KR20240015772A - Marine Polluted Water Treatment System And Treatment Method Using Hydrocyclone And Compact Flotation Unit - Google Patents

Abstract

The present invention relates to a marine polluted water treatment system and method. More specifically, the present invention relates to a marine polluted water treatment system and treatment method. More specifically, marine polluted water is primarily separated into water and oil using a hydrocyclone and a gas floating oil-water separator (CFU: Compact Flotation Unit). We propose a marine polluted water treatment system and method using a hydrocyclone and a gas floating oil-water separator that secondarily separates water and oil, discharges water when the content is below the set value, and stores the separated oil. do.

Description

Marine polluted water treatment system and treatment method using hydrocyclone and gas floating oil-water separator {Marine Polluted Water Treatment System And Treatment Method Using Hydrocyclone And Compact Flotation Unit}

The present invention relates to a marine polluted water treatment system and treatment method, and more specifically, to a marine polluted water treatment system and treatment method using a hydrocyclone and a gas floating oil-water separator (CFU: Compact Flotation Unit). .

In recent years, as serious problems related to environmental pollution, especially water pollution, have emerged, each country is continuously conducting research and development on the treatment of various wastewater within its territory and marine polluted water from nearby coasts.

Ships currently in operation treat sewage through a sewage treatment plant (STP: Sewage Treatment Plant) in accordance with the Marine Pollution Prevention Agreement (MARPOL) and then discharge it into the sea or recycle it for cleaning or dilution.

In order to treat sewage and wastewater from ships, a sewage treatment plant (STP) and a treated water storage tank that stores the water treated through the sewage treatment plant are included.

Not only does the storage tank itself, which is a facility for processing large amounts of sewage from ships, have to be enlarged, but marine pollution has also reached a serious state when it is discharged into the sea.

In addition, most domestic control ships are less than 500 tons, and the control equipment is equipped with a skimmer/oil boom (oil skimmer/oil adsorbent) and a rigid sweeping arm, but is not equipped with a fine oil treatment system (oil-water separator).

In cases where an oil-water separator is not installed, the fine oil remaining in the seawater after general cleaning operations cannot be removed and eventually settles to the seabed, causing permanent marine pollution.

Therefore, it is urgent to develop and install a fine oil treatment system for response ships that can minimize damage to the marine ecosystem, natural environment, and local community residents through pest control work including fine oil.

Currently, centrifugal separators are widely used as a technology to separate oil, but a gravity sedimentation chamber is used for shearing to sufficiently grow oil particles to 10㎛ or more, so the processing speed is slow and is mostly applied to large volumes, making it difficult to move. There is a problem.

In addition, most ships are currently conducting regular cleaning of ship windows for ship management purposes, and when cleaning and final disposal are entrusted to a ship hold cleaning company, as shown in Figure 1, when waste oil is generated (10), waste oil is disposed of. It is stored on a ship and transported via ship transport (11) to the Korea Marine Environment Corporation (20), and the marine polluted water is treated by the Korea Marine Environment Corporation (20) and transported by vehicle (25) to a waste disposal company (50) for disposal. It will be performed.

Therefore, depending on the location of waste oil generation, the transportation cost due to ship transportation and vehicle transportation is high among the total processing costs, and since ships store fuel for operation, etc., the amount of storage for waste oil is limited, so it is necessary to dispose of waste oil. There was a problem of having to frequently travel to the marine polluted water treatment facility on land.

Republic of Korea Patent Publication No. 10-2021-0123113 (2021.10.13.)

The purpose of the present invention is to install an intermediate treatment facility at sea and use a hybrid centrifugal separation device equipped with a hydrocyclone and a gas floating oil-water separator (CFU: Compact Flotation Unit) to separate marine polluted water from water. A marine polluted water treatment system and method using a hydrocyclone and a gas floating oil-water separator that separates oil into oil, discharges water containing impurities below a certain level into seawater, and transports and disposes of the remaining oil on land. is to provide.

