KR100818803B1 - Oil separator - Google Patents

Abstract

An oil separator is provided to regulate a height of water discharged by a water discharge pipe, which is connected to an air pipe, thereby controlling an oil-discharging rate through adjustment of an oil-water interface. An oil-water separation space(110) is formed at a lower portion within an oil-water separation tank(100). An air and oil passage(120) is connected to the oil-water separation space while the air and oil passage has a diameter in an upper portion smaller than in the oil-water separation space. An oil discharge pipe(130) from the air and oil passage is connected to the outside. A soil discharge pipe(140) is formed at a lower portion of the oil-water separation tank. A heater(200) is installed around the air and oil passage of the oil-water separation tank. A mixed liquid transfer pipe(300) is inserted into the oil-water separation space through the air and oil passage. A mixed liquid jetting unit(400) is installed at a lower end of the mixed liquid transfer pipe. A water discharge pipe(500) has one side connected to the lower portion of the oil-water separation tank and the other side connected to an air pipe(510). The water discharge pipe is formed of a flexible material so that a height of water discharged is regulated by the air pipe. Further, a mixed liquid supplying pump is installed at a side of the mixed liquid transfer pipe in order to flow the mixed liquid along the mixed liquid transfer pipe.

Description

Oil-water separator {OIL SEPARATOR}

The present invention relates to an oil and water separation device for separating oil and water, and in particular, in a situation where a large amount of oil is mixed with water, such as an oil spill accident of a ship or an oil spill of an oil tank, the oil and water can be separated quickly. It is related to an oil / water separator that has a high separation speed and is capable of separating oil from a large amount of water.

As a technology related to the oil-water separation device, a 'oil-water separation method and its device' (Korean Patent Publication No. 0169216) has been disclosed.

The apparatus includes a heating step of lowering the viscosity of the oil contained in the waste water and applying heat to separate water and oil, a first agglomeration step for agglomerating oil separated by the heating step, and the first agglomeration step. A second agglomeration step of agglomerating oil contained in the water not separated in the secondary phase by a difference in viscosity, and an iron group metal fiber made of a material such as stainless steel from the oil contained in the water not separated in the second agglomeration step. The primary separating step of separating the oil by the difference between the viscosity of the oil and water by passing through the first separating means filled with water, and the oil contained in the water not separated in the primary separating step is nylon or The second separating means filled with fibers of polyflofilene is used to separate water and oil using the viscosity of the oil.

Such a device has a problem that it is not possible to separate a large amount of oil for a short time by separating the oil in a complex process because it is necessary to install a variety of filtering devices as well as the heating device.

On the other hand, 'natural circulation oil-water separator' (Korea Patent Publication No. 10-0417337) installed three or more separation tanks in series to separate the water and oil.

However, such a device has a problem in that a plurality of separation tanks as well as a plurality of pumps for transferring oil between tanks, oil storage tanks for storing oil, and the like are required.

In particular, the above technologies have a problem of forcibly discharging oil by using a pump, so that water is discharged together when discharging oil.

As a result, despite the complexity of the overall installation configuration, there was a problem that the speed and efficiency are poor.

In addition, when loaded on a ship, there was a fatal problem that water and oil fluctuated and the oil could not be separated smoothly according to the shaking of the ship.

Oil and water separation device of the present invention is to solve the problems caused in the prior art as described above, the viscosity of the high viscosity oil using a heater to lower the viscosity and then water and oil using the difference in specific gravity of water and oil is discharged However, it is formed of a flexible pipe, and the air distribution pipe is to adjust the flow rate of the water by adjusting the water discharge height of the water discharge pipe is connected to the top to adjust the discharge rate of oil.

In addition, it is possible to quickly separate the oil contained in the sea water by the sea accident as the above discharge rate can be adjusted.

In addition, in forming the mixed liquid spraying device, the diameter is larger than that of the mixed liquid conveying pipe, and a diffuser plate having a plurality of diffusion holes is installed in the upper and lower portions to spread the viscous oil evenly as much as possible to improve the separation rate of water and oil. To improve.

In addition, air and oil passages are formed in the vicinity of the mixed liquid conveying pipe so that air is freely introduced into the oil / water separation space through the air and oil passages, and the air flows freely through the air distribution pipe connected to the water discharge pipe. It is to increase the speed of oil movement to speed up the separation of water and oil.

