to the salt of the sea water.

Meanwhile, as shown in FIG. 4, the circular seedlings 200 constituting the growth layer 160 in which the slag 130, the shell 120, the chestnut 140, and the palm husk 150 are mixed are inside the seawater. It is installed as, the support plate 190 is configured to be configured to be connected to the floor 310 in the seawater and the connection body 310 in both sides of the circular seedlings 200, the fixed bonded to the support 190 The ring 190A and the connecting body 310 are configured to be woven together to be installed in the uneven sea of a relatively shallow depth to form a fixed circular seedling 200 without being shaken from physical forces such as waves.

In addition, as shown in FIG. 5, the circular seedlings 200 constituting the growth layer 160 in which the slag 130, the shell 120, the chestnut 140, and the palm husk 150 are mixed are vertically arranged. And to form a buoy 180 that rises above the sea level in the connector 310 extending upward and configured to be coupled to the extended connector 310 and a plurality of buoys 180. It is configured to form a cluster of the circular seedlings 200 hanging under the buoy 180 by connecting the configured circular seedlings 200 with the interconnect (310).

In addition, as shown in Figure 6, the slag 130 and the shell 120, chestnut 140, the palm seedlings in the form of a mixture of 150 is composed of a mesh seedling 300.

The mesh type nursery 300 constitutes a nursery in the form of a flexible mesh woven in a grid of the connector 310 composed of a nylon line or stainless wire, such as slag 130, shell 120, chestnut 140, the growth layer 160 mixed with the coconut shell 150 is configured to be embedded.

In addition, as shown in FIG. 7 by arranging a plurality of the mesh seedlings 300 to be connected to the connector 310 and to configure the buoy 180 that rises above the sea surface in the connector 310 extending upward It is preferably configured to be coupled to the extended connector 310, it is preferable to determine the number of the mesh seedlings 300 are arranged in consideration of the buoyancy according to the size of the buoy 180.

The mesh nursery 300 also comprises a plurality of mesh nursery 300, the buoy 180 is configured to connect the portion below the buoy 180 by the interconnect 310, the mesh nursery hanging below the buoy 180 ( It is configured to form a cluster of 300).

On the other hand, Figure 8 shows the configuration of the horizontal seedling 400 of the algae artificial seedlings composed of no longer used salt pulmonary salt, the slag 130, shell 120, chestnut 140, coconut palm inoculated with spores After the growth layer 160 composed of the shell 150 is seated at the bottom of the waste salt field, the circumference of the growth layer 160 is translated into a network of a connector 310 composed of a nylon string or stainless wire. It is configured to cover the upper and first half, buried in the support 190 at a predetermined interval to tie the connector 310 and the support 190 is fixed so that the horizontal seedling 400 is seated before the lung salt is configured to be fixed. .

1 is a perspective view showing a preferred form of the seaweed artificial seedlings according to the present invention

Figure 2 is an exemplary view showing an embodiment in which the seaweed artificial seedlings in accordance with the present invention is positioned vertically

3 is an exemplary view showing an embodiment in which the seaweed artificial seedlings according to the present invention is positioned horizontally

Figure 4 is an illustration showing another embodiment of the seaweed artificial seedlings according to the present invention

Figure 5 is a perspective view showing a configuration of another form where the algae artificial seedlings according to the present invention is located

Figure 6 is an illustration showing another form of the seaweed artificial seedlings according to the present invention

7 is an exemplary view showing an embodiment of another arrangement of seaweed artificial seedlings according to the present invention

8 is an exemplary view showing an embodiment of another configuration of the seaweed artificial seedlings according to the present invention

(Description of Major Symbols in the Drawing)

100: nursery

110: string of bamboo or plastic or nylon system

120: shell 130: slag

140: chestnut 150: coconut shell

160: growth layer 170: seaweed

180: buoy 190: support

190A: Retaining ring 200: Round nursery

300: mesh nursery 310: connector

400: horizontal nursery

Claims (6)

The growth layer 160 is configured to form the spores of the algae 170 to grow, Algae artificial seedlings, characterized in that the seedling 100 is configured to accommodate the growth layer 160 therein The seedling 100 is an artificial algae seedling, characterized in that any one of the grid, cylindrical, circular, mesh The method according to claim 1 or 2, The nursery 100 is composed of a multi-layered vertically, and connected to each other of the seedling 100 by a connecting line 310 made of a nylon line or a stainless wire, buoy 180 is connected to the top of the seedling 100 Seaweed artificial seedlings characterized in that The method according to claim 1 or 2, The nursery 100 is arranged in a horizontal arrangement, each connecting side 310 of each of the arrangement of the nursery 100 is configured to connect the nursery 100 to each other, to be embedded in the bottom surface in the sea water Algae artificial seedlings, characterized in that the support 190 is configured on one side of the seedling 100 The method according to claim 1 or 2, Consists of both sides of the seedlings 200 to form a support 310 and a support 190 configured to be buried vertically with the bottom surface in the sea water, weave the support 190 and the connector 310, the circular Seaweed artificial seedlings, characterized in that the seedlings 200 is fixed Spores of the algae 170 is seated on the growth layer 160 is configured to achieve the growth of the bottom of the waste salt, It is configured to cover the first half of the growth layer 160 by forming a connecting body 310 made of a nylon line or stainless wire in the form of a net, Seaweed artificial seedlings, characterized in that the support (190) for fixing the connector 310 is embedded at a predetermined interval

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