NO176813B - oil collector - Google Patents

Description

The invention relates to a device for capturing emissions and leaks, particularly oil, from shipwrecks and other submerged structures or reservoirs, as stated in the introduction to patent claim 1. Such an "oil guide" can be used to capture pollutants that come out from the countless shipwrecks found in all waters.

Background

With increasing pollution and environmental awareness, efforts to prevent further pollution will be increased. This also applies to pollution originating from underwater pollution sources, e.g. shipwrecks, pipelines or other submerged structures or reservoirs, which may be exposed to discharges or leaks.

From Norwegian patent application 2929/69, a device is known, where a hood can be suspended over a wreck and connected to a pipe leading up to the sea surface, for directing the oil into a container placed on a vessel. This solution has not been realized in practice, partly because it has been impossible to manufacture a riser that can withstand the length variations that must occur in connection with wave movement on the vessel.

GB patent application 2,063,776 describes a collection cap for the collection of uncontrolled blowouts which is anchored to the seabed. But this equipment requires immediate emptying of the discharge mass, which will be a mixture of gas and oil.

Purpose

The main purpose of the invention is therefore to arrive at such a device or "oil guide", which can guide discharges and leaks from a position at or near the seabed and up towards the surface for appropriate collection. It is an aim to arrive at such a device which is not sensitive to wave motion. It is a particular purpose to create a device that can be placed on a shipwreck or similar and that can be kept in readiness there for the collection of even small emissions over a longer period of time, without continuous supervision and emptying. It is therefore important that the equipment can be located in the sea, without disturbing normal surface traffic, and without being affected by climatic stresses.

The invention

In accordance with the invention, this can be achieved by designing the device as stated in the characterizing part of patent claim 1.

This solution has made it possible to create a collection device that can be used in a number of cases, where it has previously been impossible to carry out safe collection.

The device in accordance with the basic idea can be improved in various ways as indicated in patent claims 2-9.

The invention will be further described below with reference to the figures.

Example

In the drawings, an example of an embodiment is shown, ie

fig. 1 shows a schematic side view of a device in accordance with the invention, placed above a shipwreck,

fig. 2 shows on a larger scale an alternative embodiment of the top of the riser with a few more details than in fig. 1, while

fig. 3 shows a side view of a detail of the riser.

In fig. 1 shows a partially submerged shipwreck 11 on a seabed 12. Above this shipwreck is placed a hood 13 of suitable canvas material and with a pyramid shape and dimensions corresponding to the size of the wreck. The hood 13 is anchored to the seabed with dregs or heavy weights 14 and 15 and is provided at its lower edge with weights 16 at certain intervals. The top 17 of the hood is tightly connected to a riser 18, also of cloth material, which extends up through the water mass and which ends in an upper cylindrical part 19, in this case tubular, as an extension of the riser 18.

The upper part 19 of the riser 18 is provided with a cover 20 which will be described in more detail in connection with fig. 2. The main task of the cover or lid 20 is to close the riser 18 at the upper end and to serve as a connecting device for draining emissions. Figure 1 shows a discharge jet 21 which rises from a tank in the shipwreck 11 and which is collected under the hood 13 and led up through the riser 18 towards its upper part 19.

In the upper part 19 of the riser, a displaceable, piston-shaped barrier 22 is placed, which is connected to an emptying hose 23 that leads up to a valve 24 on the lid 20. From the lid 20, a line 25 is led up to a buoy 26 with a warning light 27, intended to float on the surface of the sea.

This solution allows the discharge 21 to be collected in the interior of the riser 18, under the barrier 22, as shown at 28. The riser 18 and its upper part 19 can be dimensioned so that the volume 28 corresponds to the collection of emissions over a period from one day to some weeks.

In fig. 2, an alternative embodiment of the top of the riser is shown in more detail. Instead of a displaceable barrier or piston, a membrane or sealing cloth 29 is inserted here which is tightly connected to the riser 18 and which is connected to the drain hose 23 up to the valve 24, which is shown schematically. The valve 24 is provided with a connection spigot 30 for connection to a drain pipe (not shown), the end area being covered with a lid 31. Under the lid 31, a passage 32 with a valve 33 and a connection spigot 34 for supply is inserted in the cover wall 20 of air which can stabilize the upper end of the riser 18 in the water.

In fig. 3 shows a detail of the riser 18. The riser 18 is here provided with a net stocking 35 which extends over the entire length and which provides increased strength to withstand tension and internal pressure.

Alternatively, a cloth material can be used in the riser 18, which is similarly reinforced, e.g. with fiberglass fabric. In order to stabilize the riser 18 in the water, it is provided with at least one ring-shaped floating body or float 36, which is appropriately anchored to the net stocking 35, e.g. with laces 38.

The annular floating body 36 can also serve as an anchor for a guide wire 39 by means of a guide ring 40 on the outside of the floating body. The guide wire can stretch between a plumb line at the seabed (not shown) and a buoy (not shown) at the surface.

