KR20140111728A - Washing of the oil pollution water and recycling method of the flowing water separation and lavage fluid and this apparatus - Google Patents

Abstract

The present invention relates to a process for washing and cleaning the most polluting and environmentally-friendly oil pollutants which does not cause damage to the natural environment (humans, animals, animals, and the environment) by using a cotton-like lipophilic regeneration and new fiber light- Separation of oil (oil and water) from the washing water mixed with the generated oil (oil) (oil separation) is recovered and the water is filtered and purified, and it is used repeatedly for washing without waste treatment, and the oil is recycled or recycled as heat energy And a method for recycling the washing liquid, and a device therefor. Accordingly, when water is used for washing oil contamination with water or an aqueous oil washing liquid, the oil, which is a contamination source mixed with the washing water washed with contaminated instruments, is completely separated and collected from water by a very simple method The oil is environmentally and economically effective in that it is recycled for thermal energy or other purposes, and the recovered water is reused in washing to eliminate waste water or waste treatment. In addition, even in the case of washing oil contamination using a water-based oil washing liquid, the aqueous oil washing liquid used for washing is decomposed and purified into microorganisms as water and carbon dioxide in the washing liquid in the microbial septic tank to remove the same water- So that it is possible to protect the environment and reduce the cost.
In addition, in the purification of soils polluted with oil, it is possible to clean and purify the contaminated soil in the field, to recover the oil which is a pollutant source of the soil and to recycle it, to remove the pollutant oil from the water used for washing, The economical and eco-friendly effects of technology that can be used repeatedly are also very large.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and apparatus for cleaning oil pollutants,

The present invention relates to a method and apparatus for cleaning oil contamination, separating oil, and recycling a washing liquid, and more particularly, to a method and apparatus for recycling oil contamination, (Oil) and water are separated by filtration with a light-area collecting filter and a lipophilic nonwoven flat filter, and TPH (total petroleum hydrocarbon total petroleum hydrocarbon) The oil that is purified by using microorganisms and separated and collected is distilled and regenerated or used as thermal energy and water is recycled for washing repeatedly semi-permanently without being treated with waste. It is environmentally friendly and economical to clean oil pollutants Washing, oil-water separation, and recycling method of the washing liquid and apparatus oil.

Generally, when cleaning oil pollutants, use a cleaning liquid containing a chemical additive (such as a chemical dispersant or an emulsifier) or a cleaning liquid of a petroleum system. When such a cleaning liquid is used, the disposal of the cleaning liquid is subject to waste treatment In addition, it causes secondary tertiary pollution such as soil or groundwater contamination. Moreover, since the used cleaning solution can not be continuously reused, the cost of waste treatment and cleaning solution becomes enormous.

Petroleum-based cleaning fluids can cause irreversible damage to the growth and survival of animals and plants, as well as the risk of causing fires, explosions and fires, lethal damage to the human body (eg carcinogenesis, bronchial injury, birth defects, etc.) It is also possible to provide the cause of.

Even if the cleaning has been completed, oil (oil) remains at the position where the tank bottom, container, equipment, and equipment are not cleaned and it is difficult to completely remove such oil (oil). The only way to completely remove the oil (oil) is to incinerate the residual oil (oil). In the case of incineration, incinerated oil pollutants can not be reused, and other damage, that is, fire or explosion, It is dangerous to be able to cause smoke and other pollution and is the root cause of air pollution.

Conventional techniques for purifying soil polluted with oil include the following methods. However, it takes a lot of equipment and cost as well as a long period of time. In most cases, it is impossible to purify the soil other than the microbial purification method There is a problem of mass transportation which has to transport the contaminated soil to the purification site, which causes very uneconomical problems such as a huge transportation cost of carrying a large amount of soil. There are numerous soil remediation techniques, but the most common examples of cleanup methods are briefly summarized as follows.

