KR102124119B1 - Windows for cultivation of microalgae for bio-energy production - Google Patents

Abstract

The present invention relates to a window for algae cultivation for bioenergy production, and more specifically, by culturing microalgae through a chamber window, it can be utilized as biomass for bioenergy production, and by cultured microalgae It relates to a window for algae cultivation for bio energy production that can awn the sunlight entering the indoor side, fix carbon dioxide and discharge oxygen to purify the air.

Description

Windows for cultivation of microalgae for bio-energy production

The present invention relates to a window for algae cultivation for bioenergy production, and more specifically, by culturing microalgae through a chamber window, it can be utilized as biomass for bioenergy production, and by cultured microalgae It relates to a window for algae cultivation for bio energy production that can awn the sunlight entering the indoor side, fix carbon dioxide and discharge oxygen to purify the air.

In general, microalgae, a photosynthetic microorganism, absorb carbon dioxide and produce various useful ingredients such as vitamins, amino acids, pigments, proteins, polysaccharides, and fatty acids by photosynthetic action. As a biomass capable of fixing one carbon dioxide and producing bioenergy, a culture apparatus for culturing microalgae in large quantities has been recently studied.

Republic of Korea Patent No. 10-0679989 (waterway-type microalgae outdoor culture tank in which inoculum culture tank is installed) as a conventional microalgae culture device, Korea Patent Publication No. 10-2012-0014387 (photobiological reactor for mass culture of microalgae) And microalgae cultivation method using the same), but conventional waterway pond culture systems and photobioreactors have a problem of requiring a large installation volume.

On the other hand, in modern society, well-being is fashionable and much interest and investment are being made in improving the quality of life, and a lot of attention is focused on indoor air environment problems. An air purifying device capable of being developed has been widely used.

However, the conventional air purifying device uses a filter made of a porous material or a filter of an electrostatic precipitating method. First of all, these filters are capable of adsorbing dust and the like, but there is a limitation that carbon dioxide cannot be adsorbed.

The present invention has been devised to solve this problem, and the object of the present invention is to cultivate microalgae through a chamber region formed inside the chamber-type window, and thus can be utilized as biomass for bioenergy production, using carbon dioxide. It is to provide a window for algae culture for bio-energy production that can fix and release oxygen to purify the air.

Another object of the present invention is to provide a window for algae cultivation for bioenergy production capable of effectively awning sunlight entering the interior of a building by microalgae cultured in the chamber region of the chamber window.

Another object of the present invention is to provide a bio-energy that can be expected to reduce the energy load of buildings by increasing the thermal insulation performance compared to the conventional windows using gas filling by providing a culture medium and algae inside the chamber window. To provide a window for algae culture.

The objects of the present invention are not limited to the objects mentioned above, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the present invention is provided with a transparent material, the chamber-shaped window is provided in a box shape with both ends open to form a chamber region in which microalgae can be cultured inside; And an upper frame coupled to an upper portion of the chamber-type window, one frame coupled to one side of the chamber-type window, another frame coupled to the other side of the chamber-type window, and a lower frame coupled to a lower portion of the chamber-type window. It includes; a window frame comprising; provides a window for algae cultivation for bio-energy production, characterized in that the sunlight flowing into the interior by the microalgae cultured therein.

In a preferred embodiment, the upper frame is formed in the longitudinal direction, it is in communication with the chamber region of the chamber-type window, the water flow path for supplying algae medium to the chamber region; And an exhaust flow path formed in the longitudinal direction and communicating with the chamber region of the chamber-type window to allow oxygen discharged from the chamber region to enter the room, and formed in the longitudinal direction in the lower frame. An air supply passage communicating with the chamber region of the window and supplying carbon dioxide to the chamber region; And it is formed in the longitudinal direction, is in communication with the chamber area of the chamber-type window, there is provided a drainage flow path through which the microalgae and algae culture cultured from the chamber area is discharged.