The device is designed to be able to collect small and large oil leaks from sunken ships, shipwrecks, wrecks etc.. It is intended to be placed stationary over the relevant location for a long time, where it continuously collects and brings up with the help of the hood 13 in the riser 18 oil spills which can later be removed by drain hoses to the connection 30. Both pipe and cap are produced from a strong, growth-resistant plastic sheet, which is covered with a layer of groove on the outside and which is reinforced on all edges with two layers of rope of sufficient strength for attaching weights, lines to dredges, etc. The upper part 19 of the riser 18 is produced from fully cast, reinforced plastic, which is therefore fitted with a lid with the necessary elements for connecting hoses or pipes for removing oil, pumping in air for positive buoyancy, feed-through nipples for various measuring devices (not shown) etc.

On the outside of the riser 18, floats 36 are mounted in advance at the desired distance, depending on what the device is to be used for and the desired positive buoyancy, also considering current conditions. A float can also be placed at the transition between the collection hood 13 and the riser 18 to reinforce this transition. The hood 13 shown in fig. 1 can be expanded with connecting pieces of the desired size, to provide a larger collection surface.

At the bottom edge of the cap, there are mounting straps that can be used for attaching weights or for attaching directly to a shipwreck. Such straps can also be used to connect any connecting pieces.

Assembly

The whole system is balanced in such a way that the fixed floats and a certain number of weights mounted in fastening straps at the lower edge of the collection cap 13 or on attached extension pieces offset each other, with a slight preponderance of the weights. When the system is lowered into the sea with the help of an overhead vessel, the entire system will straighten to its full extent. The surface vessel may have fixed guide wires as illustrated in fig. 3. The system will then lead slowly down towards the casualty/wreck. Here, an underwater vessel can attach the pre-mounted straps to the wreck. This can happen in relevant places on board, e.g. on ridges, on spillways, on pipelines etc. Where there is no opportunity for such fastening, you can use the already mounted plumb bobs and any fixing bolts 14 and 15 as shown in fig. 1.

One of the valves on the lid 20 must be open, in order to release air in excess of the device, which must be removed to achieve a negative buoyancy.

It may also be necessary to fit on additional staylines (not shown) to prevent the structure from drifting off due to current etc.

When the entire construction is in place, the open valve in the top cover 20 is closed, where some air is supplied which will then tighten up the entire construction. Finally, the necessary signal light is put in place as described above. The plant is now ready for operation and oil leaking from the wreck/casualty in question will therefore be collected and led into the riser that runs up from the top of the collection hood 13 to the desired level below sea level, e.g. about. 20 m., so that there is free movement over the device. This depth allows for diving work to attach the necessary pipes for the removal of collected oil.

The oil will rise through the riser and collect at the top of the riser due to the pumped-in air, from which it can be periodically removed by means of discharge pipes (not shown) from a surface vessel.

The riser 18 together with its upper part 19 has three functions. Firstly, it must fulfill the riser function and allow discharge from the hood 13 to an outlet point below the surface. Furthermore, there must be room for temporary collection of emissions, so that it becomes unnecessary to continuously extract from the surface. Finally, the upper part must be able to provide sufficient buoyancy and weight to keep the device in balance in the water. In addition to this, the top of the riser 18 must be provided with various connection equipment etc. as indicated above.

The collection option is a central function of the device in accordance with

the invention. In the example in fig. 1, a riser 18 of flexible fabric with an upper rigid part 19 of reinforced plastic is used to form a collection space, with the same cross-section for both parts. The use of a cylindrical, rigid part 19 is necessary in those cases where a piston 22 (fig. 1) is to be used as a barrier between the collected discharge and an overlying air pocket. It is possible to design the sausage-shaped riser 18 with a smaller diameter than the collection part 19.

Claims (9)

1. Device for catching emissions and leaks, especially oil, from shipwrecks (11) and other submerged structures or reservoirs, with a cap (13) which is arranged to be placed over the wreck or similar object and which is connected to a riser (18) or a riser that leads up to a level below the water surface and from which the discharge can be transferred to a collection tank, characterized in that a buoyancy body (37) is formed at the upper end (19) of the riser (18), preferably by means of air filling, and that inside the riser (18), from the lower edge of said buoyancy body (37) down to and with the cap (13), discharge mass (28) can be absorbed and/or temporarily stored. 2. Device in accordance with patent claim 1, characterized in that the riser (18) is dimensioned to end approx. 20 meters below the water surface, or less at shallower depths. 3. Device in accordance with patent claim 2, characterized in that the upper part (19) of the riser (18) is cylindrical, in particular with a circular or rectangular cross-section, and provided with a piston (22) or a membrane (29) which forms a displaceable barrier between the discharge mass (28) and an overlying air pocket (37), and where the air pocket (37) acts as a buoyant body. 4. Device in accordance with one of patent claims 1-3, characterized in that an emptying hose (23) is connected to the displaceable barrier (22, 29). 5. Device in accordance with one of patent claims 1-5, characterized in that the riser (18) is made of fabric material which is covered by a reinforcing net stocking (35) or provided with integrated flexible reinforcement. 6. Device in accordance with patent claim 5, characterized in that the net stocking (35) is attached up and down to the riser (18). 7. Device in accordance with patent claim 5 or 6, characterized in that the riser's upper end (19) is made of reinforced plastic. 8. Device in accordance with patent claim 7, characterized in that the riser's upper end (19) is provided with a top cover (20) with a valve (24) for connecting a discharge pipe (at 30). 9. Device in accordance with one of patent claims 1-8, characterized in that the riser (18) is provided with at least two annular floats (36) spaced apart in the height direction.