KR101379759B1 - Gravity filtration device for microalgal cultures - Google Patents

Abstract

The present invention relates to a microalgae filtration device allowing acquiring a slurry state of microalgae by removing water in microalgae suspension, and to achieve this, is adapted to fully-automatically perform a series of processes of removing water contained in the microalgae suspension through a plurality of vertically installed filtration units; collecting a slurry state of the microalgae by inverting a filtration membrane of the filtration unit and dropping it to a sink of a discharge unit; vertically swinging the a slurry state of the dropped microalgae to the sink again in a state where interference of the filtration unit is removed by horizontally swinging the sink, thereby acquiring a slurry state of microalgae in a separate container.

Description

Microalgae Filtration Equipment {GRAVITY FILTRATION DEVICE FOR MICROALGAL CULTURES}

In the present invention, the filter membrane is inverted to minimize filter clogging so that less energy and lower energy costs can be consumed in the pre-treatment dehydration process. In addition, the process of obtaining the microalgae from which the microalgae is removed and the moisture is removed is performed automatically. The present invention relates to a microalgae filtration apparatus which enables the microalgae filtration apparatus. More specifically, the microalgae of the microalgae suspension is removed through a plurality of vertically installed filtration units, and the microalgae in the slurry state in which the moisture is removed is inverted. After the drop is collected by dropping into the drain of the discharge section, the slurry of the microalgae dropped into the drainage is rotated again in the vertical direction while removing the interference of the filter by turning the drainage horizontally to obtain the microalgae of the slurry in a separate container. Microalgae configured to perform a series of processes automatically It relates to the exaggerated value.

In general, the size of the microalgae of seawater reaches 1 ~ 50㎛, and due to various capabilities, has been used for the production of useful substances such as fuels, cosmetics, feed, food coloring and pharmaceutical raw materials, Useful high value materials are constantly being discovered and expanding their applications.

Typically, microalgae have unlimited potential as a raw material of biodiesel because they have the advantage of being able to harvest a large amount in a short time due to rapid growth and breeding activity depending on the culture environment conditions.

In obtaining such microalgae, first, the microalgae are collected and then dehydrated in the microalgae to be used as various raw materials.

However, the microalgae harvesting method is composed of natural filtration and centrifugation orseparation. In addition, there are flocculation and floating.

In particular, natural filtration is a simple harvesting method commonly used in that the dehydration process is convenient.

However, this natural filtration method is difficult to manage because it takes a long time to lower the moisture content of the suspension containing the microalgae.

In addition, the longer the filter membrane is used, the pores of the filter membrane are clogged, which lowers the filtration efficiency.

Therefore, the above-mentioned natural filtration management problem is solved by automatic treatment, and the problem of clogging of the filtration membrane can be solved by reversing the filtration membrane to lower the suspension containing the microalgae with high moisture content at a constant moisture content so that the dehydration performance of the pretreatment is deteriorated. There is a need for a device that can solve the problem.

The present invention has been made in view of the above problems, the first object of the present invention, the present invention is to reverse the filter membrane to minimize the filter clogging, less energy and lower energy costs in the pre-treatment dehydration process to improve the dehydration performance In addition, the present invention provides a microalgae filtration device that allows the microalgae to remove water and to obtain a microalgae from which water is removed.

Furthermore, a second object of the present invention is to remove the water contained in the microalgal suspension through a plurality of vertically installed filtration unit, and the microalgae in the slurry state from which the water is removed is inverted by the filtration membrane of the filtration unit and then into the drainage part of the outlet. Collected by dropping, but the microalgae in the slurry state dropped to the drainage drains the horizontal to the drainage tank to remove the interference of the filter unit in the vertical direction again to obtain a microalgae of slurry state in a separate container It is to provide a microalgal filtration device.