Soil Vapor Extraction: It is expensive and time consuming to remove volatile contaminants by sucking in air from a contaminated soil part and putting it in a vacuum. It is very difficult to vacuum the soil.

Incineration using heat: The polluted soil is excavated and incinerated to remove polluted oil, which requires enormous heat energy and causes pollution by secondary smokes due to incineration. In addition, the cost of transporting contaminated soil to the incineration site is enormous and there is a significant risk of secondary contamination during transport.

Thermal desorption: It is not simple to volatilize and remove the pollutants in a wide range of polluted areas by treating the pollutants in the soil with heat or volatilizing them by taking out the discharged gas. Also, This is incredible.

Soil Washing: Soil Washing is a method of separating and dissolving contaminated oil by using a detergent and a dispersant that weakens the surface tension of pollutants and oil, and the second pollution problem such as groundwater contamination due to chemicals contained in the cleaning agent And the cost of the detergent and the dispersant is high. In addition, cleaning agents containing emulsifiers and fine oils emulsified in the dispersing agent can not be filtered out, so that the used washing water and dispersing agent must be treated with waste, and a new detergent and dispersant must be used every time the cleaning is performed. It is difficult to recover the detergent and dispersant remaining in the soil, which is a cause of secondary and tertiary contamination.

Soil Flushing: Soil flushing is a method of diluting polluted oil by injecting water or detergent into contaminated soil, and there is a risk of widening the range of contamination by the flow of washing water or cleaning agent injected into the soil. ) Can not be diluted by water, and it spreads to a wider range when water is injected. There is a lot of waste of washing water and cleaning agent to be injected, which is costly. It also causes continuous pollution such as occurs in soil washing methods.

On the other hand, as a method of purification using microorganisms (bioremediation), there is a method of continuously injecting air into contaminated soil to increase the activity of indigenous microorganisms to remove pollutant oil, and a method of supplying microorganisms that eat only oil to mass contaminated soil, The method of cleansing by eating polluted oil can be done in the field, so that it can reduce the transportation and excavation of contaminated soil, and can remove or remove contaminated oil in places where the apparatus or human hands can not reach, such as the underground of a building or structure If TPH (Total Petroleum Hydrocarbon) petroleum hydrocarbon (TPH) is more than 200,000 ppm, the activity of the microorganism eating the oil becomes slow and when the temperature is below 0 ℃, the microorganism stops its activity If the temperature is above 45 ° C, the microorganism will die, Said also requires a long period of time.

Soil framing is a method of excavating contaminated soil, putting it in a certain container, supplying water and oxygen properly, and purifying the microbial activity vigorously, Even if oxygen and water are properly supplied to the area, there is a way of decomposing the polluted oil by microorganisms, but the economical burden is increased due to the problem of large area, long time and supply of microorganisms.

Another method, Pyrolysis, uses heat to decompose waste materials. The chemical oxidation / reduction process involves the addition of compounds to generate redox reactions, which are then purified by electrokinetic separation. Silver ionic pollutants using electricity, etc. However, in the actual purification process, all of them require enormous cost for huge equipment, facility and logistics movement and long time period.

In most cases, a mechanical oil-water separator using an adsorption belt or an adsorption rope is used for the oil-contaminated effluent skimming method. However, the installation cost of the oil-mixed water-collecting vessel or the purchase cost of the oil-water separator Not only is it inconvenient, but it also has a lot of maintenance expenses, so it is often used only for exhibition purposes and not actually used. In addition, there is a problem that pollution of the wastewater collecting tank mixed with oil in which the mechanical oil water separator is installed causes secondary pollution.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a method and apparatus for cleaning (Oil) and water (oil and water) are separated from the washing water mixed with the oil (oil) generated in washing and cleaning process of the most environment-friendly and economical oil pollutant which does not give water And a method of recycling the oil pollutant, a method of recycling the oil pollutant, a method of recycling the oil, and a method of recycling the oil.