In addition, by installing one or more secondary cases hinged to the oil separation tank and the outside of the oil separation tank to stabilize the flow of water even if the bottom such as the sea to improve the separation efficiency of water and oil.

In order to solve the above problems, the oil-water separation device of the present invention has an oil-water separation space formed at an inner lower portion, and the air and oil passages are connected to the oil-water separation space with a smaller diameter than the oil-water separation space at the center. An oil and water separation tank having an oil discharge pipe connected to the outside from one side of the air and oil passage, and having a solid discharge pipe formed at a lower portion thereof; A heater provided around the air and oil passage of the oil / water separation tank; A mixed liquid conveying pipe inserted into the oil and water separation space into the air and the oil passage; A mixed liquid spraying device installed at a bottom of the mixed liquid transport pipe; One side is connected to the bottom of the oil-separation tank, the air distribution pipe is connected to the top of the other side, the water is discharged to the top, the water discharge pipe is made of a flexible material to adjust the height of the water discharged; do.

In addition, the mixed liquid supply pump is connected to one side of the mixed liquid conveying pipe is characterized in that the mixed liquid mixed with oil and water flows into the oil-water separation tank along the mixed liquid conveying pipe.

In addition, the mixed liquid injection unit has a larger diameter than the mixed liquid transfer pipe, the body is formed with a plurality of discharge holes in the periphery; The upper and lower body is installed, and having a larger diameter than the body, each of the diffusion plate is formed with a plurality of diffusion holes on the upper and lower surfaces, characterized in that consisting of.

In addition, one or a plurality of auxiliary cases are installed to the outside of the oil separation tank, and the auxiliary case and the oil separation tank are hinged so that the oil separation tank can maintain a constant angle with the ground or the water surface. .

According to the present invention, the oil is highly viscous to lower the viscosity by using a heater and then to separate and discharge the water and oil by using the difference in specific gravity of water and oil, it is formed of a flexible pipe, the air distribution pipe is connected to the top By adjusting the water discharge height of the water discharge pipe, it is possible to control the discharge rate of oil by adjusting the flow of water.

In addition, it is possible to quickly separate the oil contained in the sea water by the sea accident, as it is possible to adjust the discharge rate as described above.

In addition, in forming the mixed liquid spraying device, the diameter of the mixed liquid conveying pipe is larger than that of the mixed liquid conveying pipe, and a diffusion plate having a plurality of diffusion holes is installed in the upper and lower portions to spread the viscous oil evenly as much as possible to separate the water and oil. Is improved.

In addition, air and oil passages are formed in the vicinity of the mixed liquid conveying pipe so that air is freely introduced into the oil / water separation space through the air and oil passages, and the air flows freely through the air distribution pipe connected to the water discharge pipe. By speeding up the movement of oil, the separation speed of water and oil is improved.

In addition, by installing one or a plurality of auxiliary cases hinged to the oil separation tank and the outside of the oil separation tank to stabilize the flow of water even if the bottom such as the sea to improve the separation efficiency of water and oil is improved.

Hereinafter, the oil and water separator of the present invention will be described in detail with reference to the accompanying drawings.

Oil and water separation device of the present invention as shown in Figures 1 and 2 largely oil and water separation tank 100, heater 200, mixed liquid transfer pipe 300, mixed liquid spraying device 400, water discharge pipe 500 It is composed.

In addition, the oil-water separator of the present invention increases the fluidity by lowering the viscosity of the oil heater 200, the mixed liquid spraying device 400 evenly distributes the oil viscosity is lowered evenly into the oil-water separation tank (100). .

In addition, the water discharge pipe 500 is made of a flexible material connected to the air distribution pipe 510, it is possible to adjust the height of the height of the water discharge port, thereby adjusting the height of the water flow interface can be adjusted according to the situation By controlling the rate of discharge of separated oil and water.

Each component of the oil / water separator of the present invention as described above will be described in detail with reference to the accompanying drawings.

Oil-water separation tank 100 is a component of the present invention is configured to be divided by the oil-water interface while the oil-water separation space 110 is formed in the inner lower portion as shown in the drawings, the mixture of water and oil is temporarily stored. .