According to a feature of the present invention for achieving the object as described above, the first invention relates to a microalgae filtration device for removing the water of the suspension containing the microalgae, the microalgae suspension A vertical supply pipe (1) connected to a stored tank (not shown) and having a built-in valve (12) for intermittent inflow of the microalgal suspension and connected with a plurality of discharge pipes (11) along a longitudinal direction; and the vertical supply pipe A filtration membrane 21 which is supported in a cantilever shape on the outer circumferential surface of (1) and disposed below the respective discharge pipes 11 and receives the microalgal suspension discharged through the discharge pipes 11 to discharge moisture by its own weight. And, a plurality of filtration unit (2) consisting of inverting means 22 for inverting each of the filtration membranes 21 so as to discharge the microalgae in the slurry state from which water is removed; And a cantilever shape supported on an outer circumferential surface of the vertical supply pipe 1 and disposed below the respective filtration units 2, and the water discharged through the filtration membrane 21 is discharged to the outlet 311 to be discharged. 22, the microalgae in the slurry state in which the filtration membrane 21 is inverted and dropped through the drainage tank 31 is temporarily stored, and the microalgae in the slurry state temporarily stored in the drainage 31 are separately collected (not shown). A plurality of discharge parts (3) consisting of turning means (32) for pivoting the sump (31) in a horizontal direction and a vertical direction so that they can be stored in a), but is connected to the vertical supply pipe (1). Each of the discharge pipes 11 is characterized in that the tube diameter is reduced toward the lower portion so that the microalgal suspension is uniformly discharged sequentially.

The second invention is, in the first invention, the first support plate 13 for arranging the filtration unit 2 in the lower portion of the discharge pipe 11 on the outer peripheral surface of the vertical supply pipe (1), and each of the filtration unit ( It is preferable that the second support plate 14 for disposing the discharge part 3 in the lower part of 2) is further coupled.

The third invention, in the first invention, each of the discharge portion 3 is preferably formed so that the free end is inclined downward to facilitate the discharge of water.

The fourth invention, in the second invention, each filtration membrane 21 is configured to be connected to the two support rods 211, each inverting means 22 is first seated fixed to the upper portion of the first support plate (13) A rotating disc 222 connected to the first motor 221 and the first motor 221 and having grooves 222a formed at both sides for accommodating one end of each supporting rod 211 to invert the filtration membrane 21 by rotation. And a pair of second motors 223 disposed on both sides of the first motor 221 and seated and fixed to an upper portion of the first support plate 13, and connected to the second motors 223 and rotated. It is preferably composed of a pair of conveyor belts 224 for conveying each support rod 211 connected to the filtration membrane 21 from side to side.

In the fourth invention, in the fourth invention, the surface of each conveyor belt 224 is formed with a plurality of protrusions and protrusions 224a protruding to support each support rod 211 while preventing the flow of each support rod 211. It is preferable to be.

The sixth invention, in the fourth or fifth invention, each conveyor belt 224 further comprises a sub-conveyor belt 226 interlocked through the connecting rod 225, each of the sub-conveyor belt 226 is It is preferable to transfer the free end of each support bar 211 from side to side.

According to a seventh invention, in the fourth invention, a guide plate 222b having an "arc" shape is disposed at the lower portion of the rotating disc 222 so as to be guided together with the separation of the supporting rod 211 accommodated in the groove 222a. It is preferable to be.

Eighth invention, in the second invention, each of the second support plate 14 is coupled to the side of the vertical supply pipe (1) in order to avoid interference of the filtration unit (2) when the basin 31 is rotated in the horizontal direction It is preferable to be.

The ninth invention, in the eighth invention, each of the pivot means 32 is fixed to the upper surface of the second support plate 14 and the third motor 321 for pivoting the sump 31 in the horizontal direction; And a cylindrical pipe 322 coupled to the third motor 321 and fixed to an end surface of the pipe 322 so that a rotating shaft penetrates through the pipe 322 so as to be biased to the drain basin 31. It is preferably composed of a fourth motor 323 for turning the drain 31 in the vertical direction.