Another object of the present invention is that it can be applied under various pressures during the entire water treatment process of marine polluted water, and to reduce the cost incurred in transporting waste oil by treating waste oil in a floating structure equipped with a marine polluted water treatment system. It provides a marine polluted water treatment system and method using a hydrocyclone and gas floating oil-water separator that requires little maintenance and has low operating costs.

The marine polluted water treatment system using a hydrocyclone and a gas floating oil-water separator according to the present invention is a hydro system that primarily separates water and oil from marine polluted water flowing from the first storage tank of a ship storing marine polluted water. cyclone; A gas floating oil-water separator (CFU) that secondarily separates water and oil from the marine polluted water primarily separated through the hydrocyclone; And a second storage tank for storing the oil separated from the primary and secondary marine polluted water; The first storage tank is installed on a ship, and the hydrocyclone, gas floating oil-water separator, and second storage tank are installed on a floating marine structure; Discharging separated water with a content of less than a set value into seawater through the hydrocyclone and gas floating oil-water separator (CFU), and storing the separated oil in a second storage tank; The oil stored in the second storage tank is periodically transferred, or when the storage amount in the storage tank exceeds a set value, the oil is transferred from the floating marine structure to land and discarded.

Preferably, the gas floating oil-water separator is characterized by having a measuring means capable of measuring the impurity content of the marine polluted water.

Also preferably, the hydrocyclone separates water and oil by moving water with a higher specific gravity outward and collecting light oil at the center of the cone by centrifugal force caused by the rotational movement of marine polluted water; The gas floating oil-water separator is characterized by providing a waterway through which marine polluted water passes, condensing the oil contained in the marine polluted water and causing it to float upward.

Also preferably, the hydrocyclone separates water and oil by moving water with a higher specific gravity outward and collecting light oil at the center of the cone by centrifugal force caused by the rotational movement of marine polluted water; The gas floating oil-water separator uses an air compressor to dissolve marine polluted water by injecting air into it, and the gas droplets injected into the dispersed oil bubbles bind to the oil, and the combined oil droplets/bubbles are individual oil droplets. It is characterized by having a lower density and being separated by gravity.

Additionally, in the marine polluted water treatment method, a first separation step of separating water and oil from marine polluted water flowing in from marine polluted water stored in a ship using a hydrocyclone; A second separation step of separating water and oil from the marine polluted water separated through the first separation step through a gas floating oil-water separator; A storage step of storing the oil separated through the first and second separation steps in a storage tank; A comparison step of comparing the impurity content of the marine polluted water separated through the first and second separation steps with a set value; And a discharge step of discharging the separated water having a content of less than the set value through the comparison step into seawater; The hydrocyclone, gas floating oil-water separator, and storage tank are provided in a floating marine structure; The oil stored in the storage tank is periodically transferred or, when the storage amount in the storage tank exceeds a set value, is transferred from the floating marine structure to land and disposed of.

Also preferably, in the second separation step, the gas floating oil-water separator is characterized by being equipped with a measuring means capable of measuring the impurity content of the marine polluted water.

Also preferably, in the first separation step, water with a higher specific gravity is moved outward by centrifugal force caused by the rotational movement of marine polluted water through the hydrocyclone, and light oil is collected in the center of the cone. Separates water and oil; In the second separation step, the oil contained in the marine polluted water is coagulated and floated upward in a channel through which the marine polluted water passes through the gas floating oil-water separator.

Also preferably, in the first separation step, water with a higher specific gravity is moved outward by centrifugal force caused by the rotational movement of marine polluted water through the hydrocyclone, and light oil is collected in the center of the cone. Separates water and oil; In the second separation step, the gas droplets injected into the oil bubbles dispersed using an air compressor are combined with the oil to dissolve the marine polluted water stream by injecting air through a gas floating oil-water separator, and the combined oil droplets /Bubbles are characterized by having a lower density than individual oil droplets and separating by gravity.

According to the present invention, an intermediate treatment facility is installed at sea, and a hybrid centrifugal separation device equipped with a hydrocyclone and a gas floating oil-water separator (CFU: Compact Flotation Unit) is used to separate marine polluted water into water and oil. Water containing impurities below a certain level is discharged into seawater, and the remaining oil is transported and disposed of on land. It can be applied under various pressures during the entire water treatment process of treating marine polluted water. By processing waste oil in a type structure, the cost incurred in transporting waste oil can be reduced, and almost no maintenance is required, resulting in low operating costs.