In a preferred embodiment, the chamber-type window includes an upper bracket coupled to an upper end of the chamber-type window and a lower bracket coupled to a lower end of the chamber-type window, and the upper bracket includes a water supply unit communicating with the water supply passage. And an exhaust portion communicating with the exhaust flow path, and the lower bracket includes an air supply portion communicating with the air supply flow path; And a drainage portion communicating with the drainage flow path.

In a preferred embodiment, a plurality of chamber-type windows are provided in one window frame.

In a preferred embodiment, the microalgae are Chlorella sp., Chlorococcum sp., Spirulina sp., Haematococcus sp., Neospongiococcum sp. ), Scenedesmus sp. or Dunaliella sp.

In addition, the present invention is a window for algae culture according to the present invention; A first cartridge frame installed on the one side frame; Further comprising; a second cartridge frame installed on the other frame, the inside of the first cartridge frame is provided with an air supply pipe communicating with the air supply passage, and an exhaust pipe communicating with the exhaust flow passage in the vertical direction, The inside of the second cartridge frame further provides a curtain wall unit characterized in that the water supply pipe communicating with the water supply flow path and the drainage pipe communicating with the drain flow path are respectively provided in the vertical direction.

In addition, the present invention further comprises a curtain wall characterized in that the curtain wall units are arranged in multiple stages, the first cartridge frames neighboring in the vertical direction communicate with each other, and the second cartridge frames neighboring in the vertical direction communicate with each other. to provide.

In addition, the present invention further provides a building for curing birds equipped with the curtain wall.

The present invention has the following excellent effects.

First, according to the algae culture window for bioenergy production of the present invention, by culturing microalgae through the chamber region formed inside the chamber-type window, it can be utilized as a biomass for bioenergy production, fixed carbon dioxide And it has the effect of purifying the air by discharging oxygen.

In addition, according to the algae culture window for the bio-energy production of the present invention, by the microalgae cultured in the chamber region of the chamber-type window, it has the advantage of efficiently awning sunlight entering the interior of the building.

In addition, according to the algae culture window for the bio-energy production of the present invention, the inside of the chamber-type window is provided with a culture solution and algae, compared with conventional windows using gas filling, to increase the thermal insulation performance of the building energy It has the advantage that load reduction can be expected.

1 is a perspective view showing a curtain wall unit equipped with a window for algae culture for bio energy production according to an embodiment of the present invention.
2 is an exploded perspective view of a curtain wall unit equipped with a window for algae culture for bio energy production according to an embodiment of the present invention.
3 is a view for explaining a chamber-type window of the algae culture window for bio-energy production according to an embodiment of the present invention.
4 is a view for explaining the upper frame and the lower frame of the window for algae culture for bio-energy production according to an embodiment of the present invention.
5 is a view for explaining the cartridge frame of the curtain wall unit equipped with a window for algae culture for bio energy production according to an embodiment of the present invention according to an embodiment of the present invention.
6 is a view showing a curtain wall according to an embodiment of the present invention.
7 is a view for explaining the air supply flow path of the curtain wall unit according to an embodiment of the present invention.
8 is a view for explaining the exhaust passage of the curtain wall unit according to an embodiment of the present invention.
9 is a view for explaining the water supply flow path of the curtain wall unit according to an embodiment of the present invention.
10 is a view for explaining a drain flow path of the curtain wall unit according to an embodiment of the present invention.
11 is a view showing a building with a curtain wall according to an embodiment of the present invention.

The terminology used in the present invention has been selected as a general term that is currently widely used, but in certain cases, there are also terms that are arbitrarily selected by the applicant. Therefore, the meaning should be grasped.

Hereinafter, the technical configuration of the present invention will be described in detail with reference to preferred embodiments illustrated in the accompanying drawings.

However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Throughout the specification, the same reference numerals denote the same components.

1 is a perspective view showing a curtain wall unit equipped with a window for algae culture for bio energy production according to the present invention, and FIG. 2 is an exploded perspective view of FIG. 1.

1 and 2, the algae cultivation window 100 for bio-energy production according to an embodiment of the present invention functions as a window of a building while simultaneously cultivating microalgae. It comprises a window 110, a window frame 120.