According to the present invention, the above object can be accomplished by a method of cleaning an oil storage tank, container, apparatus, equipment, tool soil contaminated with oil with water or a water-based oil washing liquid, pouring the washing water containing oil into a funnel, Filtering the oil by a first and a second filter in an oleophilic light-area collecting filter housed in the container; First and second filtered filtrate through a light-collecting filter housed in a first filtration collector; Filtering the third filtered filtrate through a nonwoven flat filter received in a nonwoven flat filter receiving container; And a fifth purification step of decomposing the fourth filtered filtrate into microorganisms contained in the microorganism purification tank and the oil remaining in the fourth filtrate into water and carbon dioxide gas; Any one of the cleaning water and the aqueous oil cleaning solution purified through the first to fourth order filtration and the fifth purification step is recycled for washing and the oil collected by the oleophilic light area collecting filter and the nonwoven flat filter is collected Water separation, and a method of recycling a washing liquid, characterized in that it is separately collected and regenerated, or can be used as thermal energy or the like.

The present invention also provides a method of treating soil contaminated soil, comprising the steps of: Pouring water into the contaminated soil receiving tank and shaking the contaminated soil so that the oil contaminant (oil) adhering to the contaminated soil floats on the surface of the water due to the difference in specific gravity with water; The oil that has floated on the water surface is filtered or filtered by using an optical area collecting filter and a nonwoven flat filter to separate the water from the water; The water is purified in the field and recycled in the washing process. The collected oil (oil) is recycled as recycled or thermal energy, and the soil in which the oil contaminant (oil) is removed is buried in a place where microorganisms are sprayed and then excavated. , Water separation, and recycling of the washing liquid.

The present invention also relates to a method of manufacturing a semiconductor device, comprising: a funnel; An upper pass which is located at the bottom of the funnel and accommodates the light-area collecting filter therein and has an outflow hole formed on the bottom thereof to selectively filter any one of the water and the aqueous oil washing liquid containing the oil flowing through the funnel; A lower passageway which is located at the lower portion of the upper tank and accommodates the light-area collecting filter therein and has an outflow hole formed in the lower surface thereof to purify any one of water and aqueous oil washing liquid containing the oil passing through the upper tank; A plurality of through holes are formed in the bottom surface of the lower tank, the light-area collecting filter is accommodated in the tank, and the water containing the oil passing through the lower tank and the aqueous oil washing liquid are subjected to tertiary filtration A filtering water collecting tank; A plurality of through holes are formed in the bottom surface of the primary filtrate water collecting tank, a nonwoven flat filter is accommodated in the bottom of the primary filtered water collecting tank, and any one of the water containing the oil passing through the primary filtered water collecting tank and the water- Nonwoven flat filter receiving filtration through; A microbial purification tank disposed at the bottom of the nonwoven flat filter accommodating cylinder and containing microorganisms therein to purify the selected one of water and aqueous oil washing liquid passing through the nonwoven flat filter accommodating cylinder and having a heater and an oxygen feeder therein, ; Any one of the purified water and the aqueous oil washing liquid after the first to fourth filtration and the fifth purification is recycled for washing and the oil collected by the oleophilic light area collecting filter and the nonwoven flat filter is collected separately The water is separated and recovered and recycled for recycling the oil pollutant, which is characterized in that it can be collected, regenerated, or used as heat energy or the like.

In the present invention as described above, when water is used for washing oil contaminants using water or an aqueous oil washing liquid, the oil, which is a contamination source mixed with washing water washed with contaminated instruments, is completely separated from water Collected and collected oil is environmentally and economically effective in that it is recycled for thermal energy or other purposes, and the recovered water is reused in washing to eliminate wastewater or waste treatment. In addition, even in the case of washing oil contamination using a water-based oil washing liquid, the aqueous oil washing liquid used for washing is decomposed and purified into microorganisms as water and carbon dioxide in the washing liquid in the microbial septic tank to remove the same water- So that it is possible to protect the environment and reduce the cost.

