KR20210076321A - Composting device using algae biomass - Google Patents

Abstract

A composting device using algal biomass according to one aspect of the present invention comprises: a main body formed of a rectangular parallelepiped and having an internal space in which algal biomass is contained; a support coupled to the outside of the main body to levitate the main body and rotating the levitated main body to agitate the algal biomass contained in the internal space; a mixer positioned in the internal space to maximize the agitation of the contained algal biomass; a valve coupled to the main body to supply and control air, water, and humidity to the internal space; and a module box attached to and detached from the outer surface of the main body in the form of a module to increase the composting effect of the contained algal biomass. Accordingly, pre-recovered algal biomass can be dried.

Description

Composting device using algae biomass

The present invention relates to a composting device using algal biomass, and more particularly, to a composting device using algal biomass capable of drying previously recovered algal biomass.

Algae is a general term for plants that photosynthesize with chlorophyll among lower plants whose roots, stems, and leaves are not systematically differentiated. Since they are located at the bottom of the natural food chain, they are autotrophs that produce organic matter through photosynthesis.

In Korea, it is well known as a green algae phenomenon, and in general, green algae and blue-green algae occur frequently when the water temperature rises, but some diatoms can thrive even at low water temperatures. When it occurs, it is recognized as a national and social problem because water treatment problems, toxic substances from blue-green algae, and bad aesthetics occur.

However, algae are floating or adherent organisms of a small cell unit, and are rich in trace elements and contain nutrients, so they are highly likely to be used or processed as organic soil conditioners, composts, fertilizers, etc. as main or auxiliary raw materials.

Algae are sometimes directly treated in rivers, lakes, and oceans for water purification, post-cultivation treatment for biodiesel, pharmaceuticals, and biopolymer production, or artificially cultivated and produced for sewage treatment plants or effluent management. Although there is an increasing trend, the conventional composting process or device does not directly utilize algal biomass or deal with it professionally.

Republic of Korea Patent No. 10-1222456 (Jan. 15, 2013)

The present invention is to solve the above problems, and an object of the present invention is to provide a composting apparatus using algal biomass capable of drying previously recovered algal biomass.

And to provide a composting device using algal biomass that can be composted in a short period of time.

A composting apparatus using algal biomass according to an embodiment of the present invention for achieving the above object includes a body formed in a rectangular parallelepiped and having an internal space in which algal biomass is embedded, and combined with the outside of the body. A support for agitating the algal biomass embedded in the internal space by rotating the levitated body by levitating the body, a mixer positioned in the internal space to maximize agitation of the embedded algal biomass, the body and It may include a valve for supplying and controlling air, water and humidity to the inner space and a module box for increasing the composting effect of the built-in algal biomass by attaching and detaching it to the outer surface of the body in a module form.

The main body may include a first surface coupled to the support, and at least one second surface connected to the first surface and on which the module box is detachably attached to the outer surface.

The second surface may be provided with a first hole through which the air, water and humidity supplied through the valve are discharged, and a blade protruding in the direction of the mixer to break the algal biomass.

A swash plate may be provided on the second surface to form an inclined surface in the inner space, and a second perforation may be provided in the swash plate.

An air nozzle for additionally supplying air to the inner space through the module box and the second surface from the outside may be further provided.

The main body includes a connection device for connecting the first surface and the second surface, the connection device extending from both sides of one end of the second surface in the direction of the first surface, respectively, connecting portions inserted into the first surface; A locking part provided on the first surface and facing the other end of the second surface to open and close the inner space may be provided.

The support may include a floating part for levitating the main body, and a rotating part connected to the floating part and coupled to the first surface so that the main body rotates around the support body.

The mixer includes a rod provided in the inner space and coupled to the rotating part, a blade provided on the outer surface of the rod to break the algal biomass, and a temperature control device provided in the rod to increase the temperature of the inner space; It may be provided with an inlet hole formed in the rod for introducing air into the inner space.

The module box may contain a carbon dioxide adsorbent or another algal biomass.

According to the composting apparatus using algal biomass according to the present invention, it is possible to dry the previously recovered algal biomass.

