KR101791626B1 - Rectangular Diffuser with Improved Oxygen Delivery Efficiency - Google Patents

Abstract

The present invention relates to a rectangular diffuser with improved oxygen delivery efficiency and, more specifically, to a membrane diffuser which is installed on the bottom surface in an aeration tank or a reactor, supplies gas to the upper side and can purify sewage or waste water. A horizontal direction shape of the membrane diffuser is formed in a rectangular shape, thereby being capable of increasing the aeration amount of gas and generating microbubbles uniformly.

Description

Technical Field [0001] The present invention relates to a rectangular diffuser with improved oxygen delivery efficiency,

The present invention relates to a quaternary acid generator having improved oxygen transfer efficiency, and more particularly, to a membrane oxygenator capable of purifying sewage or wastewater by supplying a gas to an upper portion of aeration tank or a bottom surface of a reaction tank, The present invention relates to a quadrangular pyramid device having an improved oxygen transfer efficiency capable of uniformly forming minute bubbles as well as increasing the amount of gas abandoned by forming the device in a horizontal shape in a rectangular shape.

The anaerobic device for treating sewage or wastewater is a device for decomposing and purifying organic matters of sewage or wastewater by causing microorganisms to perform biological action by cultivating and propagating microorganisms in an aeration tank or a reaction tank.

At this time, in order for the microorganisms to reproduce, oxygen is required. After mixing with the sludge using activated sludge, which is an aggregate of microorganisms and suspensions acting on the oxidation of organic matter, aerobic microorganisms oxidize the organic matter in the presence of oxygen By decomposing, the sewage or wastewater is purified.

The diffusion unit includes a membrane body having an oxygen supply unit for supplying oxygen, and a membrane membrane having a plurality of acid pores forming bubbles is formed on an upper surface of the membrane body.

At this time, a main supply pipe for supplying compressed air or oxygen to the oxygen supply unit is formed and connected by an oxygen supply tank or a compressor.

The membrane membrane is formed of a stretchable material. The membrane membrane is tightly adhered to the upper surface of the upper portion of the membrane body to seal the upper portion of the air supply unit. When the membrane is bubbled, the membrane membrane is supplied to the aeration tank or the reaction vessel.

A prior art document related to this is disclosed in Korean Utility Model Registration No. 20-0396008 ("Membrane Acoustic Engine ", Sep. 10, 2005).

At this time, in the conventional membrane producing apparatus, the air pressure is concentrated at the center of the air diffuser, so that the size of the bubbles in the center portion is large and the smaller the bubbles are, the more the bubbles are uniformly formed.

In addition, since the size of the conventional bubble differs from that of the conventional membrane producing apparatus, the bubble generated from the membrane diffuser installed in the bottom of the reaction tank or the aeration tank rises upward, A phenomenon that the air bubbles are concentrated on the central portion may be generated.

This is problematic in that the more the reaction zone or the aeration tank moves from the lower part to the upper part, the narrower the aeration area becomes.

Korean Utility Model Registration No. 20-0396008 ("Membrane Acid Engine ", Sep. 10, 2005)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a membrane diffuser, which is installed on a bottom surface of an aeration tank or a reaction tank and is capable of purifying sewage or wastewater, And to provide a quadrangular pyramid device having an improved oxygen transfer efficiency capable of uniformly forming minute bubbles as well as increasing the abandonment amount of the gas by forming the horizontal shape of the membrane diffuser in a quadrangular shape.

A square-shaped air diffusing apparatus having improved oxygen transfer efficiency according to the present invention includes: a membrane body connected to a gas supply pipe and having a gas supply unit vertically formed at a center in the horizontal direction; And a membrane membrane formed of a stretchable material and including a plurality of acid pores and formed in close contact with the upper surface of the membrane body at a non-porous state, wherein the membrane body has a rectangular cross section in the horizontal direction .

In addition, the membrane body may further include grooved grooves formed radially from the gas supply unit in the horizontal direction.

Further, the acid grooves are formed in the direction of the apex of the membrane body.

Further, the diffuser grooves are formed in a semicircular shape in the radial direction.