Referring to FIG. 3, the chamber-type window 110 is a window in which microalgae are cultured in an interior space, and is provided in an open box shape with both ends formed with a chamber region 110a in which microalgae can be cultured. .

In addition, the chamber-type window 110 is provided with a transparent material, and is not limited as long as it is a material that can transmit sunlight, such as a glass material.

In addition, the microalgae include Chlorella sp., chlorococcum sp., Spirulina sp., Haematococcus sp., Neospongiococcum sp., Senedes It may be a Scenedesmus sp. or Dunaliella sp., and microalgae of different species may be used in combination.

The window frame 120 is a frame supporting the chamber-type window 110, and may include an upper frame 121, one frame 122, the other frame 123, and a lower frame 124.

Here, the upper frame 121 is a frame coupled to the upper portion of the chamber-type window 110, and may be provided in a detachable structure from the upper portion of the chamber-type window 110.

In addition, referring to FIG. 4, the upper frame 121 may be formed with a water supply passage 121a and an exhaust passage 121b.

Here, the water supply flow path (121a) is formed in the longitudinal direction of the upper frame 121, is in communication with the chamber area (110a) of the chamber-type window 110, the algae medium is supplied to the chamber area (110a) To make.

In addition, the algae medium is a culture medium containing nutrients in which microalgae can be cultured, and is not limited to the components and contents of the medium.

In addition, the exhaust flow path 121b is formed in a lengthwise direction of the upper frame 121 and spaced apart from the water supply flow path 121a and communicates with the chamber region 110a of the chamber-type window 110. , Oxygen generated by the microalgae is discharged from the chamber region 110a, and is introduced into the indoor space.

In addition, the one side frame 122 is a frame coupled to one side of the chamber-type window 110, and the other frame 123 is a frame coupled to the other side of the chamber-type window 110.

In addition, the lower frame 124 is a frame coupled to the lower portion of the chamber-type window 110, and may be formed with an air supply passage 124a and a drain passage 124b.

Here, the air supply flow passage 124a is formed in the longitudinal direction of the lower frame 124, communicates with the chamber area 110a of the chamber-type window 110, and includes carbon dioxide as the chamber area 110a. It is a flow path for supplying gas.

In addition, the drain flow passage 124b is formed in a lengthwise direction of the lower frame 124 and is spaced apart from the air supply passage 124a by a predetermined distance, and is in communication with the chamber area 110a of the chamber type gate 110. , It is a flow path through which the microalgae and algae medium cultured from the chamber region 110a are discharged.

In addition, a plurality of chamber-type windows 110 may be provided in one frame of the window frame 120.

For example, the chamber-type window 110 may be provided in four according to the design value, in this case, one side of the first chamber-type window 110-1 is connected to the one side frame 122, the second One side of the chamber-type window 110-2 is connected to the other side of the first chamber-type window 110-1, and one side of the third chamber-type window 110-3 is the second chamber-type window 110-2. -2) is connected to the other side of the fourth chamber-type window (110-4) is connected to the other side of the third chamber-type window (110-3), the fourth chamber-type window (110-4) ) Is connected to the other frame 123.

Further, the chamber-type window 110 may include an upper bracket 111 coupled to the upper end of the chamber-type window 110 and a lower bracket 112 coupled to the lower end of the chamber-type window 110. have.

Here, the upper bracket 111 is provided with a water supply part 111a and an exhaust part 111b, and the lower bracket 112 is provided with an air supply part 112a and a drainage part 112b.

The water supply unit 111a is positioned above the chamber-type window 110 so that the algae medium flowing through the water supply channel 121a is supplied to the chamber region 110a.

In addition, the exhaust portion 111b is positioned above the chamber-type window 110, communicates with the exhaust flow path 121b, and oxygen discharged from the chamber region 110a flows in and separate oxygen flow path. Through this, the oxygen is brought back into the room.

