ES2275380A1 - Subsea oil collector - Google Patents

Abstract

The device for petroleum recovery includes a tanker and a ship positioning device. In operation, the ship positioning device is united to or closely spaced from the sunken ship through remote drivers or vehicles, and locates the tanker to the ship via guide cables. The tanker is then submerged to gather the petroleum leaking or flowing out into the water from the ship, and is raised once full of the recovered petroleum.

Description

Underwater oil collector.

Field of the Invention

The present invention generally relates to devices and methods used to contain oil leaks and other liquids that have a specific gravity lower than that of water, coming from ships or other structures that contain fluids below the surface of the ocean or any other body of water

Background of the invention

It is well known that tankers, the barges and other ships containing oil occasionally suffer  damage and release the contents of its load in the surrounding water. Freight is typically oil, although they are often transported from this way other flammable fuels that have a severity specific lower than water, such as gasoline, diesel and kerosene. However, because the most common load is oil, that term will be used exclusively here with the understanding that It is representative of all fluids that are serious specific below 1.0. Such leaks sometimes occur when the ship is still afloat and, in other cases, the ship sinks to the bottom of the ocean and remains there permanently. In those cases in which a ship sinks, oil can be contained still inside the ship, but you can slowly spill to through the damaged helmet or other opening. By virtue of its density lower, oil will rise to the surface of the water. This oil accumulation, sometimes referred to as "black tide of oil ", is particularly difficult to collect, causing tremendous efforts over the last decades to come up with equipment and methods to remove oil from the surface.

Consequently, there is a great need for a system that can be used to recover oil that is spills sunken ships in a way that prevents oil reach the surface. Even if the ship that contains oil does not It leaks, the gradual effect of corrosion and currents oceanic over the course of time will eventually cause The oil escapes from the ship. Therefore, it is desirable to have a oil collection system that can also be positioned by  on top of a release hole formed in the penetrated hull of the ship to remove the oil.

Summary of the invention

Therefore, an object of the present invention is to provide an underwater oil collector that collects oil from under the surface of the water.

It is also an object of the present invention provide an underwater oil collector that can be position on the hull of a ship in a selected place.

A further object of the present invention is provide an underwater oil collector that can be recover on surface ships or empty according to methods acceptable.

Another object of the present invention is provide an underwater oil collector that can be guided until you are in your location by a vehicle powered by distance (ROV).

Accordingly, a manifold is provided fluid submarine, which comprises a container that has a fluid inlet and fluid outlet, a device for Ship positioning operatively connected to the container, a closing mechanism to close the fluid inlet, and a closing mechanism to close the fluid outlet; in which the container is positioned by the positioning device of ship to receive, through the fluid inlet, a fluid leakage (such as crude oil, gasoline, diesel or similar) that comes out of a source of fluid leak in the ship, and in which the water, if exists, which resides inside the container moves as enters the leaking fluid container. Preferably, the ship positioning device includes means to join and disengage from the ship and optionally controlled remotely. Also, it is preferable that both the input closing mechanism As the output closing mechanism are controlled remotely or by the volume of fluid collected inside the container. In a preferred embodiment, the container has negative buoyancy before being filled with spilled fluid.

In an alternative embodiment, the collector additionally includes a float that resides in or near the water surface; and a guide wire that has a first end operatively attached to the float and a second end attached operationally at or near the source of fluid leakage; and in the that the container is slidably attached to the guide wire for its rise and fall. Optionally, they are also present speed control means to control the speed at the one that the container slides along the cable. In a additional arrangement, the collector additionally includes a fluid conduit operatively connected between the outlet of container and float fluid, in which the duct allows fluid transfer from the container to the float.

In another alternative embodiment, the collector additionally includes a ballast chain and a wire handling, in which the container is attached to the chain of ballast which in turn is attached to a handling wire more Lightweight, high traction. The chain provides buoyancy refusal to help the container in its descent. Once he container reaches the ocean floor and the ballast chain is located on the ocean floor, the container can be handled more easily using an ROV with the help of the wire handling. The handling wire can be recovered on a reel type mechanism to help the collector with a controlled ascent after it has been filled with fluids.

A method of collecting is also disclosed. fluids under the sea, comprising the steps of providing a fluid collection container that has a mechanism of positioning, a fluid inlet and a fluid outlet; mount the container, using the positioning device, on a submerged ship that has a source of fluid leakage and position the fluid inlet above the leakage source; allow leakage fluid to enter the container until the container is full of fluid; close the fluid inlet; Y move the container to the sea surface where it can be recovered on a surface ship or where the fluids are They can transfer to a surface ship.

