KR20090076226A - Recovery container and oil recovery apparatus including the recovery container, oil recovery method - Google Patents

Abstract

A recovery vessel and an oil recovery device including the same, and the oil recovery method are provided to collect oil more quickly, and to carry the collected oil quickly and safely. A recovery vessel(70) is connected to the end of an oil drain line(65), so that the separated and collected oil in an oil tank flows out through the oil drain line and is stored in the recovery vessel. The recovery vessel comprises a vessel(74) storing oil, an injection port(72) provided to the front end of the vessel and connected to the end of the oil drain line to be separable, and a weight(76) provided to the rear end of the vessel and having the preset weight. An oil recovery method comprises the steps of connecting an injection port of a recovery vessel to the end of an oil drain line where the separated oil flows and storing the oil drained out through the oil drain line in the recovery vessel, separating the recovery vessel with the soil stored from the oil drain line, closing the injection port of the recovery vessel separated from the oil drain line, throwing the recovery vessel at sea and floating the recovery vessel on the sea, and then collecting the recovery vessel floated on the sea.

Description

Recovery container and oil recovery apparatus, including the recovery container and oil recovery apparatus, including the recovery container and oil recovery method

The present invention relates to a recovery container, an oil recovery device including the same, and an oil recovery vessel, and more particularly, to a recovery container for recovering oil from a mixed fluid, an oil recovery device including the same, and an oil recovery method.

With the recent increase in industrial volume due to industrial development, oil consumption has increased, and marine oil pollution caused by the overturning accident of oil tankers or oil tankers has been increased in the process of transporting such oils. Pollution is a major problem around the world. These pollution accidents occur most often when the weather worsens, and do not end with the primary treatment of collecting oil from water, and cause disasters such as oil flowing into land and causing secondary damage.

The reason why the oil collection process does not proceed properly in water is that there has been no development of a device that can remove oil from water quickly and in large quantities. Therefore, oil neutralizer or oil inhalation can be thrown into water to remove oil. Suck it up, pick it up again and treat it separately. Alternatively, a method of installing oil fences and the like on oil-floating water, collecting oil in the water phase, collecting oil from a boat and removing oil as a separate oil / water separator is known.

However, in the conventional oil removal method as described above, the oil suction cloth spraying method requires a lot of work manpower, but the oil removal effect is inadequate for large accidents. In addition, the method of adding the oil neutralizer is effective for large-scale accident treatment, but it causes damage to sea plankton and sea creatures, causing the fisheries to be devastated. In addition, the way to inhale the oil collected in the oil fence is to have a problem that the ship should be stopped and if the waves are high, the operation is interrupted to reduce the oil removal effect.

An object of the present invention is to provide a recovery container that can recover the oil more quickly, an oil recovery device including the same, and an oil recovery method.

Another object of the present invention is to provide a recovery container capable of carrying the recovered oil quickly and safely, an oil recovery device including the same, and an oil recovery method.

Still other objects of the present invention will become more apparent from the following detailed description and the accompanying drawings.

According to the present invention, the recovery vessel is connected to the end of the outlet line for flowing the fluid flowing through the one end is stored through the outlet line is stored in the recovery vessel is detachably connected to the end of the outlet line, The inner volume of the recovery vessel is characterized in that it is expandable. The recovery container is disposed in the front end with respect to the center of the recovery container, the injection port connected to the end of the oil outflow line; And disposed on the rear end with respect to the center of the recovery container, it may be provided with a weight having a predetermined mass. The weight of the recovery container in which the fluid is stored may be less than the amount of buoyancy applied to the recovery container when the recovery container is placed in water.

According to the present invention, the oil recovery device is a mixed fluid containing oil is introduced, oil-water separation tank for separating the oil from the mixed fluid introduced; An oil outflow line connected to the oil separation tank for flowing the oil therein; And it is connected to the end of the oil outflow line, and includes a recovery vessel for storing the oil spilled through the oil outflow line. The recovery vessel is detachably connected to the end of the oil outflow line, the inner volume of the recovery vessel can be expanded.

The vessel may further include a flow meter provided on the oil outflow line for measuring the flow rate of the oil flowing through the oil outflow line.

In addition, the weight of the recovery container in which the fluid is stored may be less than the amount of buoyancy applied to the recovery container when the recovery container is placed in water.