Figure 1 is a diagram showing the waste oil treatment route of a conventional marine polluted water treatment method.
Figure 2 is a diagram showing the waste oil treatment route of the marine polluted water treatment method according to the present invention.
Figure 3 is a diagram showing the concept of a marine polluted water treatment system according to the present invention.
Figure 4 is a diagram showing a hydrocyclone in the marine polluted water treatment system according to the present invention.
Figure 5 is a diagram showing a gas floating oil-water separator (CFU) in the marine polluted water treatment system according to the present invention.
Figure 6 is a diagram showing the marine polluted water treatment system according to the present invention applied to a ship or floating marine structure.
Figure 7 is a diagram showing the operating principle of the metal mesh in the gas floating oil-water separator (CFU) according to the present invention.
Figure 8 is a diagram showing a marine polluted water treatment system using a hydrocyclone and a gas floating oil-water separator of the present invention.
Figure 9 is a diagram showing a method of treating marine polluted water using the hydrocyclone and gas floating oil-water separator of the present invention.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the attached drawings.

The advantages and features of the present invention and how to achieve it will become clear by referring to the embodiments described in detail below along with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below and will be implemented in various different forms, but the present embodiments only serve to ensure that the disclosure of the present invention is complete and are within the scope of common knowledge in the technical field to which the present invention pertains. It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims.

Additionally, in describing the present invention, if it is determined that related known techniques may obscure the gist of the present invention, detailed description thereof will be omitted.

Figure 2 is a diagram showing the waste oil treatment route of the marine polluted water treatment method according to the present invention, Figure 3 is a diagram showing the concept of the marine polluted water treatment system according to the present invention, and Figure 4 is a diagram showing the marine polluted water treatment system according to the present invention. Figure 5 is a diagram showing a hydrocyclone in the treatment system, Figure 5 is a diagram showing a gas floating oil-water separator (CFU) in the marine polluted water treatment system according to the present invention, and Figure 6 is a view showing the marine polluted water treatment system according to the present invention on a ship. Or, it is a drawing showing the state applied to a floating marine structure, Figure 7 is a drawing showing the operating principle of the metal mesh in the gas floating oil-water separator (CFU) according to the present invention, and Figure 8 is a hydrocyclone and gas floating of the present invention. It is a diagram showing a marine polluted water treatment system using a type oil-water separator, and Figure 9 is a diagram showing a marine polluted water treatment method using a hydrocyclone and a gas floating oil-water separator of the present invention.

Referring to Figures 2 to 9, in the present invention, when waste oil is generated (10), it is moved to a floating waste oil treatment facility (100) close to the location of generation, the marine polluted water is treated, the treated water is discharged, and the waste oil is disposed of in a floating waste oil treatment facility (100). It is stored in a waste oil storage tank provided in the waste oil treatment facility 100.

When the stored waste oil is stored beyond the set value of the storage tank capacity, the waste oil is transported by ship (12) and transported to the waste treatment plant (50) by vehicle transport (25) for disposal.

In addition, a plurality of floating waste oil treatment facilities may be installed at sea, and when waste oil is generated from multiple ships, the waste oil can be processed by moving to the floating waste oil treatment facility 100 near the location of the ship. .

In addition, in the floating waste oil treatment facility (100), if the content of impurities in the water separated from marine polluted water falls below the set value, it can be immediately discharged, and the waste oil can be stored and disposed of in batches periodically or if the storage amount exceeds the set value. By allowing waste oil and fuel to be processed, it can be operated more efficiently than loading and transporting waste oil and fuel directly from the ship.

Figure 3 shows a floating waste oil treatment facility 100 equipped with a marine polluted water treatment system using a hydrocyclone and a gas floating oil-water separator according to an embodiment of the present invention, and marine pollution is disposed on the floating marine structure 110. It indicates that the water treatment system 120 is provided.

