KR0169216B1 - Method and apparatus for separation of oil-water - Google Patents

Abstract

The present invention relates to an oil-water separation method and apparatus for filtering pollutants so that the purified water is discharged to the sea by filtering pollutants generated in a vessel or the like, and in particular,

A heating step for lowering the viscosity of the oil contained in the waste water and applying heat to separate water and oil, a first agglomeration step for agglomeration of the oil separated by the heating step, and a first unaggregation step in the first agglomeration step A second agglomeration step for agglomerating oil contained in water secondly by a difference in viscosity and an oil of iron group metal made of stainless steel or the like in the water not separated in the second agglomeration step; The primary separating step for separating the oil by the difference in viscosity between the oil and water through the first separating means, and the oil contained in the water not separated in the primary separating step, the fibers of nylon or polyflopropylene Water separation method comprising a second separating step of separating oil by passing the second separating means filled with oil and water viscosity Without having to change the filter relates to an apparatus to permanent multiple times to filter contaminants and simultaneously filtering contaminants in hayeoseo so that the purified water in the pure water discharged into the sea can be prevented from marine pollution.

Description

Oil Separation Method and Apparatus

1 is a structural diagram showing a structure of an oil / water separator applied to the present invention.

2 is an exploded plan view of a second aggregation means applied to the present invention.

* Explanation of symbols for main parts of the drawings

1: supply piping 2: discharge piping

3: valve 4: connection piping

5: drain pipe 6: pumping means

7: sludge discharge pipe 8: discharge pipe

10: first purifying means 11: heating means

12: first aggregation means 13: partition wall member

14 passage 15 partition member

16: upper jaw 17: lower jaw

18: detection means 19: second aggregation means

20: second purification means 21: first separating means

22: second separating means 23: partition member

The present invention relates to an oil and water separation method and apparatus for filtering contaminants by filtering contaminants generated in a ship and the like so that the purified water is discharged to the ocean, and in particular, filtering contaminants permanently without replacing the filter. At the same time, the present invention relates to an oil-water separation method and apparatus for preventing marine pollution by filtering pollutants a plurality of times so that purified ultrapure water is discharged to the ocean.

In general, the oil and water separation method for filtering the pollutants so that the purified water is discharged to the ocean by filtering the pollutants generated in the ship, etc. and the apparatus is generally widely used to adsorb the pollutants using a capillary phenomenon.

As described above, the method of adsorbing contaminants by using capillary phenomenon is to adhering a large number of glass fibers to adsorb contaminants on the glass fibers, so that the filtering means such as glass fibers have to be replaced after a certain period of time. After use, some uncontaminated pollutants are discharged into the ocean due to a decrease in adsorption efficiency, contaminating the ocean.

In other words, the conventional oil-water separation method and apparatus need not only replace the filter means for filtering the contaminants after a certain period of time, but also contaminants are discharged into the ocean due to the deterioration of the adsorption efficiency and contaminate the ocean. There were various problems.

The present invention has been made in view of the above-mentioned problems, and an object of the present invention is to filter out contaminants at the same time as filtering the contaminants at the same time without replacing the filter, and the purified water of ultrapure water is discharged to the ocean. The present invention provides an oil and water separation method and apparatus for preventing marine pollution.

In order to achieve the above object, the oil-water separation method according to the present invention comprises a heating step of applying heat to separate water and oil by lowering the viscosity of oil contained in waste water, and agglomeration of the oil separated by the heating step. The first flocculation step, the second flocculation step of flocculating the oil contained in the water not separated in the first flocculation step by viscosity difference, and the water not separated in the second flocculation step In the primary separating step, the oil is passed through the first separating means filled with the iron group metal fiber made of stainless or the like, and the oil is separated by the difference in viscosity between the oil and water, and in the first separating step. The oil contained in the non-separated water is passed through a second separating means filled with nylon or polyflofilene fibers to obtain oil due to the difference in viscosity between oil and water. Characterized in that it consists of a secondary separating step for separating.