The air and oil passages 120 are formed at the center of the oil-separation tank 100. The air and oil passages 120 have a diameter smaller than that of the oil-water separation space 110 and the bottom of the oil-water separation space 110. It is connected to the upper part of.

At this time, the oil discharge pipe 130 is connected to one side of the air and the oil passage (120).

The oil discharge pipe 130 is connected to the outside of the oil separation tank 100 so that the oil separated from the water in the oil separation space 110 of the oil separation tank 100 rises by internal pressure and is discharged.

As can be seen from the figure, the air and oil passages 120 are connected to the top of the oil separation tank 100 at the top.

That is, air is to be introduced through the oil-water separation tank (100).

On the other hand, the lower portion of the oil separation tank 100 is connected to the solid discharge pipe 140 is configured to discharge the solid precipitated inside the oil separation tank 100 to the outside.

In addition, the oil and water separation tank 100 is divided into a lower case 102 and the upper case 101, as shown in the figure in order to simplify the cleaning and installation of the inner space of the tank and the upper case 101 and the lower case ( 102 may be bolted to each other.

In addition, the size of the oil and water separation space 110 is most preferably set to three times the processing volume of the pump to be processed per minute.

That is, the size of the oil and water separation space 110 is preferably 90 L when the pump power is 30 L / min, and the size of the oil and water separation space 110 is 7,500 L when the pump power is 2,400 L / min. .

The oil-water separation tank 100 configured as above is stable when the ground is installed indoors or on the ground of a general building, so that the oil-water interface is stable.

However, the present invention is to provide a device that can separate a greater amount of running water in an emergency situation, such as marine oil leakage accident.

More specifically, it is necessary to prevent the inflow interface from being unstable by waves or the like in the state of being loaded on the vessel.

To this end, as shown in FIG. 3, a plurality of auxiliary cases 600 hinged to the oil separation tank 100 and hinged to the outside of the oil separation tank 100 of the present invention are installed in multiple, and the oil separation tank 100 is always horizontal. It can be configured to maintain.

In the drawing, the auxiliary case 600 is installed on the outside of the oil / water separation tank 100 and the auxiliary block 610 is installed on the outside thereof, and the coupling between the auxiliary block 610 and the auxiliary case 600 is also hinged. desirable.

At this time, as shown in FIG. 3, the auxiliary block 610 is connected to the bottom, and the auxiliary case 600 and the oil / water separation tank 100 are floated from the bottom.

In addition, the hinge coupling member 620 for connecting the auxiliary block 610 and the auxiliary case 600 and the hinge coupling member 630 for connecting the auxiliary case 600 and the oil / water separation tank 100 are preferably an upper portion. It is preferable to be above the oil discharge pipe 130.

The heater 200, which is a component of the present invention, is installed around the air and oil passages 120.

This is to increase the temperature of the oil flowing along the mixed liquid transfer pipe 300 to be described later that is installed inside the air and oil passage 120 to lower the viscosity.

To this end, the heater 200 has a power source connected to the outside or a built-in power source, and a coil installed around the air and oil passage 120 is a main component.

At this time, in order to determine the operation of the heater 200, the control device is installed on the outer wall surface of the oil / water separation tank 100, and the control device is connected to a power source to control the operation of the heater 200 through the control device. have.

Since the configuration of the heater 200 is applicable to a variety of known heating devices, further detailed illustration and description of the configuration of the heater 200 will be omitted.

The mixed liquid transfer pipe 300, which is a component of the present invention, is inserted into the oil and water separation space 110 inside the air and oil passage 120 as shown in the drawing.

The other side is connected to the external pipe and transfers the mixed liquid mixed with water and oil into the oil-water separation space 110.

Therefore, it is preferable that a motor and a pump are installed in the pipe connected to the mixed liquid transfer pipe 300, but the present invention is not limited thereto, and may be configured to be naturally introduced using the height difference of the incoming seawater.

In addition, in order to determine whether the mixed liquid of water and oil flowing into the mixed liquid transfer pipe 300 may be provided with a known valve that can control the opening and closing valve and the opening and closing amount on the pipe.

The mixed liquid spraying device 400, which is a component of the present invention, is connected to the mixed liquid transfer pipe 300 and installed at a lower end thereof.

The mixed liquid spraying device 400 has a characteristic different from that of a conventional general oil / water separator.