According to the microalgal filtration apparatus according to the present invention, the filtration membrane can increase the filtration efficiency by using a membrane filter, and also takes a very long time, and the process of removing water through the filtration membrane, Since a series of processes for storing the microalgae in a separate container can be performed automatically, there is an effect that a large amount of microalgae can be obtained without time constraints.

1 is a perspective view of a microalgae filtration device according to the present invention,
Figure 2 is a perspective view of the filter portion extracted in Figure 1,
3 is a perspective view of the discharge portion extracted from FIG.
4 is a cross-sectional configuration of FIG.
5 is a cross-sectional view showing a state in which the suspension of the microalgae supplied through the vertical supply pipe is discharged through the discharge pipe,
6 is a cross-sectional view showing the discharge of water contained in the suspension of the microalgae accommodated in the filtration membrane of the filtration unit,
7 is an operation of the inverting means showing the inverted state of the filtration membrane in order to drop the microalgae in the slurry state in which water is discharged;
8 is an operation of the turning means showing that the microalgae in the slurry state to rotate the drainage reservoir stored in the horizontal direction,
9 is an operation diagram showing the discharge state of the microalgae in the slurry state by turning the drainage tank rotated in the horizontal direction in the vertical direction.

Hereinafter, the microalgae filtration device according to the present invention will be described in detail together with the accompanying drawings.

1 is a perspective view of a microalgae filtration apparatus according to the present invention, Figure 2 is a perspective view of the filter portion extracted from Figure 1, Figure 3 is a perspective view of the discharge portion extracted from Figure 1, Figure 4 is a cross-sectional configuration of Figure 1 to be.

As shown in Figures 1 to 4, the present invention by inverting the filtration membrane to minimize the filter clogging to take less energy and lower energy costs in the pre-treatment dehydration process, in addition to the removal of water and moisture of microalgae The present invention relates to a microalgae filtration device that allows the process of acquiring the microalgae to be fully automated.

The microalgae filtration apparatus removes the water contained in the microalgae suspension through a plurality of installed in the vertical direction, and the microalgae in the slurry state in which the water is removed is collected by inverting the filtration membrane of the filtration unit and dropping to the drain of the outlet. , The microalgae in the slurry state dropping into the drainage can be automatically operated in a series of processes to obtain the microalgae in the slurry state in a separate container by turning the drainage tank horizontally and turning again in the vertical direction while removing interference from the filtration unit. It is configured to be.

This microalgae filtration device is composed of three parts, which is composed of a vertical supply pipe (1), the filtration section (2) and the discharge section (3).

Here, the vertical supply pipe 1 is connected to a tank (not shown) in which the microalgal suspension is stored, and a valve 12 for controlling the inflow of the microalgal suspension is embedded, and a plurality of discharge pipes 11 are connected along the longitudinal direction. It is a structure. Here, the valve may be configured as a solenoid valve that is opened or closed manually or electrically.

At this time, each of the discharge pipe 11 has a diameter (H ₁₎ toward the lower so that the microalgal suspension is uniformly discharged sequentially from the upper side to the lower side of the vertical feed pipe (1) ＞ H ₂ > H ₃ ) becomes smaller.

This structure is configured such that the discharge pipe 11 formed in the lower portion of the vertical supply pipe 1 has a large discharge pressure of the microalgal suspension, so that the diameter of the microalgal suspension can be uniformly discharged. In addition, it can be configured to have a diameter of each discharge pipe 11, and can be configured by providing a valve 12 between each discharge pipe (11).

In addition, on the outer circumferential surface of the vertical supply pipe 1, the first support plate 13 for disposing the filter unit 2 to the lower portion of each discharge pipe 11 and the discharge unit 3 to the lower portion of the filter unit 2 The second support plate 14 for disposing is further configured to be coupled.

And each of the filtration unit (2) is supported in the cantilever shape on the first support plate 13 coupled to the outer peripheral surface of the vertical supply pipe (1) is configured to be disposed below the respective discharge pipe (11).