In addition, in the purification of soils polluted with oil, it is possible to clean and purify the contaminated soil in the field, to recover the oil which is a pollutant source of the soil and to recycle it, to remove the pollutant oil from the water used for washing, The economical and eco-friendly effects of technology that can be used repeatedly are also very large.

1 is a sectional view showing an apparatus for recycling oil contamination, oil separation, and washing liquid.
FIG. 2 is a diagram illustrating a state in which a microorganism according to the present invention surrounds a molecule of an oil and dissolves the molecule of the oil with an enzyme,
FIG. 3 is a flow chart of a method of washing, oil-water separation, and recycling a cleaning liquid according to the present invention,
FIG. 4 is a view illustrating a state where the contaminated soil according to the present invention is excavated and accommodated in a contaminated soil receiving vessel, and an example of its use.

Hereinafter, with reference to the accompanying drawings, a method of cleaning oil pollutants, purification of washing water, regeneration of aqueous oil washing liquid, separation of oil water from used washing water and recycling of separated oil (water and oil) according to the present invention, A method of cleaning the oil pollutants in the most environmentally friendly and economical manner without recycling the recovered water and the oil while generating the waste while separating the washed water in which the oil is mixed into water and oil, Respectively.

1 is a cross-sectional view showing an apparatus for recycling oil contamination, oil separation, and washing liquid.

As shown in the figure, the apparatus for cleaning, cleaning and separating oil contaminants according to the present invention comprises a funnel 10, an upper cylinder 20 positioned at the bottom of the funnel 10, A lower filter 30 located below the lower filter 30 and a primary filtered water collecting tank 40 located below the lower filter 30 and a nonwoven flat filter disposed at the bottom of the primary filtered water collecting tank 40 And a microbial purification tank (60) located on the bottom surface of the nonwoven flat filter receiving cylinder (50).

The funnel 10 according to the present invention is identical to a conventional funnel having a top opening through which fluid is introduced and a bottom opening through which fluid is allowed to pass.

The upper cylinder 20 according to the present invention has a light-area collecting filter 21 housed therein and an outflow hole 22 formed at the bottom thereof to supply the water containing the oil flowing through the funnel 10, And is located on the bottom surface of the funnel 10 so that any selected one of the oil washing liquid can be primarily filtered. The light-area collecting filter described above or below uses a lyophilic cotton-like filter made of regenerated or new fiber.

The lower tube 30 according to the present invention includes an optical surface area collecting filter 31 therein and an outflow hole 32 formed in the bottom surface of the lower tube 30 to pass through the optical area direct filter 21 of the upper tube 20 Is located below the upper cylinder (20) so that any one of the water containing oil and the aqueous oil washing liquid can be secondarily purified.

The primary filtered water collecting tank 40 according to the present invention includes a light collecting filter 41 inside and a plurality of through holes 42 formed in the bottom of the primary filtered water collecting tank 40 to contain oil flowing through the lower tub 30 And is located below the lower cylinder 30 so as to be capable of tertiary filtration of any one of water and aqueous oil washing liquid.

In the nonwoven flat filter receiving cylinder 50 according to the present invention, a nonwoven flat filter 51 is accommodated therein and a plurality of through holes 52 are formed in the bottom face thereof to pass the first filtering collected water 40 Is located on the bottom surface of the primary filtered water collecting tank (40) so as to quaternarily purify any one selected from the water containing the oil and the aqueous oil washing liquid. Here, the nonwoven flat filter is oleophilic in the form of a hot blown nonwoven.