And it can be composted in a short period of time.

1 is a perspective view showing a composting apparatus using algal biomass according to an embodiment of the present invention.
2 to 4 are cross-sectional views of the composting apparatus using the algal biomass shown in FIG. 1 .

Hereinafter, a composting apparatus using algal biomass according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a composting apparatus using algal biomass according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view of the composting apparatus using algal biomass shown in FIG. 1 .

1 and 2, the composting apparatus 10 using algal biomass according to an embodiment of the present invention may include a body 100, a support 200, and a module box 500. have.

The body 100 may be formed as a rectangular parallelepiped and include an internal space 110 in which algal biomass is embedded.

The support 200 is coupled to the outside of the main body 100 and may serve to rotate the main body 100 in a state in which the main body 100 is levitated. The algal biomass embedded in the inner space 110 of the body 100 may be stirred by the support 200 .

The module box 500 is provided in the form of a module, a carbon dioxide adsorbent or another algal biomass is embedded therein, and a plurality of it can be detachably attached to the outer surface of the main body 100 . The module box 500 detachably attached to the main body 100 may serve to enhance the composting effect of the algal biomass embedded in the inner space 110 of the main body 100 . And, by providing the module box 500 in the form of a module, samples with different mixing ratios can be operated at the same time, and composting can be accelerated by maintaining a unit standard suitable for composting.

Looking at the main body 100 in detail, the main body 100 is composed of a first surface 120 and a second surface 130 , and the first surface 120 is provided as a pair to be combined with the support body 200 . can The second surface 130 is connected to the first surface 120 , and may be provided in a shape surrounding the edges of the pair of first surfaces 120 to form a rectangular parallelepiped.

In this embodiment, it was shown that four second surfaces 130 are connected to the first surface 120 to form the body 100 as a rectangular parallelepiped, but the second surface 130 is in the shape of the main body 100 . Depending on the number, it may be provided in various numbers.

In addition, the plurality of second surfaces 130 connected to the first surface 120 are individually connected to the first surface 120 , and the inner space 110 may be opened.

To this end, the main body 100 includes a connecting device 180 connecting the first surface 120 and the second surface 130 , and the connecting device 180 includes a connecting part 181 and a locking part 182 . can be provided

The connection part 181 may extend in the direction of the first surface 120 from both ends of one end of the second surface 130 , and may be inserted into the first surface 120 . The connection part 181 inserted into the first surface 120 is rotatable while being inserted into the first surface 120 , so that the second surface 130 can rotate about one end of the second surface 130 as an axis. . By rotating one end of the second surface 130 on the second surface 130 as an axis, the inner space 110 of the body 100 may be opened.

The locking part 182 is provided on the first surface 120, and one end is provided to face the other end of the second surface 130, and is rotatable so that when the inner space 110 is opened, one end is the second surface ( 130), and when closing the inner space 110, one end may be abutted against the other end of the second surface 130.

In this way, since the main body 100 is provided with the connecting device 180, the internal space 110 can be easily opened through a simple operation, so that the inflow and outflow of algal biomass can be made easily, and when the main body 100 rotates It is possible to prevent the algal biomass embedded in the inner space 110 from flowing out by the rotational force.

Next, the composting apparatus 10 using algal biomass according to an embodiment of the present invention will be described in more detail. In the following description, only parts different from the above-described embodiments will be described in detail, and detailed descriptions of the same or extremely similar parts will be omitted.

3 is a cross-sectional view of a composting apparatus using algal biomass shown in FIG. 1 .

1 to 3 , the composting apparatus 10 using algal biomass according to an embodiment of the present invention is formed in a rectangular parallelepiped body and provided with an internal space 110 in which the algal biomass is embedded. ), coupled with the outside of the main body 100 to levitate the main body 100, and rotate the floated main body 100 to stir the algal biomass embedded in the inner space 110. A support 200, an inner space ( A mixer 300 that maximizes the agitation of the built-in algal biomass located in 110), a valve 400 that supplies and controls air, water and humidity to the internal space 110 by combining with the main body 100 and the main body ( 100) may be provided with a module box 500 to increase the composting effect of the built-in algal biomass by attaching and detaching the module in the form of a module.