Brief description of the drawings

Figure 1 is an elevation view of a preferred embodiment of the present invention, which represents the Underwater oil collector in an operational configuration.

Figure 2 is another view of the embodiment of Figure 1 downloading the contents of the collector in a barge.

Figure 3 is an elevation view of a alternative embodiment of the present invention representing the submarine oil collector in an operational configuration, while discharging fluids in a surface barge oceanic, and attached to a guide wire that extends between a ship submerged and a surface vessel.

Figure 4 is an elevation view of a third embodiment of the present invention representing the submarine oil collector including a chain device of ballast and wire handling.

Figure 5 is yet another embodiment that uses characteristics common to those of the figures 1-4.

Figure 6 is another view of the embodiment of Figure 3 depicting the underwater oil collector in an operational configuration near the ocean floor, while collect fluids from the surface that is leaking.

Figure 7 is an elevation view of a alternative embodiment representing the underwater collector of oil attached to a guide wire that runs between a ship submerged and a float.

Figure 8 is an elevation view of a basic alternative embodiment representing the underwater collector of oil in an operational configuration without the union of any cable or wire

Detailed description of preferred embodiments

Unless stated otherwise here, all building materials are impervious to fluids and all joints between such components are structurally solid. Materials and methods are intended to impart a maximum level of strength and structural rigidity, keeping the make the invention as light and easy to use as possible. Certain features that are used when assembling or operating the invention, but which are known to those skilled in the art and that have no novelty points, such as screws, bolts, nuts, welds and other common fasteners, may not be Shown for clarity.

In preparation for the use of the invention which will be described later, a large hole 11 is cut of release in one of the tanks of the submerged tanker or another ship 10 using an ROV (in deep water) or by divers (a depths that enable divers' operations). Immediately after the release hole 11 is formed, a closing mechanism is installed immediately on the ship 10, such as a magnetic cap, a valve or other device suitable capable of substantially sealing hole 11 of release, to prevent premature release of fluids 12 to through hole 11.

Turning now to the figures, an embodiment  preferred of an underwater oil collector 1 is illustrated in elevation view in figure 1. Collector 1 is shown in a operational configuration below sea surface 6 e It includes a container 2, which can be either a structure rigid or flexible material, which has an input 3 of fluid and a fluid outlet 4. The volume that houses the container 2 can be approximately 380,000 liters, although This size may vary depending on the circumstances. He container 2 includes a positioning device 5, which can be simply one or more link chains, cables or a mechanical hitch device, which works to position the container 2 above a ship 10 that has a source 11 of leakage. The fluid 12 that spills from the leakage source 11 is typically oil, gasoline or some other fluid based on hydrocarbon that has a positive buoyancy, for example a specific gravity lower than the surrounding water. In absence  of the present invention, such fluid 12 would simply float to surface 6 and would form a "black tide", which is excessively difficult and expensive to contain and remove. Preferably, the collector 1 has a buoyancy "negative" when entering the water, such that its weight and its density will allow it to sink towards the ship 10 relatively without help.

In the embodiment of Figure 1, the container 2 is suspended from a wired cable 40 that is attached to the part top of container 2 and that originates from some other structure, typically a ship, a barge or other first ship 41 surface, located on the sea surface 6. The most conveniently, the cable 40 is connected to a reel 42 of cable storage in the first surface ship 41, such so that the unwinding of the reel 42 allows the container 2 sinks towards the submerged ship 10 and the winding from reel 42 lift container 2 for handling additional.

With specific reference to container 2, the inlet 3 may include a closing device or valve 7 that seal container 2 in that place when it closes and that allows that fluid 12 enters container 2 when it opens. In Typical applications, input 3 may vary from 60 centimeters to 90 centimeters in diameter to accommodate the flow of fluids 12 released from hole 11, although the specific size may vary depending on the precise needs of the situation. Similarly, output 4 also includes a closing device. or valve 8 that remains closed as container 2 is filled with fluid 12, but that can be opened to release the contents of container 2 when recovered. Both of the Closing devices 7, 8 can be opened and closed manually by divers or by ROV, depending on the water depth Alternatively, either or both of the Closing devices 7, 8 can be opened or closed in response to operating conditions or a container filling condition 2. For example, the closing device 7 of input is closed by a motor or other common device of solenoid after an electronic signal generated from sensors buoyancy indicating that container 2 is becoming completely full of fluid 12.