In addition, in order to achieve the above object, the oil-water separator according to the present invention, by heating the supply pipe for guiding the flow of waste water containing oil and the waste water supplied through the supply pipe by the difference of specific gravity A heating means for separating the oil is disposed, and a first agglomeration means for agglomeration of the oil separated by the heating means is disposed, and a plurality of oils are separated so that oil not separated in the first agglomeration means is separated by water and viscosity. A first purifying means provided with a second agglomeration means in which plates having holes formed therein are stacked; One end of the connecting pipe connected to the first purifying means and the other end of the connecting pipe are connected to guide the flow of the purified water by the first purifying means, and the water guided and supplied to the connecting pipe passes to contain water. The first separating means filled with fiber of iron group metal made of a material such as stainless steel is disposed so that the separated oil is separated by the difference in viscosity, and the fine oil contained in the water passing through the first separating means Consisting of a second purification means in which the oil is separated so that the purified ultrapure water is completely discharged by the difference in viscosity and discharged into the ocean, and the second separating means filled with fibers of nylon or polyflopylene is disposed. It features.

According to the oil-water separation method and apparatus thereof according to the present invention, it is possible to permanently filter the pollutants without replacing the filter and at the same time filter the pollutants several times so that the purified water of ultrapure water is discharged to the ocean, It can be prevented.

Hereinafter, the oil-water separation method and the apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a structural diagram showing the structure of the oil / water separator applied to the present invention, and FIG. 2 is a plan view showing the second aggregation means applied to the present invention unfolded.

In FIG. 1 and FIG. 2, (1) is a supply pipe which guides the flow of wastewater containing foreign substances, such as oil produced in a ship, etc., and (10) is wastewater supplied through the said supply pipe (1). The first purification means for purifying water by agglomerating the oil contained in the primary and secondary.

Further, the first purifying means 10 is provided with heating means 11 for heating the wastewater supplied through the supply pipe 1 so that the viscosity of the oil is lowered so that water and oil are separated.

In addition, the first aggregating means 12 is disposed in the first purifying means 10 so as to agglomerate the oil separated by the heating means 11.

In addition, the first purifying means 10, the second agglomeration means for passing the water containing the oil that is not agglomerated in the first agglomeration means 12 to agglomerate the oil contained in the water by the difference in viscosity ( 19) is excreted.

That is, the second agglomeration means 19, a plurality of holes 192 are perforated so that water containing oil passes therethrough, and a plate 191 of a thin plate of stainless steel or plated steel sheet is stacked to pass through the water containing oil. This will cause the oil in the water to agglomerate.

In addition, two or more bars 193 are fixed to the plate 191 to generate a gap between the plate 191 and the plate 191 so that oil contained in water can be easily aggregated.

In addition, inside the first purifying means 10, waste water supplied through the supply pipe 1 and oil are collected by the first agglomeration means 12 and the second agglomeration means 19 to be purified. The partition member 15 which divides the said 1st purification means 10 into the lower tank 17 and the upper tank 16 so that the mixed water may not be mixed is arrange | positioned.

In addition, generally in the center of the first purifying means 10, a passage 14 for guiding the flow of the waste water so that the waste water supplied through the supply pipe 1 is supplied to the first agglomeration means 12 is formed. The partition member 13 to be made is arrange | positioned.

In addition, the upper portion of the first purifying means 10, the detection means 18 for detecting a state filled with oil in the upper tank 16 of the first purifying means 10 is mounted.

Further, in the first purifying means 10, oil which is agglomerated by the first gathering means 12 and the first gathering means 19 and filled in the upper tank 16 is filled in the first purifying means 10. A discharge pipe 2 is connected to guide the flow of oil so as to discharge from the pipe.

In addition, the discharge pipe (2) is equipped with a valve (3) for opening and closing the discharge pipe (2) by the control signal of the sensing means (18).

That is, when the sensing means 18 detects the oil filling state in the upper tank 16 of the first purifying means 10, the valve 3 transmits a control signal to the valve 3. Opening the discharge pipe (2) so that the oil filled in the upper tank 16 is supplied to the oil collecting means (not shown) through the discharge pipe (2).

Further, a sludge discharge pipe 7 is connected to a lower portion of the first purifying means 10 so that sludge and the like filled in the lower tank 17 of the first purifying means 10 are discharged.