And the main body 100 has a first surface 120 coupled to the support 200 and at least one second surface 130 connected to the first surface 120 and the module box 500 is detachably attached to the outer surface. can do.

A plurality of first perforations 140 through which air, water and humidity supplied through the valve 400 are discharged may be formed in the second surface 130 . Therefore, when the moisture content is too high, air, water and humidity may be collected in the module box 500 attached to the outer surface of the main body 100 through the first perforation 140 . Here, the module box 500 has a carbon dioxide adsorbent or another algal biomass already built in, so that it can absorb carbon dioxide generated in the composting process or process algal spores and a part of the cells to grow or store. And the carbon dioxide adsorbent or algae biomass in the module box 500 can be used as it is as a part of the mixture when manufacturing a soil improver, compost, fertilizer, etc. using algae. In an embodiment of the present invention, although the adsorbent has been described as adsorbing carbon dioxide, it can adsorb not only carbon dioxide but also some gaseous substances, and can also serve as a humidity control function.

In addition, the second surface 130 may be provided with a plurality of blades 150 protruding toward the mixer 300 direction, that is, the central portion of the inner space 110 . The plurality of blades 150 may serve to break the algal biomass, thereby maximizing the contact area with air.

In addition, the second surface 130 may be provided with an inclined plate 160 to form an inclined surface in the inner space 110, the inclined plate 160 is provided with a plurality of second perforations 170, the valve 400 Air, water and humidity supplied through the can be easily discharged to the first perforation (140).

Meanwhile, the support 200 may include a floating part 210 and a rotating part 220 to float and rotate the main body 100 . The floating part 210 may have one end fixed to the ground or a base surface, and may be provided long in the vertical direction. The rotating part 220 is vertically connected to the floating part 210 and may be coupled to the second surface 130 . The main body 100 may rotate about the rotating part 220 of the support body 200 as an axis. The floating part 210 and the rotating part 220 may be integrally manufactured or may be respectively manufactured and integrated through a coupling method such as welding.

On the other hand, the mixer 300 is located in the inner space 110 may serve to maximize the agitation of the built-in algal biomass.

To this end, the mixer 300 is provided in the inner space 110 and is provided on the outer surface of the rod 310 and the rod 310 coupled with the rotating part 220 of the support 200 to break the algal biomass ( 320) may be provided. The mixer 300 rotates together when the main body 100 is rotated by the rotating part 220 of the support 200 to maximize the contact area with the air of the algal biomass stirred due to the rotation of the main body 100 to maximize the algae Agitation of the biomass can be maximized.

In addition, the mixer 300 may include a temperature control device 330 and an inlet hole 340 . The temperature control device 330 and the inlet hole 340 may be provided in the rod 310 , and the temperature control device 330 provided in the rod 310 is operated at the temperature of the internal space 110 through an external operation. may play a role in raising Temperature control through the temperature control device 330 can exert the effect of increasing the composting rate and inducing stable ripening. The inlet hole 340 formed in the rod 310 may serve to introduce air into the inner space 110 . Air introduced through the inlet hole 340 may serve to induce the growth of aerobic microorganisms.

On the other hand, the valve 400 may serve to supply and control the air, water, and humidity to the internal space 110 in combination with the body 100 . In addition to the role of supplying and regulating air, water and humidity to the internal space 110 , the valve 400 can be utilized when removing the final mixture or cleaning the internal space 110 of the body 100 .

Next, the composting apparatus 10 using algal biomass according to an embodiment of the present invention will be described in more detail. In the following description, only parts different from the above-described embodiments will be described in detail, and detailed descriptions of the same or extremely similar parts will be omitted.

4 is a cross-sectional view of a composting apparatus using algal biomass shown in FIG. 1 .