Each of the filtration unit 2 is supplied with the microalgae suspension discharged through the discharge pipe 11, the filtration membrane 21 for discharging water by its own weight, and to discharge the microalgae in the slurry state from which water is removed. It is composed of inverting means 22 for inverting each of the filtration membranes 21 to be able to.

Here, each of the filtration membranes 21 is configured to be connected to two support rods 211 so that the width thereof can be varied.

Each of the inverting means 22 inverts the filtration membrane 21 so as to drop the microalgae in a slurry state from which moisture accumulated in the filtration membrane 21 is removed.

Each of the inverting means 22 is connected to the first motor 221 seated and fixed on the upper portion of the first support plate 13, the first motor 221 and one end of each support rod 211 on both sides Grooves 222a are formed to accommodate the rotating disc 222 for inverting the filtration membrane 21 by rotation, and are disposed on both sides of the first motor 221 to be seated and fixed on an upper portion of the first support plate 13. It is composed of a pair of second motor 223 and a pair of conveyor belts 224 connected to each of the second motors 223 and rotated and conveying each support rod 211 connected to the filtration membrane 21 from side to side.

In this case, a plurality of protrusions and protrusions 224a are formed on the surface of each conveyor belt 224 to prevent each support rod 211 from flowing and to transfer each support rod 211.

And each of the conveyor belt 224 further comprises a sub-conveyor belt 226 interlocked through the connecting rod 225, each of these sub-conveyor belt 226 transfers the free end of each of the supporting rods 211 to the left and right To function.

In addition, the lower portion of the rotary disk 222 is a structure in which a guide plate 222b having an "arc" shape is disposed so as to guide the support rod 211 accommodated in the groove portion 222a with separation prevention.

The reversing means 22 described above includes one end of each support rod 211 connected to two conveyor belts 224 and two sub-conveyor belts 226 interlocked with the respective conveyor belts 224. And the free end is seated and configured to expand or retract the filtration membrane 21, each support rod 211 through each of the conveyor belt 224 and the sub-conveyor belt 226 grooves of the rotating disc 222 (222) 222a), the rotating disc is rotated 180 ° through the first motor 221 so that the filtration membrane 21 can be inverted to discharge the microalgae in the slurry state from which moisture is removed from the filtration membrane 21 ( It functions to fall to the drain 31 of 3).

On the other hand, each discharge portion (3) is supported in the cantilever shape on the outer peripheral surface of the vertical supply pipe (1) is disposed below the respective filter portion (2). At this time, each of the second support plate 14 formed in the vertical supply pipe (1) is coupled to the side of the vertical supply pipe (1) in order to avoid interference of the filter unit (2) when the drain 31 is turned in the horizontal direction It is a structure.

Each of the discharge parts 3 is composed of a drain 31 and a swinging means (32).

Here, the drain 31 is discharged by the water discharged through the filtration membrane 21 to the discharge port 311 and the microalgae in the slurry state in which the filtration membrane 21 is inverted and dropped through the inverting means 22 temporarily. Function to save.

The pivoting means 32 pivots the sump 31 in a horizontal direction so that the microalgae in the slurry state temporarily stored in the sump 31 can be stored in a separate container (not shown). ), And the pivoting drain 31 is pivoted again in the vertical direction.

 Each of the pivot means 32 is fixed to the upper surface of the second support plate 14 and coupled to the third motor 321 and the third motor 321 to pivot the drain 31 in the horizontal direction. The cylindrical pipe 322 is fixed to the end surface of the pipe 322, the rotating shaft penetrates through the pipe 322 to be biased to the drain 31, turning the drain 31 in the vertical direction The fourth motor 323 is composed of.

When the above-described turning means 32 is a microalgae in the slurry state to the top of the drain 31, the drainage through the third motor 321 to store the microalgae in a separate container (not shown) By turning the (31) in the horizontal direction to avoid interference of the filter unit 2, and also by turning the drain (31) pivoted in the horizontal direction in the vertical direction through the fourth motor (323) of the drain (31). The microalgae in the slurry state is discharged to the discharge port 311 to be stored in the container (not shown).

