KR20190074507A - Apparatus for separation of waste oil - Google Patents

Abstract

The present invention relates to a waste oil water separation apparatus. More particularly, the present invention relates to a waste oil water separation apparatus for separating waste oil water in which water and oil are mixed into water and oil using pressure change and specific gravity difference while passing the waste oil water through a porous plate which does not use any power or energy. According to the present invention, the apparatus can be manufactured from a small size to a large size at low cost as compared with a conventional centrifugal separator or a chemical or electrical type waste oil water separator. The operating cost can be reduced by minimizing the use of the power required for the operation.

Description

[0001] APPARATUS FOR SEPARATION OF WASTE OIL [0002]

The present invention relates to a waste water separator, and more particularly, to a waste water separator for a waste water separator, which is made by passing water through a porous plate which does not use power or energy, And separating the waste water into oil.

In general, raw water containing water and oil is discharged from all industries that use petroleum products, such as steel, machinery, chemical manufacturing, and transport facilities such as cogeneration power plants and ships. When these raw water is discharged without being treated, serious pollution such as soil, ground water, river, and ocean will cause serious problems in environmental preservation, and its flammability and flammability will become more problematic, resulting in a great loss in social and economic .

Therefore, it is necessary to separate the water and oil from the waste water without discharging the waste water as it is, so that the waste water can be discharged through a separate treatment process.

However, in the conventional oil water separating apparatuses, due to the complicated process, the apparatuses for performing the respective functions are complexly arranged, and the space occupied by the apparatuses is also large. Therefore, in order to equip such a water separation system, it is necessary to prepare a separate large space, and it is very troublesome to carry out the water separation system once installed, and time and cost are consumed.

In addition, although the conventional oil-water separating system is designed to undergo a plurality of oil-water separation processes, there is a problem that efficiency of oil-water separation is inferior because the separated oil is directly discharged at each step.

Further, even in the case of discharging the final treated water through the conventional oil water separating system, there is no measure as to whether the oil concentration of the discharged treated water does not meet the standard value.

KR 10-2010-0121011 A KR 20-2000-0021329 U

In order to solve the above-mentioned problems, the present invention proposes a method of controlling the amount of water and oil, which causes a change in the pressure of the waste oil mixed with water and oil, To be separated into a waste water separator and a waste water separator.

It is another object of the present invention to provide a waste water separator for separating water and oil by arranging protrusions of various shapes on the surface or moving path of the mesh separator for separating due to difference in specific gravity between water and oil. The purpose.

It is another object of the present invention to provide a waste water separating apparatus which can increase the separation efficiency by changing the cross section of the movement path of the pressure change plate causing the pressure change in the waste water number.

Disclosure of the Invention In order to solve the above-described problems, the present invention, which is devised to solve the above-described problems, is a waste water separation apparatus for separating and discharging water and oil contained in waste water water, wherein the waste water is temporarily stored, An enclosure (102) for discharging through a path; And a mesh separating plate (108) which is stacked in the vertical direction and separates the waste water flowing in from below into water and oil while discharging the waste water upward, and discharges the separated water and oil through different paths.

The mesh separator plate 108 includes a flat plate 108a; And a plurality of meshes (108b) formed on the flat plate (108a) and separating water and oil while passing the waste water water, wherein the mesh separator plate (108) has a structure in which a plurality of layers are stacked .

A mesh projection 108c protruding from the periphery of the mesh 108b and contacting the waste water passing through the mesh 108b; And a flat plate projection 108d protruding from the flat plate 108a and contacting the waste water flowing on the flat plate 108a.

And a pressure change plate (104) for generating a change in pressure while passing the waste water water.

The pressure change plate (104) includes a shutoff plate (104a) for blocking the movement of the waste water water; And a plurality of through-holes 104b formed in the blocking plate 104a to form a path for moving the waste water, wherein the through-holes 104b are formed to have a smaller inner diameter in the traveling direction of the waste water, And is configured to be large.

The pressure change plate (104) includes a shutoff plate (104a) for blocking the movement of the waste water water; And a plurality of through-holes 104b formed in the blocking plate 104a to form a path for moving the waste water, wherein the through-holes 104b are slanted up and down in the direction of the waste water flow .

According to the present invention, it is possible to manufacture a device from a small size to a large size at a low cost as compared with a conventional centrifugal separator or a chemical or electric type waste water separator, and it is possible to reduce the operating cost by minimizing the use of power required for operation have.