1 to 4 , the composting apparatus 10 using algal biomass according to an embodiment of the present invention is formed in a rectangular parallelepiped body and provided with an internal space 110 in which the algal biomass is embedded. ), coupled with the outside of the main body 100 to levitate the main body 100, and rotate the floated main body 100 to stir the algal biomass embedded in the inner space 110. A support 200, an inner space ( A mixer 300 that maximizes the agitation of the built-in algal biomass located in 110), a valve 400 that supplies and controls air, water and humidity to the internal space 110 by combining with the main body 100 and the main body ( 100) may be provided with a module box 500 to increase the composting effect of the built-in algal biomass by attaching and detaching the module in the form of a module.

Here, the main body 100 is connected to the first surface 120 and the first surface 120 coupled to the support 200 and at least one second surface 130 on the outer surface of which the module box 500 is detachably attached. can be provided

And it may further include an air nozzle 600 passing through the module box 500 and the second surface 130 sequentially from the outside of the composting apparatus 10 using algal biomass according to an embodiment of the present invention. .

The air nozzle 600 may serve to additionally supply air to the inner space 110 by sequentially passing through the module box 500 and the second surface 130 from the outside. The air nozzle 600 may additionally supply air to the inner space 110 at high pressure to remove and wash the material deposited in the blind spot of the blade 150 provided on the second surface 130 . .

In the above, the composting apparatus using algal biomass according to an embodiment of the present invention has been described, but the spirit of the present invention is not limited to the embodiments presented herein. And those skilled in the art who understand the spirit of the present invention will be able to easily propose other embodiments by addition, change, deletion, addition, etc. of components within the scope of the same spirit, but this is also said to be within the scope of the present invention. will be.

10: Composting device using algal biomass
100: body 110: internal space
120: first side 130: second side
140: first perforation 150: blade
160: inclined plate 170: second perforation
180: connector 181: connector
182: lock 200: support
210: floating part 220: rotating part
300: mixer 310: rod
320: day 330: thermostat
340: inlet 400: valve
500: module box 600: air nozzle

Claims (9)

A body formed in a rectangular parallelepiped and having an internal space in which algal biomass is embedded;
A support for agitating the algal biomass embedded in the inner space by combining with the outside of the main body to levitate the main body and rotating the floated main body;
a mixer positioned in the inner space to maximize the agitation of the built-in algal biomass;
a valve coupled to the main body to supply and control air, water and humidity to the inner space;
A composting device using algal biomass, including a module box that is attached to and detached from the outer surface of the main body in the form of a module to increase the composting effect of the built-in algal biomass.
The method of claim 1,
The body has a first surface coupled to the support,
Composting apparatus using algal biomass, characterized in that it is connected to the first surface and has at least one second surface on which the module box is detachably attached.
3. The method of claim 2,
The second surface has a first perforation through which the air, water and humidity supplied through the valve are discharged;
A composting apparatus using algal biomass, characterized in that it is provided with a blade protruding in the direction of the mixer to break the algal biomass.
3. The method of claim 2,
An inclined plate is provided on the second surface to form an inclined surface in the inner space,
A composting device using algal biomass, characterized in that the swash plate is provided with a second perforation.
3. The method of claim 2,
Composting apparatus using algal biomass, characterized in that it further comprises an air nozzle for additionally supplying air to the inner space by sequentially passing through the module box and the second surface from the outside.
3. The method of claim 2,
The main body includes a connecting device for connecting the first surface and the second surface,
The connection device is provided on the first surface and a connection part which is respectively extended in the direction of the first surface from both ends of one end of the second surface and is inserted into the first surface and is abutted against the other end of the second surface to open and close the inner space. A composting device using algal biomass, characterized in that it has a locking part to be possible.
3. The method of claim 2,
The support includes a floating portion for levitating the body,
Composting apparatus using algal biomass, characterized in that it is connected to the floating part and coupled to the first surface and comprising a rotating part for rotating the main body about the support.
8. The method of claim 7,
The mixer includes a rod provided in the inner space and coupled to the rotating part;
A blade provided on the outer surface of the rod to break the algal biomass,
a temperature control device provided on the rod to increase the temperature of the inner space;
A composting device using algal biomass, characterized in that it has an inlet hole formed in the rod to introduce air into the inner space.
The method of claim 1,
A composting device using algal biomass, characterized in that the module box contains a carbon dioxide adsorbent or another algal biomass.

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