At this time, the marine polluted water treatment system 120 is equipped with a hydrocyclone (130, Hydro-cyclone) and a gas floating oil-water separator (140, CFU) to separate marine polluted water into water and oil.

Hydrocyclone (130, Hydro-cyclone) separates water and oil by using centrifugal force caused by the rotational movement of the fluid to push the water with higher specific gravity to the outside and collect the lighter oil to the center of the cone, sending the separated water to the outside. It is a discharge device.

The efficiency of hydrocyclones that separate water and oil tends to decrease because the oil turns into an emulsion with water if the difference in specific gravity between the two fluids is not large.

Hydrocyclones are most commonly used for primary separation in fine oil treatment systems. Although they have the disadvantage of generating a high concentration of solid waste slurry, they are suitable for removing particles larger than 15㎛.

When oil particles are 12 to 15㎛ and Typical Effluent Quality is 25 to 100 mg/L, the removal efficiency is approximately 85 to 95% regardless of sea conditions.

It is a system that can be applied under various pressures during the entire water treatment process and requires minimal installation space and high efficiency. It has the advantage of low operating costs and little maintenance.

As shown in Figure 4, marine polluted water enters the hydrocyclone 130 through the inlet 131, and light particles pass through the spiral acceleration section 137 and reduction section 135 into the central core section 136. It moves to and separates water and oil, discharging the separated oil through the first outlet (132) and discharging the separated water through the second outlet (133).

Therefore, the hydrocyclone 130 can be applied to the first separation step.

The gas floating oil-water separator (140, CFU) is a device that injects air (or gas) to cause air bubbles to attach to oil particles and lower the density, thereby quickly floating the oil and lowering the content to 15-20 ppm.

The gas floating oil-water separator (CFU) is mainly a secondary separation system and has two methods: one is Dissolved Air Flotation (DAF) and the other is Induced Gas Flotation (IGF).

DAF uses an air compressor to inject air into the contaminated water stream to dissolve it. The gas droplets injected into the dispersed oil bubbles bind to the oil, and the combined oil droplets/bubbles have a lower density than individual oil droplets. This is the principle of separation by gravity.

IGF uses a mechanical and hydraulic system to create fine gas bubbles and attach them to oil droplets, allowing the oil droplets to move to the surface, and is effective in removing oil droplets larger than 25㎛.

Therefore, as shown in FIG. 5, a gas floating oil-water separator (CFU) can be applied in the second separation step.

Referring to FIG. 6, FIG. 6(a) is a modeling diagram showing a marine polluted water treatment system mounted on a ship or floating marine structure, and FIG. 6(b) is a conceptual diagram showing a marine polluted water treatment method.

Therefore, by applying the marine polluted water treatment system according to the present invention to ships or floating marine structures, it can be applied at various pressures, the installation space can be minimized and efficiency can be improved, operating costs are low, and maintenance is almost required. There is an advantage to not having it.

In addition, as shown in Figure 7, the metal mesh 145 can be applied in the gas floating oil-water separator (CFU) according to the present invention, and the oil contained in marine polluted water is removed by applying the liquid-liquid coalescer principle. Indicates that can be removed.

Finely scattered oil is grown in a coalescer and separated by the specific gravity between the two liquids. Oil collected at the top of the vessel is detected and automatically discharged.

When the metal mesh 145 using a hydrophilic separator is applied, it serves to aggregate the oil particles so that the oil particles are better separated from water.

Figure 8 is a diagram showing a marine polluted water treatment system using a hydrocyclone and a gas floating oil-water separator of the present invention. The marine polluted water treatment system 120 includes a hydrocyclone 130, a gas floating oil-water separator 140, and Includes a storage tank (150).

The hydrocyclone 130 primarily separates water and oil from marine polluted water flowing in from the first storage tank (not shown) of a ship that stores marine polluted water.

Next, the gas floating oil-water separator (CFU) secondarily separates the marine polluted water, which was primarily separated through the hydrocyclone 130, into water and oil.

The storage tank 150 can store oil separated from primary and secondary marine polluted water.