The microbial purification tank 60 according to the present invention includes a microbial cell 61 in which microbes 61 are accommodated and water remaining in the selected one of the water and aqueous oil cleaning liquid passed through the nonwoven flat filter receiving cylinder 50 is separated into water Is disposed on the bottom surface of the non-woven flat filter receiving cylinder 50 so that it can be decomposed into a fifth order and purified, and a reference numeral 66 is a drain valve. Therefore, any one of the water and the aqueous oil cleaning solution purified through the first to fourth order filtration and the fifth purification is recycled for washing, and the non-woven fabric having the lipophilic light area collecting filter (21, 31, 41) The collected oil filtered by the flat filter 51 can be separately collected and regenerated, or used as heat energy or the like. Herein, the microorganism 61 refers to an oil of total petroleum hydrocarbon (for example, oil produced from crude oil) and a microorganism that eats only the animal or plant oil, and its kind is Achromobactor, Acinetobactor, Alcaligenes, Arthobacter, Bacillus, Flavobacterium , Nocardia, and Pseudomonas. These microorganisms (61) were collected from natural heredity and volcanoes and cultured in the natural environment.

The present invention will be described in more detail. The oil tank, the container, the apparatus, the equipment, the tool and the soil contaminated with the oil (hydrocarbon oil) in the large and small oil storage tanks, the junkyard, the factory, Oil pollutants "), it is possible to use any one selected from water and an aqueous oil washing liquid.

The cleaning of various oil pollutants uses either water or an aqueous oil washing liquid, wherein the water includes water such as water, well (groundwater), lake, and river, and therefore, when cleaning various oil pollutants, Or a manual cleaning mechanism.

31 and 41 housed in the upper cylinder 20, the lower cylinder 30 and the first filtered water collecting vessel 40 through the funnel 10 by passing washing water containing oil (oil) The oil (oil) is separated into three phases by the oleophilic light-area collecting filters 21, 31 and 41 accommodated in the upper cylinder 20, the lower cylinder 20 and the primary filtered water collecting tank 40 Filtered and filtered.

The amount of TPH (total petroleum hydrocarbon) in the filtered water after the 1st to 3rd filtration has been reduced to almost 10 ppm according to the experiment, so that there is no problem in use as the industrial washing water. However, in order to achieve the object of being eco- Woven fabric 40 is passed through a nonwoven flat filter 51 accommodated in a nonwoven flat filter receiving cylinder 50 to be subjected to tertiary filtration and then to be accommodated in a microorganism purifying tank 60 so that the remaining microorganism 61 is separated into water and carbonic acid When the gas is decomposed by the fifth purification, total TPH (total petroleum hydrocarbon) in the water is purified to a minimum of 2ppm. Here, the heater 62 and the oxygen supplier 63 provided in the microbial purification tank 70 serve to promote the metabolism of the microorganism 61.

The purified water is recycled for washing, and the collected oil (oil) filtered by the light-area collecting filters 21, 31, and 41 and the nonwoven flat filter 51 is collected separately and recycled for recycling or thermal energy.

1 shows a case where an aqueous oil washing liquid is used instead of water as shown in FIG. 1, in which the light-area oil collecting filters 21, 31 and 41 and the nonwoven flat filter 51 can not filter the oil (oil) mixed in the aqueous oil washing liquid used for washing. The reason for this is that the oil (oil) is dispersed and emulsified in a fine molecular state in the water-based oil washing liquid, so that the light-area collecting filter 21, 31, 41 and the air- (21, 31, 41) and the nonwoven flat filter (51). This is because the pore size of the light-area collecting filters 21, 31 and 41 and the nonwoven flat filter 51 is larger than the size of the oil molecules 65 in the emulsified state, and only dust or impurities can be filtered.

Here, briefly describing the process in which the microorganism (61) eats the oil (oil) when the oil contaminant is washed with the aqueous oil cleaning solution, the surfactant contained in the aqueous oil cleanser facilitates mutual exchange between the water and the oil And the emulsifier acts to disperse small particles of the oil in the aqueous oil washing liquid. In other words, when rice wine is mixed with water, it causes a phenomenon that fine fine powder spreads throughout the water. When the oil (oil) is dispersed by the action of the surfactant and the emulsifier, the microorganism 61 is finely divided by the enzyme 64, and the emulsified oil molecule 65 is surrounded, melted and then decomposed into water and carbon dioxide The oil (oil) in the water-based oil washing solution becomes alive, and the water-based oil washing solution returns to the original state repeatedly. Thus, it is possible to use the water and the aqueous oil washing solution alternately, Separate collection can be recycled, and it is environmentally friendly and economical.