More specifically, as shown in the figure, a larger diameter than the mixed liquid transfer pipe 300, the body is formed with a plurality of discharge holes 411 around;

If the upper and lower body is provided, and having a larger diameter than the body, the diffusion plate 420 is formed with a plurality of diffusion holes 421 on the upper and lower surfaces, respectively.

In this configuration, the mixed liquid that has moved the narrow mixed liquid transfer pipe 300 is discharged through the discharge hole 411 formed in the body after the flow rate is reduced in the wide body of the pipeline, wherein the size of the discharge hole 411 is Because it is small as shown, the mixed liquid is discharged in the form of diffusion.

At this time, the mixed liquid moving up and down by the upper and lower diffusion plate 420 is more finely broken through the secondary diffusion process.

It is viscous to unite in one place to continue to divide the oil to have a large volume, which is to improve the oil separation efficiency.

The inventors of the present invention investigated the optimum shape of the diffusion plate 420 through a number of experiments, the diameter of the diffusion plate 420 is preferably about 1/3 of the inner diameter of the oil-water separation tank 100, the diameter of the body It was found that twice the diameter of the mixed solution feed tube is preferable.

Water discharge pipe 500 is a component of the present invention is one side is connected to the lower portion of the oil-water separation tank 100 as shown in the drawing is configured to discharge the water separated from the oil in the oil-water separation space (110).

The upper end of the water discharge pipe 500 is connected to the air distribution pipe 510, the air distribution pipe 510 is open at the top can be naturally discharged by the pressure of the mixed liquid flowing from the mixed liquid transfer pipe 300 through this It is configured to.

In particular, the water discharge pipe 500 is characterized in that it is made of a flexible material, as shown in the flexible figure, it is possible to arbitrarily adjust the height of the water outlet using this.

This is to adjust the height of the water and oil interface in the oil and water separation space 110 inside the oil and water separation tank 100 by adjusting the height of the water outlet, oil in the oil and water separation tank 100 for a long time In order to keep oil and water separated sufficiently, the height of the water interface may be lowered. In order to discharge oil at a high speed, the height of the water outlet may be increased by increasing the height of the water outlet.

That is, when the height of the water outlet is increased to be close to the height of the oil outlet, the oil-water interface is formed on the air and oil passages 120 so that a small amount of oil is positioned in the oil-water separation tank 100 and immediately discharged.

As a result of performing a number of experiments to find the optimal location of the water outlet, the following formula found the optimal location of the water outlet.

b = (a / 2 × a '+ a / 2 × b') ÷ b '

a: distance from the bottom of the tank to the oil discharge pipe

b: Distance from bottom of tank to water discharge pipe

a ': specific gravity of oil

b ': specific gravity of water

Referring to the operation of the oil-water separation apparatus of the present invention having the above components as follows.

Looking at Figure 5, it can be seen that the mixed liquid mixed with water and oil is introduced into the oil-water separation space 110 inside the oil-water separation tank 100 through the mixed liquid transfer pipe 300 and the mixed liquid injection device 400. have.

At this time, the oil is mixed in the water temperature is increased by the coil of the heater 200 is installed around the air and oil passage 120, the viscosity is reduced.

Then, the oil, which is agglomerated by the discharge hole 411 formed in the body 410 of the mixed liquid spraying device 400 and the diffusion hole 421 formed in the diffusion plate 420, is finely broken and the oil / water separation space 110 It is spread evenly into the inside and is separated from the water by the rain in the oil-water separation space 110 is floated on the top.

The dashed dashed line in the middle of FIG. 5 arbitrarily shows the flowing interface.

On the other hand, the mixed liquid introduced into the oil and water separation space 110 is discharged to stay in the oil and water separation space 110 and the water discharge pipe 500 lower until the height of the water outlet of the water discharge pipe 500 by the water pressure.

At this time, the outside air is naturally introduced into and out through the air and the oil passage 120 formed in the air distribution pipe 510 and the oil and water separation tank 100 installed on the top of the water discharge pipe 500 Water and oil are purely released by water pressure.

That is, when the mixed solution of water and oil is continuously introduced into the oil / water separation tank 100 through the mixed liquid transport pipe 300, water and oil are separated from the oil / water separation space 110, and the oil / water separation tank 100 is lowered. Through the water discharge pipe 500 is connected to the water is naturally discharged by the water pressure, the oil is to be discharged to the outside and then stacked up to the height of the oil discharge pipe 130 is connected to the oil-water separation tank 100.