According to the present invention, the method of recovering the oil by separating the oil from the mixed fluid containing oil is connected to the inlet of the recovery vessel to the end of the oil outflow line flowing the separated oil, through the oil outflow line Storing the spilled oil inside the recovery container; And separating the recovery vessel in which the oil is stored from the oil spill line.

The method is carried out at sea provided with a mixed fluid, the method comprising closing the inlet of the recovery vessel separated from the oil spill line; And throwing the recovery container into the sea by throwing the recovery container into the sea. In addition, the method may further comprise the step of recovering the recovery vessel floating on the sea.

On the other hand, by providing the inlet to the front end of the recovery container, and by providing a weight having a predetermined mass at the rear end of the recovery container, the inlet of the ash container thrown in the sea can be exposed in the air. have.

The storing of the oil in the recovery container may include storing the oil at a predetermined flow rate in the recovery container by measuring a flow rate of the oil flowing out through the oil outflow line.

According to the present invention, the oil contained in the mixed fluid can be recovered more quickly. In addition, the recovered oil can be transported quickly and safely.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to FIGS. 1 to 3. Embodiments of the invention may be modified in various forms, the scope of the invention should not be construed as limited to the embodiments described below. These embodiments are provided to explain in detail the present invention to those skilled in the art. Accordingly, the shape of each element shown in the drawings may be exaggerated to emphasize a more clear description.

On the other hand, in the following description with an oil recovery vessel as an example, the present invention can be applied to various oil recovery apparatus. Further, hereinafter, the oil is described as an example, but the present invention can be applied to various recovered fluids.

1 is a view schematically showing an oil recovery ship according to an embodiment of the present invention. As shown in FIG. 1, the oil recovery ship has a hull (not shown), and an inlet tank 15, an oil / water separation tank 30, and an oil tank 64 are provided on the hull. The inflow tank 15 is provided at the fore side of the hull, and is provided with a water level detection sensor (not shown) or a level switch inside. As the hull moves, the mixed fluid (oil and seawater mixed fluid) including the oil introduced through the bow front is introduced into the inflow tank 15, and the mixed fluid is drawn into the inflow tank 15. As the water level rises, it is detected by the water level detection sensor, and when the water level rises above a certain level, it blocks the inflow of the mixed fluid.

Oil-water separation tank 30 is provided on the downstream side of the inlet tank 15, the mixed fluid of the inlet tank 15 through the supply line 27 connecting the inlet tank 15 and the oil-water separation tank 30 It flows into the oil / water separation tank 30. On the supply line 27, a pump 27a for forcibly conveying the mixed fluid is provided. The oil / water separation tank 30 receives a mixed fluid through the pump 27a and separates the mixed fluid by a specific gravity difference.

As shown in FIG. 1, in the oil / water separation tank 30, an inlet port 32 connected to the supply line 27 is formed at the front side, and a partition wall 35 is formed at the middle portion thereof, and the partition wall 35 is a flowing water stream. A flow path 35a is formed between the bottom surface of the separation tank 30.

And, one side of the oil-water separation tank 30 has an oil tank 64 for recovering oil separated from the oil-water separation tank 30, the oil tank 64 is a plurality of recovery connected to the oil-water separation tank 30 Store oil draining from lines 62 and 63. On the recovery lines 62 and 63, valves 62a and 63a for opening and closing the recovery lines 62 and 63 are provided, respectively, and the recovery lines 62 and 63 are arranged so that the phases of t are maintained at a constant height difference. The oil in the oil / water separation tank 30 flows out through any one of the recovery lines 62 and 63, and the oil spilled is stored in the oil tank 64.

On the other hand, in the oil-water separation tank 30, a drain line 80 for discharging the mixed fluid (for example, sea water) from which oil is removed to the outside of the oil-water separation tank 30 is installed to the rear side of the oil-water separation tank 30. Bar, this is to allow the mixed fluid in which the oil is separated in the oil-water separation tank 30 is discharged to the outside, and is formed with the automatic opening and closing valve (80a) at a position slightly lower than the upper end of the recovery line (62, 63).

One side of the oil-water separation tank 30 is provided with a discharge line 120 for discharging the mixed fluid in the oil-water separation tank 30 as needed (for example, maintenance inside the oil-water separation tank 30), The valve 120a is provided on the discharge line 120. In addition, one side of the oil tank 64 is provided with an oil outflow line 65 for discharging the oil in the oil tank 64, the valve 65a and the flow meter 66 is provided on the oil outflow line (65).