Once container 2 is positioned directly above hole 11 or other source of leakage, the positioning device 5 preferably joins the ship 10. This task would be performed either by divers in the location or by ROV, depending on the depth. The output closure device 8 closes to seal the outlet 4, and fluid 12 rises inside the inlet 3 and move water, if any, that resides inside the container 2. As the volume of fluid 12 increases within the container 2, water is continuously expelled through the inlet 3 until container 2 is completely filled with fluid 12. Since the density of oil is lower than the density of water, oil will float to the top of container 2 while moving the water to the bottom of the container 2 and then outside through entrance 3. When container 2 It is full of fluid 12, the inlet 3 is closed. Next, the positioning device 5 disengages from ship 10 in recovery preparation container 2 full of fluid.

Preferably, building materials of the container 2 and the positioning device 5 are such that the full container 2 will ascend without help due to its increased buoyancy If desired, they can also be installed in the container 2 additional flotation devices, such as Floating materials commonly used for marine applications of deep water.

With regard to the union and disunity of positioning device 5, device 5 of positioning can also comprise mechanical devices or Additional ropes or cables with anchors to ensure that the manifold 1 is in its location securely over the hole 11 release. Alternatively, device 5 of positioning can be separated in response to some other condition, such as by the closure of the closing device 7 of inlet or reaching a predetermined volume of fluid 12 inside of the container 2. In any case, it is essential that the anchor or the union of the positioning device 5 is sufficiently safe to prevent premature ascent of container 2 due to buoyancy increased during fluid collection 12.

Although not necessary, container 2 can be constructed from a tightly woven slap that It is permeable to water but not to leakage fluid, for example crude. In this configuration, water can simply be passed through of the sides of the container 2 as the fluid 12 fills the container 2. Preferably, the upper part of container 2 it can be formed in the form of an inverted cone, because the forces buoyancy applied to the top of container 2 when full they will impart significant efforts to the container  manufactured 2. Build the top of container 2 of this way should serve to minimize such effort and avoid a possible torn.

Figure 2 illustrates a preferred way in the that the contents of the collector are downloaded 1. After the closure of the device 7 closing the entrance and releasing the positioning devices 5 from the ship 10, it returns to apply as explained above a magnetic cover or other closure for release hole 11. Since the container 2 it's full of oil, it should then rise naturally because to its positive buoyancy. As container 2 approaches to surface 6, an ROV or some divers handle the container 2 towards the bottom side of a barge 43 or other ship of containment. Barge 43 includes a lower side entrance 44 which is sized and formed to interface with the output 4 of container 2. Once output 4 is connected to entry 44 of the barge, devices 45 of positioning, in the form of chains, cables or other means suitable, to secure container 2 to barge 43. Then, the output closure device 8 opens to allow floating fluid 12 to enter barge 43. Generally, the buoyancy of fluid 12 will be sufficient to transport the contents of container 2 directly inside barge 43, although assisted emptying of the container 2 by pumps or vacuum methods known for the Experts in this field. Finally, when container 2 is substantially empty, outlet 4 closes and devices 45 positioning are released, making the empty manifold 1, Due to its negative buoyancy, it sinks back down towards ship 10 for another collection cycle. It is also due appreciate that, although this embodiment describes a second barge-shaped surface ship 43, it is also possible that the first surface ship 41 serves as a place of unloading if includes appropriate storage compartments similar to those of the barge 43.

In figures 3 and 6, an embodiment is shown  alternative of the invention, and additionally includes a barge 43 or other containment ship that resides at or near the surface 6 of the water and a guide wire 21. The guide wire 21 includes a first end 22 operatively attached to barge 43 and a second end 23 operatively attached in close proximity to the source of fluid leakage, such as for a mechanical fastener that has been installed in or near the hole 11 release. Alternatively, the second end 23 can be attached to anchors. adjacent to the release hole 11. In this embodiment, the second end 23 of the guide wire 21 is joined either by divers or by means of a ROV, depending on the depth. The guide wire 21 serves as a guide for the container 2 and is passed through a guide tube 24 that extends into the center of container 2, thereby making container 2 be slidably attached to the guide wire 21. Optionally, the guide tube 24 can be attached to the outside of container 2 substantially with the same effect. Also, although it is believed that a single guide wire 21 may be sufficient for most For purposes, two or more such guide wires 21 may be used to maintain the orientation of the container 2. Thus, to as container 2 enters the water and descends towards  ship 10, is guided and positioned above hole 11 of release with minimal help. Optionally, collector 1 can include speed control means to control speed to which container 2 slides along guide wire 21 during the descent to the ship 10. For example, one of such means speed control may comprise a type immobilizer of friction that slows down the rate of descent but also it is immobilized against the guide wire 21 once the container 2 reaches ship 10. In this way, the control device of speed contributes to the safe placement of container 2 e prevents its premature rise. Once container 2 is in its location properly, the devices 5 of positioning and closing device or cover for the release hole 11 is opened by divers or by a ROV, and fluid 12 begins to fill container 2, as shown in figure 6. When container 2 is full, the input 3 closes as in the previous embodiment and the device Closing over the release hole 11 is replaced. Next, the immobilization mechanism is released by means of  divers or the ROV, along with devices 5 of positioning, and container 2 should rise due to its positive buoyancy The unloading of container 2 is essentially identical to the procedure described for prior realization, except for the ease with which the container 2 can be guided to barge 43 by cable Guide 21