In addition, under the upper tank 16 of the first purifying means 10, after the oil is agglomerated in the first agglomeration means 12 and the second agglomeration means 19 is generated, the upper tank 16 One end of a connecting pipe 4 for guiding the flow of purified water is connected so that the purified water stored in the above) is supplied to the second purifying means described later.

In addition, the other end of the connection pipe (4), the oil contained in the water purified in the first purification means 10 is completely filtered so that the fine oil contained in the purified water to discharge the ultrapure water to the sea It is connected to the 2nd purification means 20 which isolates.

The second purifying means 20 is provided with a first separating means 21 for separating oil contained in the water supplied by being guided to the connecting pipe 4.

That is, the first separating means 21 is filled with a fiber of an iron group metal made of a material such as stainless steel, so that the water supplied from the connection pipe 4 of the first separating means 21 As it passes through the gap, the oil contained in the water is separated.

The second purifying means 20 is provided with second separating means 22 for separating the fine oil contained in the water passing through the first separating means 21.

That is, the second separating means 22 is filled with fibers of nylon or polyflopropylene, so that the water passing through the first separating means 21 passes through the second separating means 22. The fine oil contained in the water as it passes through is separated, and the water passing through the second separating means 22 becomes purified water.

In addition, the inside of the second purifying means 20, the purified ultra-pure water which is partitioned by the partition member 23 and passed through the second separating means 22, the first separating means 21 Do not mix with water.

In addition, the second purifying means 20 is connected to a discharge pipe 8 for guiding the flow of the ultrapure water so that the purified water of the ultrapure water having passed through the second separating means 22 is discharged to the sea. .

In addition, between the second purifying means 20 and the first purifying means 10, the oil separated by the second purifying means 10 is the lower tank 17 of the first purifying means 10. The drain pipe 5 which guides the flow of oil so that it may be supplied to () is provided.

In addition, the drain pipe (5), the pumping means (6) for pumping the oil so that the oil separated in the second purification means 20 is supplied to the lower tank 17 of the first purification means (10) Is equipped.

The following describes the operation and effect of the oil-water separation method and apparatus according to the present invention configured as described above.

First, when the wastewater supplied through the supply pipe 1 is supplied to the first purifying means 19, and the wastewater is filled in the first purifying means 19, power is supplied to the heating means 11. It is applied to generate heat in the heating means (11).

In addition, when heat is generated in the heating means 11, the viscosity of the oil contained in the waste water is lowered, and water and oil are separated by the decrease in the viscosity of the oil.

In addition, the oil separated by the heating means 11 is aggregated to the first agglomeration means (12).

In addition, the oil which is not agglomerated in the first agglomeration means 12 is contained in water to pass through the second agglomeration means 19.

At this time, the water containing the oil passing through the second agglomeration means 19 passes through a plurality of holes 192 formed in the plate 191, the oil passes through the hole 192 through the plate ( To the surface of 191).

That is, the oil contained in the wastewater supplied to the first purification means 10 through the supply pipe 1 is separated into water and oil by the heating means 11 and then the first aggregation means 12. And aggregated by the second aggregation means 19.

In addition, the oil agglomerated by the first aggregation means 12 and the second aggregation means 19 is filled in the upper tank 16 of the first purifying means 10, the upper tank 16 When the appropriate amount of oil is filled in the detection means 18 will detect this.

In addition, when it is detected by the sensing means 18 that the appropriate amount of oil is filled in the upper tank 16, the valve 3 is the discharge pipe 2 by the control signal of the sensing means 18 Will open.

In addition, when the discharge pipe 2 is opened by the valve 3, oil filled in the upper tank 16 of the first purifying means 10 is collected through the discharge pipe 2. It is stored by means.

Meanwhile, the water passing through the first aggregation means 11 and the second aggregation means 19 is transferred to the first separating means 21 of the second purification means 20 through the connection pipe 4. Will be supplied.

In addition, the water supplied to the first separating means 21 passes through the gap of the fiber of the iron group metal made of a material such as stainless steel.

At this time, the oil contained in the water is separated from the water while passing through the gap of the fiber of the first separating means 21, the water is supplied to the second separating means 22 and the oil is the drain pipe (5) Guided to the lower tank 17 of the first purifying means 10 is supplied.