1 is a conceptual diagram illustrating a connection state of a separation device according to an embodiment of the present invention;
2 is a perspective view showing the components inside the separating apparatus;
3 is a sectional view showing the internal structure of the pressure change plate.
4 is a perspective view showing the detailed structure of the mesh separator.
5 is a perspective view showing various structures of protrusions formed on a mesh separator plate.
6 is a conceptual view showing a movement path of water and oil passing through the mesh separating plate;

Hereinafter, a "waste water separation apparatus" (hereinafter referred to as a "separation apparatus") according to an embodiment of the present invention will be described with reference to the drawings.

2 is a perspective view showing the components inside the separating apparatus, FIG. 3 is a cross-sectional view showing the internal structure of the pressure changing plate, and FIG. 4 is a cross- FIG. 5 is a perspective view showing various structures of the protrusions formed on the mesh separating plate, and FIG. 6 is a conceptual view showing a movement path of water and oil passing through the mesh separating plate.

The separation apparatus 100 of the present invention is installed at a site for generating a common waste water and collects the waste water discharged from a factory facility, a transportation facility, a chemical manufacturing facility, etc., and separates the waste water into water and oil, And discharging it to the processing facility.

For this purpose, the separation apparatus 100 is installed between a waste water storage tank 10 for collecting waste water and an oil storage tank 50 and a water storage tank 60 for storing separated water and oil, respectively.

The waste water stored in the waste water storage tank 10 is transferred to the separation apparatus 100 through the waste water transfer pipe 20. The oil and water separated while passing through the separator 100 move along the oil discharge pipe 30 and the water discharge pipe 40 and are stored in the oil storage tank 50 and the water storage tank 60, respectively.

The separation apparatus 100 separates water and oil by a method such as a pressure change, an impact, a variation of a path due to a difference in specific gravity, and the like in a moving path of the incoming waste water.

FIG. 2 shows the components inside the separating apparatus 100, which illustrate the structure and function of the components in order along the moving path.

The housing 102 constituting the body of the separating apparatus 100 generally comprises a concrete storage facility, but may also be constructed of steel structures, a synthetic resin tank, or the like depending on the amount of waste oil to be separated. A temporary storage space is formed in the enclosure 102 to allow a suitable amount of waste oil to be processed while being flowed, and a transfer device or structure can be applied so that the waste water can be moved at an appropriate speed without stagnating the movement of the waste water.

Further, it is preferable that a separate device is used to ensure safety by preventing ignition or chemical change of the oil mixed in the waste water.

The pressure change plate 104, the intermediate partition plate 106, and the mesh partition plate 108 are installed in the housing 102 in this order along the movement path of the waste water. However, this order is only for convenience, and the installation procedure and environment may vary depending on the type and amount of the waste water to be treated and the installation environment of the separation apparatus 100. [

The waste water flowing into the housing 102 through the waste water conveying pipe 20 first passes through the pressure changing plate 104. The pressure change plate 104 allows the water and oil to be primarily separated by causing a change in speed and pressure to pass through a relatively narrow passage of water mixed with water and oil.

As shown in FIG. 3, the pressure change plate 104 has a structure in which a plurality of through holes 104b are formed in a blocking plate 104a having a constant thickness. Due to the blocking plate 104a blocking the movement path of the waste water, the waste water can be moved only through the through hole 104b. The through hole 104b has a structure in which the inner diameter becomes smaller or larger in the traveling direction of the waste water. In the drawings of the present invention, the inner diameter of the through hole 104b is shown to be reduced, but the present invention is not limited to this.

In some cases, the through hole 104b may be curved instead of a straight line, or may be curved like an S-shape. It may also have the same inner diameter but be inclined in the direction of the flow of the waste water. That is, it can be configured to ascend or descend obliquely toward the direction of the waste water flow. In this way, not only this structure but also other structures can be applied as long as the movement speed of the waste water can be changed.

Because water and oil have different specific gravities, the speed and pressure of the fluid change as they move through the narrow channel. As a result, the bonding force between water and oil deteriorates and the separation effect becomes large.

Since the pressure change plate 104 allows waste water to pass through the through holes 104b having a relatively small diameter, it may function to filter suspended matters or foreign matter mixed with the waste water.

The pressure change plate 104 is generally installed so that the shutoff plate 104a is perpendicular to the movement path of the waste water or close to a right angle.

The waste water that has passed through the pressure change plate 104 and has a weak coupling force is impacted by passing through the intermediate separation plate 106 to further separate water and oil.

The lower part of the intermediate separator 106 is open, and protrusions, grid meshes, and the like are formed in the open passage, so that shocks or turbulence are generated in the waste water. This results in a larger separation effect.

The waste water passing through the intermediate separator 106 passes through the mesh separator plate 108 and is once again separated into water and oil.

As shown in FIG. 4, the mesh separator 108 has a structure in which a plurality of plates having passages through which waste water flows are stacked.