When the oil spill accident occurs and the oil is diffused (for example, when the oil is diffused in sea water (sea water) in the sea), the present invention can effectively and quickly remove it. That is, at the oil spill site, when the hull is advanced, the mixed fluid containing oil is introduced into the inside of the inflow tank 15 provided on the bow side of the hull is stored. The mixed fluid thus stored is supplied to the oil / water separation tank 30 through the pump 27.

In the oil / water separation tank 30, the oil is distributed on the upper side due to the specific gravity difference, and the mixed fluid except the oil (eg, sea water) is distributed on the lower side, and the mixed fluid except the oil is disposed on the lower part of the partition wall 35. It moves from the left space to the right space of the oil / water separation tank 30 through the space 35a. Thereafter, the water is drained through the drain pipe 80. In this process, in the oil separation tank 30, the oil is blocked by the partition wall 35 and is not flown to the drainage pipe 80. However, the oil reaches the level of one of the upper ends of the oil recovery lines 62 and 63. Then, it flows to the oil tank 64 side of the oil separation tank 30 so that only oil is collected and water is continuously supplied to the drain pipe 80 by the water and the oil, and the oil is recovered. The oil tank 64 is separately collected through either one of the lines 62 and 63, respectively.

2a to 2c are views showing the use state of the recovery vessel 70 connected to the oil outflow line 65 of FIG. The oil separated and collected in the oil tank 64 flows out through the oil outflow line 65 and is stored in a recovery container 70 connected to the end of the oil outflow line 65.

The recovery container 70 has a container 74 in which oil is stored, an inlet 72 provided at the front end of the container 74, and a weight 76 provided at the rear end of the container 74. The inlet 72 is detachably connected to the end of the oil outflow line 65. Inlet 72 may be fixed to the end of the oil outflow line 65 by a separate fixing device (not shown), it may be separated from the end of the oil outflow line 65 by the release of the fixing device. On the injection hole 72, a valve 72a for opening and closing the injection hole 72 is provided. The weight 76 determines the position of the inlet 72 of the recovery container 70 thrown at sea. Detailed description of the weight 76 will be described later.

As shown in FIG. 2A, when the recovery container 70 is fixedly installed at the end of the oil outflow line 65, the valve 65a is released to drain the oil through the oil outflow line 65. Silver is stored in the vessel 74 through the inlet 72. At this time, the valve 72a on the injection hole 72 is in a released state. The flow meter 66 measures the flow rate of the oil flowing through the oil outflow line 65, so that a predetermined amount of oil can be stored on the container 74. As shown in FIG. 2B, as the oil is stored in the container 74, the container 74 expands, and as the container 74 expands, a predetermined amount of oil may be stored in the container 74. . When a predetermined amount of oil is stored, the valve 65a and the valve 72a are closed. Thereafter, the inlet 72 is separated from the oil outflow line 65, and the recovery container 70 is thrown at sea.

As shown in FIG. 2C, the thrown-out recovery container 70 remains on the sea, and the injection hole 72 is exposed to air. The recovery container 70 rotates so that the weight 76 is located at the lowermost end by the mass of the weight 76, and conversely, the inlet 72 may maintain the exposed state in the air. In addition, since the oil stored in the recovery container 70 has a low specific gravity compared to seawater outside the recovery container 70, the weight of the recovery container 70 is smaller than the buoyance applied to the recovery container 70. And, the recovery container 70 can float on the sea by buoyancy.

As described above, the operator may separate the oil from the mixed fluid and store the oil in the recovery container 70, and may throw the oil-filled recovery container 70 into the sea. The recovery container 70 thrown at sea maintains the floating state at sea, and the floating recovery container 70 is separated by a separate vessel (that is, a vessel that lifts the recovery container 70 separately from the oil recovery vessel). It is recovered. In other words, the operator loads a plurality of recovery containers 70 (unexpanded, having a small volume) on the hull, and separates the oil from the mixed fluid in which the oil is diffused at the oil spill site, the recovery container (70) When the oil is filled in the recovery container 70, the recovery container 70 is thrown to the sea and the oil is stored in the new recovery container 70 again. This operation can be repeated to recover the sea oil, as shown in Figure 2d, the recovered oil is floating on the sea in the state filled in the recovery container (70). The oil recovery vessel stores oil in the recovery container 70 by performing only the oil recovery and storage functions as described above, and the recovery container 70 is recovered by a separate vessel. Therefore, the oil recovery ship need not have a separate storage space for storing oil or a separate storage space for storing the recovery container 70, and can provide an oil recovery function with a small ship.