In addition, the oil supplied to the lower tank 17 is guided to the passage 14 formed by the partition member 13 and collected by the oil collecting means through the discharge pipe (2).

Meanwhile, the water supplied through the first separating means 21 and supplied to the second separating means 22 filled with the nylon or poloflofilene fibers passes through the second separating means 22. The fine oil contained in the water is then separated.

At this time, the water passing through the second separating means 22 is purified water is discharged to the sea through the discharge pipe (8).

Meanwhile, the oil separated by the second separating means 22 is guided to the drain pipe 5 to be supplied to the lower tank 17 of the first purifying means 10.

In addition, the oil supplied to the lower tank 17 is guided to the passage 14 formed by the partition member 13 to be collected by the oil collecting means through the discharge pipe (2).

In other words, the wastewater supplied to the supply pipe 1 is made of ultrapure water purified while passing through the first purifying means 10 and the second purifying means 20 to be discharged to the ocean, thereby preventing marine pollution. You can do it.

As described above, according to the oil-water separation method and apparatus according to the present invention, it is possible to permanently filter the contaminants without replacing the filter and to filter the contaminants many times to discharge the purified water of the ultrapure water to the ocean. There is a very good effect of being able to prevent contamination.

Claims (9)

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 agglomeration of the oil separated by the heating step, and a first agglomeration step not separated from the first agglomeration step A second agglomeration step for agglomerating oil contained in water secondly by a difference in viscosity and an oil of iron group metal made of stainless steel or the like in the water not separated in the second agglomeration step; The primary separating step for separating the oil by the difference in viscosity between the oil and water through the first separating means, and the oil contained in the water not separated in the primary separating step, the fibers of nylon or polyflopropylene It is characterized by consisting of a secondary separating step of passing the second separation means filled with the oil is separated by the difference between the viscosity of oil and water. Oil-water separation method. The oil-water separation method according to claim 1, wherein the oil separated in the primary separating step is guided to the drain pipe and resupplied to the first purifying means. The oil-water separation method according to claim 1, wherein the oil separated in the secondary separating step is guided to the drain pipe and resupplied to the first purifying means. A supply pipe for guiding the flow of waste water containing oil and heating means for separating the water and the oil by the difference in specific gravity by heating the waste water supplied through the supply pipe are provided. The first aggregating means for agglomeration is provided, and the first purification means is provided with a second agglomeration means in which a plate having a plurality of holes is stacked so that oil which is not separated in the first agglomeration means is separated by water and viscosity. and; A connection pipe having one end connected to the first purifying means to guide the flow of water purified by the first purifying means; The other end of the connecting pipe is connected, and the first separating means filled with the stainless steel of the thin plate is provided so that the water supplied guided to the connecting pipe passes and the oil contained in the water is separated by the difference in viscosity. The fine oil contained in the water passing through the first separating means is completely separated by the difference in viscosity, and the oil is separated so that the purified ultrapure water is discharged to the ocean. Oil-water separation apparatus, characterized in that consisting of the second purification means the rating means is disposed. The method of claim 4, wherein the first purification means to prevent the waste water supplied through the supply pipe and the water purified by agglomeration of oil from the first and second agglomeration means is not mixed. And a partition member for dividing the purifying means into a lower tank and an upper tank. 5. The barrier rib member according to claim 4, wherein a partition member is formed at the center of the first purifying means to form a passage for guiding the flow of the waste water so that the waste water supplied through the supply pipe is supplied to the first agglomeration means. Oil-water separator characterized in that. 5. The inside of the second purifying means is characterized in that the purified ultrapure water which has passed through the second separating means by the partition member is not mixed with the water of the first separating means. Oil-water separator. The oil-water separation apparatus according to claim 4, wherein the first purifying means is equipped with a sensing means to detect when an appropriate amount of oil is filled in the upper tank of the first purifying means. The method according to claim 8, wherein when the sensing means senses that the oil is filled in the upper tank, the valve opens the discharge pipe by the control signal of the sensing means so that the oil is discharged from the first purifying means. Oil-water separator.