In addition, the air supply part 112a is located under the chamber-type window 110 and communicates with the air supply passage 124a, so that gas containing carbon dioxide is supplied to the chamber area 110a.

In addition, the drainage portion 112b is located under the chamber-type window 110, communicates with the drainage passage 124b, and allows the cultured microalgae and algae medium to be discharged from the chamber region.

In addition, a plurality of the water supply part 111, the exhaust part 112, the air supply part 113, and the drainage part 114 may be provided.

That is, the algae culture window 100 for bio-energy production according to the present invention cultivates microalgae through a chamber region formed inside the chamber-type window, so that a separate wide installation volume for culturing microalgae is not required. Instead, it can be applied as a window of a building and has the advantage of maximizing space utilization, and furthermore, it can utilize the produced algae as biomass, fix carbon dioxide and discharge oxygen to purify the air. The microalgae cultivated in the chamber region of the chamber-type window have the advantage of efficiently awning sunlight entering the interior of the building.

In addition, the algae culture window 100 for bio-energy production according to the present invention is provided with a culture medium and algae inside the chamber-type window, so compared with a conventional window using gas filling, the insulation performance is increased. It has the advantage that can be expected to reduce the energy load.

In addition, the algae culture window 100 according to the present invention may be provided as one curtain wall unit 200 together with the first cartridge frame 210 and the second cartridge frame 220.

Referring to FIG. 5, the first cartridge frame 210 is installed on an outer surface of the one side frame 122, and an air supply pipe 211 and an exhaust pipe 212 are provided therein.

Here, the air supply pipe 211 is provided in the longitudinal direction of the first cartridge frame 210, communicates with the air supply passage 124a, and the exhaust pipe 212 is a predetermined distance from the air supply pipe 211 Spaced apart, it is provided in the longitudinal direction of the first cartridge frame 210, and is in communication with the exhaust flow path (121b).

The second cartridge frame 220 is installed on the outer surface of the other frame 123, the inside is provided with a water supply pipe 221 and a drain pipe (222).

Here, the water supply pipe 221 is provided in the longitudinal direction of the second cartridge frame 220, is in communication with the water supply flow path (121a), the drain pipe 222 is a predetermined distance from the water supply pipe (211) Spaced apart, it is provided in the longitudinal direction of the second cartridge frame 220, and is in communication with the drain flow path (124b).

In addition, the present invention, as shown in Figure 6, the curtain wall unit 200 is arranged in multiple stages, the first cartridge frame 210 neighboring in the vertical direction is communicated with each other, the vertical neighboring The second cartridge frame 220 further provides a curtain wall 300 in communication with each other.

That is, adjacent air supply pipes and air supply pipes, drain pipes and drain pipes, water supply pipes and water supply pipes, exhaust pipes and exhaust pipes are respectively communicated with each other in the vertical direction, and one air supply pipe flow path, one drain pipe flow path, one A water supply pipe flow path and one exhaust pipe flow path are formed respectively.

Accordingly, all of the curtain wall units provided in the building can be interlocked, and can be driven by one algae culture device, and there is only one supply device for supplying carbon dioxide to one building and a supply device for supplying algae medium. Can be driven.

7 is a view for explaining an air supply passage of the curtain wall unit 200 according to the present invention, and FIG. 8 is a view for explaining an exhaust passage of the curtain wall unit 200 according to the present invention according to the present invention, 9 is a view for explaining the water supply flow path of the curtain wall unit 200 according to the present invention, and FIG. 10 is a view for explaining the drain flow path of the curtain wall unit 200 according to the present invention.

Hereinafter, with reference to FIGS. 7 to 10, the present invention will be described in more detail with respect to the air supply passage, the exhaust passage, the supply passage, and the drain passage of the curtain wall unit 200.

Referring to FIG. 7, gas containing carbon dioxide is supplied through the air supply pipe 211 of the first cartridge frame 210 and supplied to the chamber region 110a through the air supply passage 124a of the lower frame. do.

Referring to FIG. 8, the gas including oxygen generated by algae in the chamber region 110a is discharged through the exhaust passage 121b of the upper frame, and the exhaust of the first cartridge frame 210 It may be supplied to the room via the pipe 212.