At this time, the amount of oil in the oil separation tank 100 may be adjusted by adjusting the height of the water discharge pipe 500.

That is, the lower the height of the water outlet, the greater the amount of oil gathered inside, on the contrary, the higher the height of the water outlet, the less the amount of oil gathered therein.

For the most preferable example of these, it is preferable to locate the water outlet at the optimum position with reference to the table described above.

6 to 9 are photographs showing a process of making and experimenting with a model of oil / water separator of the present invention.

As can be seen in the drawing, when the liquid mixed with oil and water is injected through the mixed liquid transfer pipe 300, water is naturally discharged by hydraulic pressure, and oil is accumulated from the oil and water interface and reaches the oil discharge pipe 130. You can see the discharge.

In addition, it can be seen that the separation efficiency of oil and water is high when visually discriminated.

As described above, the oil-water separator of the present invention is suitable for a situation in which a large amount of oil-water is required to be separated quickly due to a high processing speed, and is installed on a vessel to suck a large amount of seawater at a site such as a ship oil spill accident so that oil and You will be able to separate the water.

The oil-water separation device of the present invention configured as described above is most preferably installed in an environment having fluidity such as a ship or in an environment in which a large amount of water is separated in a short time, and is used with a known filter or the like for oil-water separation efficiency. You can also maximize.

1 is a partially cut perspective view showing an oil / water separator of the present invention.

Figure 2 is a perspective view showing the oil and water separator of the present invention.

Figure 3 is a perspective view showing another oil and water separation apparatus of the present invention.

Figure 4 is a perspective view showing a mixed liquid spraying value of the oil-water separator of the present invention.

5 is a schematic cross-sectional view showing an operating state of the oil / water separator of the present invention.

6 to 9 is a photograph for showing the operating state of the oil-water separator of the present invention.

<Detailed Description of Major Symbols in Drawing>

100: oil separation tank 101: upper case

102: lower case 110: oil and water separation space

120: air and oil passage 130: oil discharge pipe

140: solid discharge pipe 200: heater

300: mixed liquid feed pipe 400: mixed liquid spraying device

410: body 411: discharge hole

420: diffusion plate 421: diffusion hole

500: water discharge pipe 510: air distribution pipe

600: auxiliary case 610: auxiliary block

Claims (4)

In the oil / water separator, Oil-water separation space 110 is formed in the inner lower portion, the air and oil passages 120 in the upper portion having a smaller diameter than the oil-water separation space 110 is formed is connected to the oil-water separation space 110, An oil discharge pipe (130) connected to the outside from one side of the air and oil passage (120), and a solid water discharge pipe (140) formed at the bottom thereof; A heater (200) installed around air and oil passages (120) of the oil / water separation tank (100); A mixed liquid transport pipe 300 inserted into the air and oil passage 120 to the inside of the oil and water separation space; A mixed liquid spraying device 400 installed at a lower end of the mixed liquid transporting pipe 300; One side is connected to the bottom of the oil-water separation tank 100, the air distribution pipe 510 is connected to the other end, the water is discharged to the top, and made of a flexible material to adjust the height of the water discharged It is configured to include; a water discharge pipe 500 Oil-water separator. The method of claim 1, Characterized in that the mixed liquid supply pump is connected to one side of the mixed liquid conveying pipe 300, the mixed liquid mixed with oil and water is introduced into the oil-water separation tank 100 along the mixed liquid conveying pipe 300, Oil-water separator. The method of claim 1, The mixed liquid spraying device 400 has a larger diameter than the mixed liquid conveying pipe 300, the body is formed with a plurality of discharge holes 411 around; The upper and lower body is installed, and having a larger diameter than the body, the diffusion plate 420 is formed with a plurality of diffusion holes 421 on the upper and lower surfaces, respectively, characterized in that consisting of, Oil-water separator. The method of claim 1, One or more auxiliary cases are installed to the outside of the oil separation tank 100, and the auxiliary case and the oil separation tank 100 are hinged so that the oil separation tank 100 maintains a constant angle with the ground or the water surface. Characterized in that Oil-water separator.

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