On the other hand, the filtration membrane 21 is preferably composed of a membrane filter, the first motor 221, the second motor 223, the third motor 321, the fourth motor 323, the valve A control unit (not shown) for controlling (12) may be provided, and may also be configured to have a timer (not shown) so that each motor (221, 223, 321, 323) has a pause when removing water contained in the microalgal suspension. Of course.

Hereinafter, the operation of the microalgal filtration apparatus according to the present invention will be briefly described with reference to the accompanying drawings.

5 is a cross-sectional view showing the suspension of the microalgae supplied through the vertical supply pipe is discharged through the discharge pipe, Figure 6 is a cross-sectional view showing the discharge of water contained in the suspension of the microalgae accommodated in the filtration membrane of the filter portion 7 is an operation of the inverting means showing the inverted state of the filtration membrane in order to drop the slurry microalgae discharged water to the discharge portion, Figure 8 is a horizontal direction of the drainage reservoir in which the microalgae in the slurry state is stored FIG. 9 is an operation diagram showing the discharge state of the microalgae in the slurry state by pivoting the drainage table rotated in the horizontal direction in the vertical direction.

First, as shown in FIG. 5, when the valve 12 of the vertical supply pipe 1 is opened, the suspension of the microalgae is uniformly discharged sequentially from the top to the bottom by the difference in the diameter of each discharge pipe 11.

Then, as shown in FIG. 6, the water in the microalgal suspension passes through the filtration membrane 21 of each filtration unit 2 and falls to the drain 31 of the discharge unit 3, and the dropped water is discharged from the drain 31. The discharge port 311 is discharged. Then, only the microalgae in the slurry state remain in the filtration membranes 21 of the respective filtration units 2.

Thereafter, as shown in FIG. 7B, each of the filtration units 2 passes through each of the conveyor belts 224 through the second motors 223 to remove the microalgae in the slurry state accumulated in the filtration membrane 21. And rotate the sub-conveyor belt 226 to accommodate each support rod 211 as the groove portion 222a of the rotation disc 222.

And as shown in (c) and (d) of FIG. 7, the filtration membrane 21 is inverted by rotating the rotating disc 222 through the first motor 221, and the filtration membrane 21 is inverted as the filtration membrane 21 is inverted. Slurry microalgae accumulated in the (21) to fall to the drain 31 of the discharge portion (3), and each of the conveyor belt 224 and the sub-conveyor belt through the second motor 223 in succession The filter membrane 21 is unfolded by rotating 226 to allow the space between the supporting rods 211 to be widened.

And, as shown in Figure 8, the discharge portion 3 is a third motor 321, which is a turning means 32 to store the microalgae in the slurry state dropped to the drain 31 in a separate container (not shown) Rotation of the drainage 31 in the horizontal direction to rotate to eliminate the interference of the filter (2).

Finally, as shown in FIG. 9, the fourth motor 323 is rotated so that the drain 31 is pivoted in the vertical direction so that the microalgae in the slurry state in the upper part of the drain 31 is separated through the outlet 311. To be stored in a container (not shown).

Although the present invention has been described in connection with the preferred embodiments mentioned above, various other modifications and variations will be possible without departing from the spirit and scope of the invention. It is, therefore, to be understood that the appended claims are intended to cover such modifications and changes as fall within the true scope of the invention.