As a result, the oil that is in the aqueous oil washing solution that has been washed with oil pollutants is completely decomposed into water and carbon dioxide by the microorganisms (61) and enzymes (64) in the emulsified state or molecular size in the microbial purification tank (60) So that the washing power of the aqueous oil washing liquid can be restored to its original state and thus can be repeatedly used for washing.

On the other hand, according to FIG. 4, it can be seen that the oily soil receiving tank 70 for washing and purifying the soil contaminated with the oil. That is, the polluted soil 71 is excavated, the polluted soil is stored in the contaminated soil receiving tank 70, and the polluted water is poured into the soil due to the difference in specific gravity. And the nonwoven flat filter to regenerate and recycle it for thermal energy or other purposes, and the water from which the oil is removed is repeatedly used for washing the contaminated soil repeatedly. When the TPH concentration in the water is increased, the microbial purification tank 60 The microorganism 61 can be purified and then used again for washing. A separate microorganism is added to the washed soil so that the contaminated soil receiving tank 70 is rotated and buried in the pouring and excavated position.

Meanwhile, the method of washing, oil-water separation, and recycling of the oil contaminants of the present invention is the same as in the following examples.

{Example}

1. Cleaning the oil storage tank, container, apparatus, equipment, and tool soil contaminated with oil with one of water and aqueous oil washing liquid, pouring the washing water containing oil into the funnel, (S 10) of primary and secondary filtration of the oil with the oleophilic light-area collecting filters (21, 31) housed in the filter (30).

2. The first and second filtered washing water is passed through the light-area collecting filter 41 contained in the first filtering and collecting tank 40 to perform a third filtering (S 20).

3. The tertiary filtered washing water is passed through a nonwoven flat filter 51 accommodated in the nonwoven flat filter receiving cylinder 50 and subjected to a fourth filtering step S30.

4. The step (S 40) of purifying the washing water by fourthly filtering the washing water by decomposing the oil remaining in the fourth filtered water into microorganisms (61) contained in the microorganism purifying tank (60) and decomposing the remaining oil into water and carbon dioxide ; Any one of the cleaning water and the aqueous oil cleaning solution purified through the first to fourth filtration and purification steps is recycled for cleaning and the non-woven fabric flat filter 51 (S 50). Here, the microorganism (61) is also an oil (eg, oil produced from crude oil) of petroleum based petroleum hydrocarbons, And microorganisms that eat only animal and plant oil are classified as noncommunicable bacteria such as Achromobactor, Acinetobactor, Alcaligenes, Arthobacter, Bacillus, Flavobacterium, Nocardia and Pseudomonas. These microorganisms (61) Means culturing.

In the present invention as described above, when water is used for cleaning oil contaminants using water or an aqueous oil washing liquid, the oil, which is a contamination source mixed with washing water washed with contaminated instruments, The oil collected from the separated collection is eco-friendly and economical because it is recycled for thermal energy or other purpose and the recovered water is reused for washing to eliminate wastewater or waste treatment.

In addition, even in the case of washing oil contamination using a water-based oil washing liquid, the aqueous oil washing liquid used for washing is decomposed and purified into microorganisms as water and carbon dioxide in the washing liquid in the microbial septic tank to remove the same water- To be used for cleaning, thereby protecting the environment and reducing costs.

In addition, in the purification of soils polluted with oil, it is possible to clean and purify the contaminated soil in the field, to recover the oil which is a pollutant source of the soil and to recycle it, to remove the pollutant oil from the water used for washing, It is economical and environmentally friendly technology that can be used repeatedly.