The mesh separator 108 has a structure in which a plurality of meshes 108b are formed on the flat plate 108a to allow the waste water or separated water and oil to pass therethrough. The mesh 108b may be a rectangle as shown in the figure, but may also be circular, oval, other polygonal, or amorphous.

It is preferable that the flat plate 108a is installed such that the plane is parallel to the ground or close to parallel. And a plurality of flat plates 108a are stacked in the vertical direction. The waste water mixed with water and oil enters the inside of the mesh separating plate 108 through the inlet 110 at the bottom.

A plurality of mesh separator plates 108 are formed by laminating a plurality of protruded walls at the edges of the mesh separator plate 108 so that the inside and the outside of the laminated mesh separator plate 108 are isolated from each other. Therefore, the waste water flowing through the inlet port 110 at the bottom is separated into water and oil and can be discharged through different paths.

Preferably, the water separated from the lower part due to the difference in specific gravity does not pass through the mesh separating plate 108 and is discharged through the water discharge pipe 40 located at the lower part. Due to the relatively light specific gravity, The oil thus passed is discharged through the oil discharge pipe (30) located at the upper side.

On the other hand, various shapes of protrusions are formed on the mesh separating plate 108 to separate water and oil from each other while passing through the mesh 108b.

As shown in FIG. 4, a mesh projection 108c is formed around the mesh 108b serving as a moving path, and a flat plate projection 108d is formed in the middle of the flat plate 108a. The number of waste oil passing through the mesh 108b mainly comes into contact with the mesh projection 108c and the number of the waste oil moving on the flat plate 108a mainly comes into contact with the flat plate projection 108d. The structure and function of the mesh projection 108c and the plate projection 108d are substantially the same as each other only in accordance with the difference in the formed positions.

The mesh protrusions 108c and the flat plate protrusions 108d impact the water and the oil passing through the mesh separating plate 108, and change the pressure and the speed. This results in faster separation of water and oil. The waste water passing through the mesh separating plate 108 is separated and travels on different paths while meeting with the projections. It is more effective to form a relatively sharp edge on the surface of the projection in order to easily separate the waste water from the projection. For this purpose, it is preferable that the shape of the cross section of the projection is a triangle, a rectangle, or a polygon.

FIG. 5 shows the structure of the protrusions of various shapes, but the scope of the present invention is not limited thereto, and various other shapes can be applied.

The mesh separator plate 108 having such a structure is installed at the end of the housing 102. The water and oil are separated from each other while passing through the pressure changing plate 104 and the intermediate separating plate 106. The water and oil are separated from each other while passing through the mesh separating plate 108. [ 6, the water having a large specific gravity moves downward and is discharged through the water discharge pipe 40. The oil having a small specific gravity passes through the mesh 108b and moves upward, ≪ / RTI >

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, As will be understood by those skilled in the art. Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

10: waste water storage tank 20: waste oil transfer pipe
30: oil discharge pipe 40: water discharge pipe
50: Oil storage tank 60: Water storage tank
100: separating device 102: enclosure
104: pressure change plate 106: intermediate plate
108: mesh separator 110: inlet

Claims (6)

A waste water separation apparatus for separating and discharging water and oil contained in waste water while moving the same,
An enclosure 102 for temporarily storing the waste water and discharging the separated water and oil through different paths;
And a mesh separating plate (108) for separating the water and oil from each other and discharging the separated water and oil through different paths, respectively, Water separator. The method according to claim 1,
The mesh separator plate 108
A flat plate 108a;
And a plurality of meshes (108b) formed on the flat plate (108a) for separating water and oil while passing the waste oil water,
Wherein the mesh separation plate (108) has a structure in which a plurality of mesh separation plates (108) are stacked. 3. The method of claim 2,
A mesh projection 108c protruding from the periphery of the mesh 108b and contacting the waste water passing through the mesh 108b;
And a flat plate projection (108d) protruding from the flat plate (108a) and contacting the waste water flowing on the flat plate (108a). The method according to claim 1,
And a pressure change plate (104) for generating a change in pressure while passing the waste water water. 5. The method of claim 4,
The pressure change plate 104
A blocking plate 104a for blocking the movement of the waste water;
And a plurality of through holes (104b) formed in the blocking plate (104a) to form a movement path of the waste water water,
Wherein the through hole (104b) is configured such that the inner diameter becomes smaller or the inner diameter becomes larger in the traveling direction of the waste water. 5. The method of claim 4,
The pressure change plate 104
A blocking plate 104a for blocking the movement of the waste water;
And a plurality of through holes (104b) formed in the blocking plate (104a) to form a movement path of the waste water water,
Wherein the through hole (104b) is configured to ascend or descend obliquely toward the direction of the waste water flow.

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