The membrane membrane may include an acid anchor membrane positioned in the acid anchor grooves and an acid membrane formed in other regions except the acid anchor grooves, wherein the acid anchor membrane membrane has a thickness greater than that of the acid membrane.

Further, the thickness of the groove film is formed to be 1 mm to 2 mm larger than the thickness of the oxide film.

The apparatus may further include a membrane holder coupled to the outer circumferential surface of the membrane body and having an outer circumferential surface of the membrane membrane inserted and fixed thereto.

A square-shaped air diffusing apparatus having improved oxygen transfer efficiency according to the present invention is characterized in that a square-shaped air diffusing apparatus capable of purifying sewage or wastewater by supplying a gas to an upper portion of aeration tank or a bottom surface of a reaction tank, By forming it into a quadrangular shape, it is advantageous not only to increase the amount of gas to be abandoned but also to produce fine bubbles uniformly.

The quadrangular pyramid device having improved oxygen transfer efficiency according to the present invention includes a grooved grooves formed radially from the gas supply part of the membrane body to prevent gas concentration to the central part where the gas supply part is located, There is an advantage that it can be distributed.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view of a quadrangular pyramid device with improved oxygen delivery efficiency according to an embodiment of the present invention; FIG.
FIG. 2 illustrates a membrane body of a rectangular device with improved oxygen delivery efficiency according to an embodiment of the present invention. FIG.
FIG. 3 is a diagram illustrating a comparison between a square device having improved oxygen transfer efficiency according to an embodiment of the present invention and a conventional diffuser. FIG.
FIG. 4 is a view showing the effect of the rectangular device with improved oxygen transfer efficiency according to an embodiment of the present invention. FIG.
5 illustrates a square device with improved oxygen delivery efficiency according to a first embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a rectangular device having improved oxygen transfer efficiency according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Prior to this, terms and words used in the present specification and claims should not be construed in a conventional or dictionary sense, and the inventor should appropriately define the concept of the term to describe its invention in the best possible way The present invention should be construed in accordance with the spirit and concept of the present invention.

It is therefore to be understood that the embodiments described herein and the arrangements shown in the drawings are only the most preferred embodiments of the present invention and that various equivalents and modifications may be substituted for them at the time of the present application .

FIG. 1 is a cross-sectional view of a square-shaped oxygenator with improved oxygen delivery efficiency according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view illustrating a membrane body of a rectangular device having improved oxygen transfer efficiency according to an embodiment of the present invention. FIG. 3 is a view showing a comparison between a square device having improved oxygen transfer efficiency and a conventional diffuser according to an embodiment of the present invention. FIG. 4 is a cross- And shows the effect of the device.

As shown in FIGS. 1 to 4, a quadrupole oxygenator 1000 having improved oxygen transfer efficiency according to an embodiment of the present invention is installed on the bottom surface of an aeration tank or a reaction tank, The oxygen to be supplied to the upper part is preferably oxygen.

The quadrangular pyramid device 1000 having improved oxygen transfer efficiency according to an embodiment of the present invention is formed of a membrane body 100 and a membrane 200.

The membrane body 100 is installed on the bottom surface of the aeration tank or the reaction tank and includes a gas supply unit 110 passing through the center in the horizontal direction and vertically to supply the gas.

The gas supply unit 110 receives gas from the gas supply pipe 1 and the gas supply pipe 1 can be embedded in the aeration tank or the bottom surface of the reaction tank, So that the gas can be supplied to the gas supply unit 110.

That is, the membrane body 100 of the quadrangular pyramid device 1000 having improved oxygen transfer efficiency according to an embodiment of the present invention may be formed in a plurality of arrangements along the gas supply pipe 1 in the aeration tank or the reaction tank.

The gas supply unit 110 may be fixed to the threaded socket 101 formed at the center of the membrane body 100 in the horizontal direction. However, the gas supply unit 110 is not limited thereto and various coupling methods are possible.

The membrane 200 is formed of a stretchable material and includes a plurality of acid pores 210.

At this time, the membrane 200 is formed in close contact with the upper surface of the membrane body 100 in a non-

The membrane 200 is formed of a stretchable material and includes a plurality of acid pores 210 formed in close contact with the upper surface of the membrane body 100 in a non-porous state.