As used herein, the terms and words used in the present specification and claims should not be construed in a conventional and dictionary sense, and the inventor shall properly define the concept of the term to describe its invention in the best possible way It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely one preferred embodiment of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible.

10: funnel
20: Upper tub
21, 31, 41: light area collecting filter
40: primary filtrate water collecting tank
42: Spillway
50: Nonwoven flat filter receiving box
51: Nonwoven flat filter
52: through hole
60: microbial purification tank
61: Microorganisms
62: heater
63: oxygen supplier
64: Enzyme
65: Oil molecule
66: Valve
70: contaminated soil receiving tank
71: Contaminated soil

Claims (3)

After washing the oil storage tank, container, apparatus, equipment, tool soil contaminated with oil with water or a water-based oil washing liquid, pouring the washing water containing oil into the funnel, First and second filters the oil in the filter;
First and second filtered filtrate through a light-collecting filter housed in a first filtration collector;
Filtering the third filtered filtrate through a nonwoven flat filter received in a nonwoven flat filter receiving container;
And a fifth purification step of decomposing the fourth filtered filtrate into microorganisms contained in the microorganism purification tank and the oil remaining in the fourth filtrate into water and carbon dioxide gas;
Any one of the cleaning water and the aqueous oil cleaning solution purified through the first to fourth order filtration and the fifth purification step is recycled for washing and the oil collected by the oleophilic light area collecting filter and the nonwoven flat filter is collected A method for recycling oil pollutants, oil separation, and a method for recycling a cleaning liquid, the method comprising the steps of: Excavating the contaminated soil and receiving it in the contaminated soil receiving vessel;
Pouring water into the contaminated soil receiving tank and shaking the contaminated soil so that the oil contaminant (oil) adhering to the contaminated soil floats on the surface of the water due to the difference in specific gravity with water;
The oil that has floated on the water surface is filtered or filtered by using an optical area collecting filter and a nonwoven flat filter to separate the water from the water;
The water is purified in the field and recycled in the washing process. The collected oil (oil) is recycled as recycled or thermal energy, and the soil in which the oil contaminant (oil) is removed is buried in a place where microorganisms are sprayed and then excavated. Washing, oil-water separation and recycling of the washing liquid. A funnel;
An upper pass which is located at the bottom of the funnel and accommodates the light-area collecting filter therein and has an outflow hole formed on the bottom thereof to selectively filter any one of the water and the aqueous oil washing liquid containing the oil flowing through the funnel;
A lower passageway which is located at the lower portion of the upper tank and accommodates the light-area collecting filter therein and has an outflow hole formed in the lower surface thereof to purify any one of water and aqueous oil washing liquid containing the oil passing through the upper tank;
A plurality of through holes are formed in the bottom surface of the lower tank, the light-area collecting filter is accommodated in the tank, and the water containing the oil passing through the lower tank and the aqueous oil washing liquid are subjected to tertiary filtration A filtering water collecting tank;
A plurality of through holes are formed in the bottom surface of the primary filtrate water collecting tank, a nonwoven flat filter is accommodated in the bottom of the primary filtered water collecting tank, and any one of the water containing the oil passing through the primary filtered water collecting tank and the water- Nonwoven flat filter receiving filtration through;
A microbial purification tank disposed at the bottom of the nonwoven flat filter accommodating cylinder and containing microorganisms therein to purify the selected one of water and aqueous oil washing liquid passing through the nonwoven flat filter accommodating cylinder and having a heater and an oxygen feeder therein, ;
Any one of the purified water and the aqueous oil washing liquid after the first to fourth filtration and the fifth purification is recycled for washing and the oil collected by the oleophilic light area collecting filter and the nonwoven flat filter is collected separately Recycling the oil contaminants, separating oil from water, and recycling the washing liquid.

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