1: vertical feed line 11: discharge line 12: valve
13: first support plate 14: second support plate
2: filtration part 21: filtration membrane 211: support rod
22: inverting means 221: first motor
222: rotating disk 222a: groove
222b: guide plate 223: second motor
224: conveyor belt 224a: irregularities
225: connecting rod 226: subconveyor belt
3: outlet 31: drain 311: outlet
32: turning means 321: third motor
322: pipe 323: fourth motor

Claims (9)

In the microalgae filtration apparatus for removing the water of the suspension containing the microalgae,
A vertical supply pipe 1 connected to a tank (not shown) in which the microalgae suspension is stored and having a valve 12 intermittent to control the inflow of the microalgae suspension, and to which a plurality of discharge pipes 11 are connected along the longitudinal direction;
A filtration membrane which is supported in a cantilever shape on the outer circumferential surface of the vertical supply pipe 1 and disposed below the respective discharge pipes 11 and receives the microalgal suspension discharged through the discharge pipes 11 to discharge water by its own weight. A plurality of filtration sections (2) composed of an inverting means (22) for inverting the respective filtration membranes (21) so as to discharge the microalgae in the slurry state from which water is removed; And
Supported in the cantilever shape on the outer circumferential surface of the vertical supply pipe (1) is disposed in the lower portion of each filtration unit 2, the water discharged through the filtration membrane 21 is led to the discharge port 311 and discharged and inverting means (22) The microalgae in the slurry state in which the filtration membrane 21 is inverted and dropped through the drainage tank 31 is temporarily collected, and the microalgae in the slurry state temporarily stored in the drainage 31 is separately collected (not shown). It includes; a plurality of discharge portion (3) consisting of a turning means 32 for pivoting the drainage 31 in the horizontal and vertical directions to be stored in
Each discharge pipe (11) connected to the vertical supply pipe (1) is a microalgae filtration device, characterized in that the tube diameter is reduced toward the bottom so that the microalgal suspension is uniformly discharged in sequence.
The method according to claim 1,
On the outer circumferential surface of the vertical supply pipe 1, a first support plate 13 for arranging the filtration unit 2 below the respective discharge pipes 11, and the discharge unit 3 below the filtration unit 2; Microalgae filtration device, characterized in that the second support plate 14 for further positioning.
The method according to claim 1,
Each of the discharge portion 3 is a microalgae filtration device, characterized in that the free end is formed to be inclined downward to facilitate the discharge of water.
3. The method of claim 2,
Each filtration membrane 21 is configured to be connected to two support rods 211,
Each of the inverting means 22 is connected to the first motor 221 seated and fixed to the upper portion of the first support plate 13, the first motor 221 and both sides to accommodate one end of each support rod 211 Groove 222a is formed to rotate the rotating disk 222 to invert the filtration membrane 21 by rotation, and a pair of the two motors disposed on both sides of the first motor 221 is fixed to the upper portion of the first support plate 13 And a pair of conveyor belts 224 connected to the second motor 223 and each of the second motors 223 to rotate the supporting rods 211 connected to the filtration membrane 21 from side to side. Microalgae filtration device.
5. The method of claim 4,
The surface of each conveyor belt 224 microalgae filtration device characterized in that a plurality of protrusions and protrusions (224a) are formed to prevent each flow of support rods 211 and to transfer each support rod (211).
The method according to claim 4 or 5,
Each of the conveyor belts 224 further includes a subconveyor belt 226 interlocked through the connecting rod 225, and each of the subconveyor belts 226 transfers the free end of each of the supporting rods 211 from side to side. Microalgal filtration device characterized in that.
5. The method of claim 4,
The microalgae filtration device is characterized in that the lower portion of the rotating disc 222 is arranged to guide the guide plate (222b) of the shape of the arc so as to guide the departure of the support rod (211) accommodated in the groove portion (222a).
3. The method of claim 2,
Each second support plate (14) is a microalgae filtration device, characterized in that coupled to the side of the vertical supply pipe (1) to avoid interference of the filter unit (2) when the drain (31) is turned in the horizontal direction.
9. The method of claim 8,
Each of the pivot means 32 is fixed to the upper surface of the second support plate 14 and coupled to the third motor 321 and the third motor 321 to pivot the drain 31 in the horizontal direction. The cylindrical pipe 322 is fixed to the end surface of the pipe 322, the rotating shaft penetrates through the pipe 322 to be biased to the drain 31, turning the drain 31 in the vertical direction Microalgae filtration device, characterized in that consisting of a fourth motor (323) to.

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