Referring to FIG. 9, the algae culture fluid is supplied through the water supply pipe 221 of the second cartridge frame 220 and is supplied to the chamber region 110a through the water supply passage 121a of the upper frame.

Referring to FIG. 10, the microalgae cultured in the chamber region 110a is discharged through the drainage passage 124b of the lower frame, and discharged through the drainage pipe 222 of the second cartridge frame 220. do.

In addition, as illustrated in FIG. 11, the present invention may be provided as a building for curing birds with the curtain wall.

As described above, the present invention has been illustrated and described with reference to preferred embodiments, but is not limited to the above-described embodiments and is within the scope of the present invention without departing from the spirit of the present invention. Various changes and modifications will be possible.

100: algae culture window for bio energy production
110: chamber type window 110a: chamber area
111: upper bracket 112: lower bracket
120: window frame frame 121: upper frame
121a: water supply flow path 121b: exhaust flow path
122: one frame 123: the other frame
124: lower frame 124a: air supply passage
124b: drainage channel
200: curtain wall unit 210: first cartridge frame
211: supply pipe 212: exhaust pipe
220: second cartridge frame 221: drain pipe
222: water supply pipe
300: curtain wall
400: Bird breeding building

Claims (8)

It is provided with a transparent material, the chamber-like window is provided in a box shape with both ends open to form a chamber region in which micro-algae can be cultured inside; And an upper frame coupled to an upper portion of the chamber-type window, one frame coupled to one side of the chamber-type window, another frame coupled to the other side of the chamber-type window, and a lower frame coupled to a lower portion of the chamber-type window. It comprises a window frame;
A water supply channel formed in the upper frame in the longitudinal direction and communicating with the chamber region of the chamber-type window, and supplying algae medium to the chamber region; And an exhaust passage formed in the longitudinal direction and communicating with the chamber area of the chamber-type window to allow oxygen discharged from the chamber area to enter the room, and formed in the longitudinal direction in the lower frame, and the chamber type. An air supply passage communicating with the chamber region of the window and supplying carbon dioxide to the chamber region; And it is formed in the longitudinal direction, is in communication with the chamber area of the chamber-type window, the micro-algae cultured from the chamber area and a drainage flow path for discharging the algae medium is provided,
The chamber-type window includes an upper bracket coupled to an upper end of the chamber-type window and a lower bracket coupled to a lower end of the chamber-type window, wherein the upper bracket communicates with a water supply part communicating with the water supply passage and the exhaust passage. An exhaust part to be provided, and the lower bracket includes an air supply part communicating with the air supply passage; And a drainage part communicating with the drainage passage,
The chamber-type window is a window for algae cultivation for bioenergy production, characterized in that the sunlight flowing into the room is shaded by the microalgae cultured therein.
delete delete According to claim 1,
The chamber window
Algae culture windows, characterized in that provided in a plurality in one frame of the window frame.
According to claim 1,
The microalgae include Chlorella sp., chlorococcum sp., Spirulina sp., Haematococcus sp., Neospongiococcum sp., Senedusmus ( Scenedesmus sp.) or Dunaliella sp.
Claim 1, 4 and 5 for the algae culture window;
A first cartridge frame installed on the one side frame;
A second cartridge frame installed on the other frame; further includes,
Inside the first cartridge frame, an air supply pipe communicating with the air supply passage and an exhaust pipe communicating with the exhaust flow passage are respectively provided in the vertical direction.
The inside of the second cartridge frame is a curtain wall unit, characterized in that the water supply pipe in communication with the water supply flow path, and the drainage pipe in communication with the drain flow path are provided in the vertical direction.
The curtain wall unit of claim 6 is arranged in multiple stages,
A curtain wall characterized in that the first cartridge frames neighboring in the vertical direction communicate with each other, and the second cartridge frames neighboring in the vertical direction with each other.
A bird-curing building equipped with the curtain wall of claim 7.

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