In addition, the first storage tank may be installed on a ship, and the hydrocyclone 130, the gas floating oil-water separator 140, and the second storage tank 150 may be installed on a floating marine structure.

Separated water with a content below the set value is discharged into seawater through the hydrocyclone 130 and the gas floating oil-water separator 140 (CFU), and the separated oil is stored in the second storage tank 150.

Thereafter, the oil stored in the second storage tank 150 is transferred periodically (for a certain period of time), or when the storage amount in the storage tank exceeds a set value, the oil is transferred from the floating marine structure to land and discarded.

In addition, the gas floating oil-water separator 140 is characterized by being equipped with a measuring means capable of measuring the impurity content of marine polluted water.

In addition, by equipping the hydrocyclone 130 and the gas floating oil-water separator 140 together, the hydrocyclone 130 moves water with a higher specific gravity outward due to centrifugal force caused by the rotational movement of marine polluted water. Light oil is collected in the center of the cone to separate water and oil, and the gas floating oil-water separator 140 provides a waterway through which marine polluted water passes to coagulate the oil contained in marine polluted water. Water and oil can be separated by floating upward.

In addition, the gas floating oil-water separator 140 uses an air compressor to dissolve marine polluted water by injecting air into it, and the gas droplets injected into the dispersed oil bubbles bind to the oil, and the combined oil droplets/bubbles They have a lower density than individual oil droplets and can be separated by gravity.

Figure 9 is a diagram showing a method of treating marine polluted water using a hydrocyclone and a floating gas oil-water separator of the present invention. Referring to Figure 9, the method of treating marine polluted water using a hydrocyclone and a floating gas oil-water separator is applied to a ship. A first separation step (S100) in which water and oil are separated from the marine polluted water flowing in from the stored marine polluted water through a hydrocyclone 130, and the marine polluted water separated through the first separation step is separated into a gas floating oil-water separator. A second separation step (S200) of separating water and oil through (140); a storage step (S300) of storing the oil separated through the first and second separation steps in a storage tank (150); A comparison step (S400) of comparing the impurity content of the marine polluted water separated through the first and second separation steps with the set value, and a discharge step (S500) of discharging the separated water with a content below the set value into seawater. ) includes.

At this time, the hydrocyclone 130, the gas floating oil-water separator 140, and the storage tank 150 are provided on the floating marine structure, and the oil stored in the storage tank is periodically transferred or the storage tank's storage volume exceeds the set value. If so, it is characterized in that it is transported from the floating marine structure to land and disposed of.

Therefore, according to the present invention, an intermediate treatment facility is installed at sea, and a hybrid centrifugal separation device equipped with a hydrocyclone and a gas floating oil-water separator (CFU: Compact Flotation Unit) is used to purify marine polluted water into water. It is separated into oil and water, water containing impurities below a certain level is discharged into seawater, and the remaining oil is transported and disposed of on land. It can be applied under various pressures during the entire water treatment process of marine polluted water. , costs incurred in transporting waste oil can be reduced by processing waste oil in a floating structure, and almost no maintenance is required, resulting in low operating costs.

So far, specific embodiments of the marine polluted water treatment system and treatment method using the hydrocyclone and gas floating oil-water separator according to the present invention have been described, but various implementation modifications are possible without departing from the scope of the present invention. Self-explanatory. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the claims and equivalents thereof as well as the claims described later.

That is, the above-described embodiments should be understood in all respects as illustrative and not restrictive, and the scope of the present invention is indicated by the claims to be described later rather than the detailed description, and the meaning and scope of the claims and All changes or modified forms derived from the equivalent concept should be construed as falling within the scope of the present invention.