Figure 4 illustrates a third embodiment of the present invention, which represents a variation of the first embodiment described above. Although you can use the realizations prior to a certain variety of depths, this embodiment is particularly suitable for depths extreme, that is, greater than approximately 1,500 meters. Specifically, the wired cable 51 originates from a reel. 42 similar to that described above and joins at its end opposite 53 to the terminal end 54 of a ballast chain 55 or another suitably heavy and flexible device that can be used as will be explained later. Preferably, cable 51 is Constructed of a lightweight material with high tensile strength whose weight at extreme depths will not hinder significantly the maneuverability of container 2 and that can wind and unwind for frequent pickup cycles over extended periods of time. In this embodiment, assuming that ballast chain 55 is attached to the top of container 2, ballast chain 55 is at least as long as the height and width of the container 2, such that a portion of the ballast chain 25 may come to rest on the surrounding surfaces. For example, as container 2 comes into contact with ship 10, ballast chain 55 continues sinking and resting on the surrounding surfaces or the ocean floor This temporarily temporarily anchors the container 2 to ship 10, but still allows the ROV to move the  container 2 side by side with much less power required than without the presence of ballast chain 55.

Figure 5 is another embodiment representing an elongated container 2 slidably attached to a cable 21 guide, but also includes a 55 ballast chain connected to a handling cable or wire 51 as described previously. In this embodiment, the guide wire 21 would be attached between the ship 10 and the unloading barge 43, whose wire 51 handling originates from a reel 42 or in it barge 43 or in another support ship 41. Note that, in this embodiment, the ballast chain 55 is more or less attached to half of container 2, such that the only requirement length of ballast chain 55 is that there is at least some portion of its length that rests on surfaces surrounding when container 2 is secured to ship 10 that It leaks.

Figure 7 illustrates another embodiment of the invention in which container 2, as described herein previously with respect to figures 3 and 6, it is attached so slidable to a cable having a first end 22 attached to a Float that floats on or near the surface of the water. Optionally, the float may comprise a fluid ship of flotation and an additional fluidically connected duct between the top of container 2 and the float or the ship of float fluid. In this way, the fluids collected inside  of container 2 can rise through the duct and into the float fluid ship, which can then be remove or empty as described here above.

Finally, figure 8 represents the simplest embodiment in which container 2 is handled up to its submerged position and recovers for withdrawal or emptying completely by ROV or by divers. Although both of these embodiments require the greatest amount of manipulation manual, its relatively cheap costs in terms of both hand of work as a team can make them suitable for a certain variety of applications, such as in shallow water.

In all the described embodiments previously, a discharge pump can be used on board ships 43 surface to connect to outlet 4, to pump out fluids 12 inside container 2. Fluids 12 can be pump inside towable bladders or inside other barges of the location. If necessary, a collar can be attached steam at outlet 4 to heat and facilitate the discharge of 12 highly viscous fluids. Also, the full container 2 can be towed to land for unloading or transported to a ship to take port to download at another location.

Although embodiments have been shown and described copies of the present invention, many can be made changes, modifications and substitutions by an expert in the technique without necessarily leaving the spirit and scope of the invention. For example, the invention could be adapted to capture oil that rises from oil leaks that occur naturally on the ocean floor, modifying the device assembly as necessary to join floor structures Marine.