That is, since the membrane 200 can form bubbles through the acid pores 210, the gas introduced through the gas supplying part 110 can be formed as a microfilter, and fine bubbles can be directed upward in the aeration tank or the reaction tank .

More specifically, the gas introduced through the gas supply unit 110 is moved to the upper surface of the membrane body 100, and the gas moved to the upper surface of the membrane body 100 passes through the acid pores (210) and is moved upward.

The membrane membrane 200 is formed of a stretchable material so that it is in close contact with the upper surface of the membrane body 100 in the non-vapor phase as described above. In the bubble state, And bubbles are formed through the acid pores 210.

In addition, the square-shaped acid generator 1000 having improved oxygen transfer efficiency according to the present invention includes a membrane holder 300, which is formed to be coupled to the outer circumferential surface of the membrane body 100 and is inserted and fixed to the outer circumferential surface of the membrane membrane 200, .

The membrane holder 300 may be fixed to and released from the outer circumferential surface of the membrane body 100 through a screw operation and may be fixed to various membrane bodies 100 in addition to the above-described method.

The membrane holder 300 is fixed to the outer circumferential surface of the membrane body 100 and the outer circumferential surface of the membrane membrane 200 is inserted and fixed to prevent the membrane membrane 200 from escaping due to bubbles.

Since the membrane holder 300 is a well-known technology widely used in the air diffuser, detailed description of its shape will be omitted.

The quadrupole oxygenator 1000 having improved oxygen transfer efficiency according to an embodiment of the present invention will be described in more detail.

The membrane body 100 of the quadrangular pyramid device 1000 having improved oxygen delivery efficiency according to an embodiment of the present invention is formed such that the cross section in the horizontal direction has a rectangular shape, The directional section is formed to have a square shape.

That is, according to an embodiment of the present invention, a square-shaped acid generator 1000 having improved oxygen transfer efficiency is formed by a membrane body 100 having a rectangular cross-section in a horizontal direction, There is an advantage that the effective area of the acid pores 210 is widened.

Referring to FIG. 3, the membrane body 100 of the quadrangular pyramid device 1000 according to an embodiment of the present invention, in which the outer horizontal section has a rectangular shape, has a circular cross- It can be seen that the effective area in which the acid pores 210 can be formed is wider than that in the air diffuser.

This is advantageous in that the amount of the aeration is larger than that in the conventional art, because the area of the acid pores is wider than that of the conventional acidifier.

In addition, the membrane body 100 further includes grooved grooves 120 radially disposed from the gas supply unit 110 in the horizontal direction.

Particularly, it is preferable that the diffuser grooves 120 formed in the membrane body 100 are radially formed and formed in the direction of a rectangle.

That is, the membrane body 100 includes four diffuser grooves 120 radially formed in a diagonal direction from the gas supply unit 110, so that the minute bubbles 120 formed through the acid holes 210 of the membrane membrane 200 Can be uniformly generated,

More specifically, the air diffuser having a conventional circular shape concentrates the air pressure at the central portion of the membrane body, so that the air bubbles generated at the central portion are large in size, and the air bubbles generated at the central portion are smaller There is a problem that a uniform bubble can not be formed in one diffuser.

This is because there is a fear that the bubbles generated at the side are absorbed by the bubbles generated at the center portion as the bubbles generated due to the difference in size of the bubbles generated are increased and consequently the bubbles are concentrated at the central portion. A phenomenon in which the aeration area becomes narrow may occur.

In contrast, according to an embodiment of the present invention, the rectangular sacrifice device 1000 having improved oxygen transfer efficiency is formed by forming a square cross-section of a horizontal cross-section of the membrane body 100, 120, gas can be distributed to the entire surface of the membrane body 100, so that fine bubbles can be uniformly formed.

In addition, since fine bubbles having a uniform size can be formed, it is possible to prevent the bubbles from being concentrated in the central part where the gas supplying part 110 is formed, and thus the phenomenon that the giving area is narrowed can be prevented. (See Fig. 4, Fig. 4 (a) is a cross-sectional view of a circular diffraction device in the horizontal direction in the related art, and Fig. 4 (b) is a schematic view of a rectangular diffuser device with improved oxygen transfer efficiency according to an embodiment of the present invention to be.)

