This invention is directed to an underwater sediment evacuation system. The invention uses a suction pile and one or more pumps, valves, and lines to evacuate sediment contained within the internal volume of the suction pile.
A preferred embodiment of the invention is directed to an underwater sediment evacuation system. A first preferred embodiment comprises a housing 10, referred to herein as a “suction pile” comprising a substantially cylindrical body 12 and a top surface 14 comprising a suction port 16, an inlet port 18, and a differential pressure relief port 20, as shown in
This first embodiment further comprises a suction line 22 extending through the suction port and comprising a first end 21 in the internal volume, and a second end 23 opposite the first end, as shown in
In another preferred embodiment the suction line comprises a standpipe section 24 extending through the suction port and a flexible section 26 extending downward from the standpipe into the internal volume and terminating at suction mouth 47, as shown in
This first embodiment further comprises a first valve 28 comprising a discharge section 27 connected to the inlet port, an inlet section 29 opposite the discharge section, and a closure member 30 between the discharge and inlet sections, as shown in
This first embodiment further comprises a return line 32 comprising a first end 31 attached to the inlet section of the first valve and a second end 33 opposite the first end.
This first embodiment further comprises a relief valve 34 connected to the differential pressure relief port. In another preferred embodiment, the relief valve is a spring loaded valve, as shown in
In a second preferred embodiment, the invention comprises a housing or suction pile comprising a substantially cylindrical body and a top surface comprising a suction port, an inlet port, a control valve port, and a pressure relief port, as shown in
This second embodiment further comprises the suction line, first valve, and return line, as described above for the first embodiment.
This second embodiment further comprises a relief valve connected to the pressure relief port, and a control valve connected to the control valve port.
In another preferred embodiment, the invention further comprises a robotic arm 40 attached to the portion of the standpipe in the internal volume and positioned such that it can grasp and move the flexible section of the suction line to a desired location. In a preferred embodiment, the robotic arm comprises at least two articulated joints 41, as shown in
In another preferred embodiment, the invention further comprises a subsea light 42 mounted within the internal volume; and a subsea camera 44 mounted within the internal volume and positioned to provide real time images of the robotic arm and the flexible section of the suction line to a remote location, as shown in
In another preferred embodiment, the invention further comprises a sonar unit 46 mounted within the internal volume and positioned to detect the location of the robotic arm and the flexible section of the suction line and configured to provide data indicative of said locations to a remote location, as shown in
In another preferred embodiment, the invention further comprises a suction pump 48 comprising a suction section connected to the second end of the suction line and a discharge section opposite the suction section, as shown in
The foregoing disclosure and description of the inventions are illustrative and explanatory. Various changes in the size, shape, and materials, as well as in the details of the illustrative construction and/or an illustrative method may be made without departing from the spirit of the invention.
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20090100724 A1 | Apr 2009 | US |