Claims (29)

1. An underwater fluid collector, which it comprises: a) a container that has a fluid inlet, and b) a  ship positioning device connected to said container; and in which said container is positioned by said ship positioning device to receive, through said fluid inlet, a leakage fluid that flows out of a source of fluid leakage from a submerged ship. 2. The underwater fluid collector of the claim 1, wherein said entry includes a mechanism of closure adapted to prevent said fluids from escaping from said container. 3. The underwater fluid collector of the claim 1, wherein said container further includes a fluid outlet and an outlet closure device. 4. The underwater fluid collector of the claim 1, wherein said container has buoyancy negative. 5. The underwater fluid collector of the claim 1, further including: a) a float which resides at or near the surface of the water, and b) a guide wire having a first end operatively attached to said float and a second end operatively attached to or near said source fluid leakage; and wherein said container is attached to sliding way to said guide wire. 6. The underwater fluid collector of the claim 1, further including: a) a fluid ship of float that resides at or near the surface of the water, b) a cable having a first end operatively attached to said floating fluid ship and a second end attached operatively to said container, and c) a conduit connected fluidically between said fluid outlet of said container and said floating fluid ship, adapted to transfer fluids collected inside said container inside said ship of float fluid. 7. The underwater fluid collector of the claim 5, further including means of immobilization to attach said container to said ship submerged 8. The underwater fluid collector of the claim 5, further including control means of speed to control the speed at which said container is slide along said cable. 9. The underwater fluid collector of the claim 1, wherein said container includes an outlet of fluid and additionally includes: a) a first surface ship that resides at or near the surface of the water, and b) a cable that has a first end operatively attached to said first ship of surface and a second end operatively attached to said container. 10. The underwater fluid collector of the claim 9, wherein said first surface ship includes a discharge port in fluidic communication with said output of said container to receive said collected fluids inside said container. 11. The underwater fluid collector of the claim 9, further including a second ship of surface that has a discharge port in fluidic communication with said outlet from said container to receive said fluids collected inside said container. 12. The underwater fluid collector of the claim 10, further including joining means of surface ship to secure said container to said first surface ship during the discharge of said fluids from Said container 13. The underwater fluid collector of the claim 11, further including joining means of surface ship to secure said container to said second surface ship during the discharge of said fluids from Said container 14. The underwater fluid collector of the claim 9, wherein said first surface ship includes means for rolling and sliding said cable on a reel. 15. The underwater fluid collector of the claim 1, further including: a) a fluid ship of float that resides at or near the surface of the water, and b) a guide wire having a first end attached operatively to said floating fluid ship and a second end operatively attached to or near said leakage source of fluid; and in which said container is attached so Slidable to said guide wire. 16. The underwater fluid collector of the claim 1, further including: a) a fluid ship of float that resides at or near the surface of the water, b) a ballast device attached to said container, and c) a cable having a first end operatively attached to said ship of float fluid and a second end operatively attached to said ballast device. 17. The underwater fluid collector of the claim 16, wherein said ballast device is a chain. 18. A method to collect fluids below from the sea, which includes the steps of: a) providing a container of fluid collection that has a positioning device and a fluid inlet, b) assembling said container using said positioning device in a submerged ship that has a source of fluid leakage and position said fluid inlet by above said source of leakage, c) allowing said fluid to leak enters said container until said container is filled with said fluid, and d) retrieving said container in one place on or near the sea surface. 19. The method of claim 18, wherein  said container additionally includes a fluid outlet. 20. The method of claim 18, which additionally includes the step of closing said entry before recover said container. 21. The method of claim 18, wherein  said step of mounting said container in said submerged ship includes detachably joining said device positioning in said submerged ship. 22. The method of claim 18, wherein  said step of recovering said container from the sea includes disengage said positioning device from said ship submerged 23. The method of claim 18, wherein  said container is slidably mounted to a guide wire which extends between said submerged ship and a float positioned at or near the sea surface. 24. The method of claim 18, wherein  said container slidably joins a guide wire which extends between said submerged ship and a fluid ship of floating on or near the sea surface. 25. The method of claim 18, wherein  said container additionally includes a fluid conduit operatively linked between said container and a fluid ship of floating on or near the sea surface, and that includes additionally the step of transferring said collected fluid into from said container to said float fluid ship by said fluid conduit, before recovering said container. 26. The method of claim 18, wherein the step of recovering said container comprises allowing said container floats to the surface of the sea. 27. The method of claim 18, wherein  said container slidably joins a cable that extends between said submerged ship and a surface ship. 28. The method of claim 18, wherein  said container is attached to a cable that extends from a ship Of surface. 29. The method of claim 18, in the that, before recovering said container, said exit of said container connects to a surface ship to download fluids from said container.