10: Generation of waste oil
11: Ship transportation
12: Waste oil vessel transportation
20: Korea Marine Environment Corporation
25: Vehicle transportation
50: Waste disposal company
100: Floating waste oil treatment facility
110: Floating marine structure
120: Marine polluted water treatment system
130: Hydrocyclone
140: Gas floating oil-water separator (CFU: Compact Flotation Unit)

Claims (7)

In the marine polluted water treatment system,
A hydrocyclone that primarily separates water and oil from marine polluted water flowing in from the first storage tank of a ship storing marine polluted water;
A gas floating oil-water separator (CFU) that secondarily separates water and oil from the marine polluted water primarily separated through the hydrocyclone; and
It includes a second storage tank for storing oil separated from primary and secondary marine polluted water;
The first storage tank is installed on a ship, and the hydrocyclone, gas floating oil-water separator, and second storage tank are installed on a floating marine structure;
Discharging separated water with a content of less than a set value into seawater through the hydrocyclone and gas floating oil-water separator (CFU), and storing the separated oil in a second storage tank;
Using a hydrocyclone and a gas floating oil-water separator, characterized in that the oil stored in the second storage tank is periodically transferred or disposed of by transferring it from the floating marine structure to land when the storage amount in the storage tank is stored above a set value. Marine polluted water treatment system.
In claim 1,
The gas floating oil-water separator,
A marine polluted water treatment system using a hydrocyclone and a gas floating oil-water separator, comprising a measuring means capable of measuring the impurity content of the marine polluted water.
In claim 1,
The hydrocyclone is,
The centrifugal force caused by the rotational movement of marine polluted water moves the water with higher specific gravity outward, while the lighter oil gathers in the center of the cone, separating the water and oil;
The gas floating oil-water separator,
A marine polluted water treatment system using a hydrocyclone and a gas floating oil-water separator, which provides a waterway through which marine polluted water passes, condensing the oil contained in the marine polluted water and allowing it to float upward.
In claim 1,
The hydrocyclone is,
The centrifugal force caused by the rotational movement of marine polluted water moves the water with higher specific gravity outward, while the lighter oil gathers in the center of the cone, separating the water and oil;
The gas floating oil-water separator,
In order to inject air into the marine polluted water stream and dissolve it, gas droplets injected into dispersed oil bubbles using an air compressor bind to the oil, and the combined oil droplets/bubbles have a lower density than individual oil droplets and are absorbed by gravity. A marine polluted water treatment system using a hydrocyclone and a gas floating oil-water separator, which is characterized by separation.
In the marine polluted water treatment method,
A first separation step of separating water and oil from marine polluted water flowing in from marine polluted water stored on a ship through a hydrocyclone;
A second separation step of separating water and oil from the marine polluted water separated through the first separation step through a gas floating oil-water separator;
A storage step of storing the oil separated through the first and second separation steps in a storage tank;
A comparison step of comparing the impurity content of the marine polluted water separated through the first and second separation steps with a set value; and
It includes a discharge step of discharging the separated water having a content of less than the set value through the comparison step into seawater;
The hydrocyclone, gas floating oil-water separator, and storage tank are provided in a floating marine structure;
Marine pollution using a hydrocyclone and a gas floating oil-water separator, characterized in that the oil stored in the storage tank is periodically transferred or disposed of by transferring it from the floating marine structure to land when the storage amount in the storage tank is stored above a set value. Water treatment methods.
In claim 5,
In the first separation step,
Centrifugal force caused by the rotational movement of marine polluted water through the hydrocyclone moves water with higher specific gravity outward, and collects lighter oil in the center of the cone to separate water and oil;
In the second separation step,
A method of treating marine polluted water using a hydrocyclone and a gas floating oil-water separator, characterized in that the oil contained in the marine polluted water is coagulated and floated upward through the channel through which the marine polluted water passes through the gas floating oil-water separator.
In claim 5,
In the first separation step,
Centrifugal force caused by the rotational movement of marine polluted water through the hydrocyclone moves water with higher specific gravity outward, and collects lighter oil in the center of the cone to separate water and oil;
In the second separation step,
In order to inject air into the marine polluted water stream through a gas floating oil-water separator to dissolve it, the gas droplets injected into the dispersed oil bubbles using an air compressor bind to the oil, and the combined oil droplets/bubbles are stronger than individual oil droplets. A method of treating marine polluted water using a hydrocyclone and a gas floating oil-water separator, which has a low density and is separated by gravity.