In addition, the quadrangular pyramidal device 1000 having improved oxygen transfer efficiency according to an embodiment of the present invention includes the diffuser grooves 120, so that when the supply of gas from the gas supply unit 110 is blocked, that is, The residual gas remains in the diffuser grooves 120 and the membrane 200 can maintain its original shape, so that the deformation of the membrane 200 can be minimized.

In this case, it is preferable that the diffuser grooves 120 are formed in a semicircular shape having a curved section in the radial direction, and the diffuser grooves 120 are formed to have a semicircular shape in the radial direction, Can be minimized.

However, it is needless to say that the above-described shape of the radial section of the mountain-shaped groove 120 is a recommended shape, but it is not limited thereto and may have various radial sections.

<Rectangular diffuser device with improved oxygen transfer efficiency according to the first embodiment of the present invention>

As shown in FIG. 5, the membrane 200 of the square-pyramidal diffuser 1000 with improved oxygen delivery efficiency according to the first embodiment of the present invention includes an aerating membrane 201 disposed in the aerating grooves 120, , And an acid film (202) formed in the remaining region except the diffused grooves (120).

At this time, it is preferable that the thickness of the acid-base film 201 located in the groove 120 is larger than the thickness of the acid film 202.

That is, the thickness of the acid-phase grooves 201 located in the grooves 120 is larger than the thickness of the membrane 202, so that the membrane 200 has a relatively small thickness in the direction of the membrane 202, It is possible to distribute the gas uniformly in both directions of the diffuser grooves 120 at the upper surface of the membrane body 100 by flowing the gas in the lateral direction of the membrane 120.

In other words, the quadrangular pyramid device 1000 having improved oxygen transfer efficiency according to the first embodiment of the present invention forms an acid part in the central part where the gas supply part 110 is provided, and at the same time, Since the separate small base portions formed on both sides of the diffuser grooves can be formed, the diffuser grooves 201 can play a role of adding four small diffuser portions corresponding to one diffuser.

At this time, it is preferable that the thickness of the organic base film 201 is 1 mm to 2 mm larger than the thickness of the acid film 202.

However, the present invention is not limited to this, as it can be formed to have various thicknesses depending on the amount of gas to be supplied and the cross-sectional area in the horizontal direction of the membrane body 100.

1000: Rectangular diffuser with improved oxygen delivery efficiency
100: membrane body
101: Threaded socket
110:
120: Mountain Home
200: Membrane membrane
201: Seasonal roughs
202:
210:
300: Membrane holder

Claims (7)

A membrane body (100) connected to the gas supply pipe (1) and having a gas supply part (110) formed in a vertically penetrating manner at the center in the horizontal direction; And
And a membrane membrane (200) formed of a stretchable material and including a plurality of acid pores (210) formed in close contact with the upper surface of the membrane body (100)
The membrane body (100)
The horizontal cross section is formed to have a rectangular shape,
A groove formed radially in a horizontal direction from the gas supply unit 110 and formed in a direction of a vertex of the membrane body 100 to distribute the gas to the front surface of the membrane body 100 to uniformly form minute bubbles And an annular groove (120)
The diffuser grooves 120
The radial cross section is formed in a semicircular shape so that the frictional force is minimized and the gas transmission is improved,
The membrane 200 is
An acid anchor membrane 201 located in the acid anchor grooves 120 and an acid membrane membrane 202 formed in an area other than the aerator anchor grooves 120,
The thickness of the acid-base film 201 in the downward direction is set to be 1 mm to 2 mm larger than the thickness of the acid film 202 And distributing the gas flowing along the diffuser grooves (120) to both sides to minimize the blind spots in which gas can not be uniformly distributed in the membrane body (100).
delete delete delete delete delete The method according to claim 1,
The quadrangular pyramid device 1000 with improved oxygen delivery efficiency
Further comprising a membrane holder (300) formed to be able to engage with an outer circumferential surface of the membrane body (100) and to which an outer circumferential surface of the membrane membrane (200) is inserted and fixed.

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