3 is a view schematically showing an oil recovery ship according to another embodiment of the present invention. Hereinafter, only the configuration different from the embodiment shown in FIG. 1 will be described. Unlike the above, the permeation membrane 42 is provided at the center of the oil / water separation tank 40, and the mixed fluid is introduced through the inlet 44. The oil in the mixed fluid flows through the permeation membrane 42 and moves to the lower portion of the oil / water separation tank 40 (in the direction of the arrow in FIG. 3), while the mixed fluid except the oil permeates through the permeation membrane 42. It is discharged through the drain line 80 in a state that is not. The oil moved to the lower portion of the oil / water separation tank 40 flows out through the oil outflow line 65.

Although the present invention has been described in detail with reference to preferred embodiments, other forms of embodiments are possible. Therefore, the spirit and scope of the claims set forth below are not limited to the preferred embodiments.

1 is a view schematically showing an oil recovery ship according to an embodiment of the present invention.

2a to 2d is a view showing a state of use of the recovery vessel connected to the oil outflow line of FIG.

3 is a view schematically showing an oil recovery ship according to another embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

15: inflow tank 30: oil-water separation tank

35: bulkhead 62,63: recovery line

64: oil tank 65: oil spill line

66: flow meter 70: recovery container

72: injection hole 74: container

76: weight 80: drainage line

120: discharge line

Claims (13)

In the recovery vessel is connected to the end of the outlet line for flowing out the fluid flowing through the one is stored in the fluid flowing through the outlet line, The recovery container is detachably connected to the end of the outlet line, the internal volume of the recovery container is characterized in that the expandable container. The method of claim 1, The recovery container, An injection hole disposed at a front end of the recovery container and connected to an end of the oil discharge line; And A recovery container, characterized in that disposed on the rear end with respect to the center of the recovery container, having a weight having a predetermined mass. The method according to claim 1 or 2, And a weight of the recovery container in which the fluid is stored is less than a buoyancy applied to the recovery container when the recovery container is placed in water. An oil-separation tank into which a mixed fluid containing oil is introduced and separating the oil from the introduced mixed fluid; An oil outflow line connected to the oil separation tank for flowing the oil therein; And The oil recovery device is connected to the end of the oil outflow line, characterized in that it comprises a recovery vessel for storing the oil spilled through the oil outflow line. The method of claim 4, wherein The recovery vessel is detachably connected to the end of the oil outflow line, oil recovery device, characterized in that the inner volume of the recovery vessel is expandable. The method of claim 4, wherein The recovery container, An injection hole disposed at a front end of the recovery container and connected to an end of the oil discharge line; And The oil recovery device is disposed on the rear end with respect to the center of the recovery container, and having a weight having a predetermined mass. The method of claim 4, wherein The vessel further includes a flow meter provided on the oil outflow line for measuring the flow rate of the oil flowing through the oil outflow line. The method according to any one of claims 4 to 7, And the weight of the recovery container in which the fluid is stored is less than the amount of buoyancy applied to the recovery container when the recovery container is placed in water. In the method for recovering the oil by separating the oil from the mixed fluid containing oil, Connecting an inlet of a recovery container to an end of the separated oil outflow line, and storing the oil flowing out through the oil outflow line in the recovery container; And And separating the recovery vessel in which the oil is stored from the oil discharge line. The method of claim 9, The method is carried out at sea provided with a mixed fluid, The method, Closing the inlet of the recovery vessel separated from the oil outflow line; And And throwing the recovery container off the sea by throwing the recovery container into the sea. The method of claim 10, The method further comprises the step of recovering the recovery vessel floating on the sea. The method of claim 10, Providing the injection port in the front end of the recovery container, by providing a weight having a predetermined mass at the rear end of the recovery container, Oil recovery method characterized in that to expose the inlet of the recovery vessel thrown in the sea in the air. The method of claim 9, The storing of the oil in the recovery vessel may include measuring the flow rate of the oil flowing out through the oil outflow line and storing the oil at a predetermined flow rate in the recovery vessel. Oil recovery method.

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