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Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0735303 (2013-01-07) |
등록번호 | US-8863858 (2014-10-21) |
발명자 / 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 | 피인용 횟수 : 2 인용 특허 : 376 |
A system compensates for heave-induced pressure fluctuations on a floating rig when a drill string or tubular is lifted off bottom and suspended on the rig, such as when tubular connections are made during NIPD, tripping, cementing operations or when a kick is circulated out during conventional dril
A system compensates for heave-induced pressure fluctuations on a floating rig when a drill string or tubular is lifted off bottom and suspended on the rig, such as when tubular connections are made during NIPD, tripping, cementing operations or when a kick is circulated out during conventional drilling. In one embodiment, a pressure relief valve or adjustable choke allows the movement of fluid from the riser when the tubular moves down, and a pump with a pressure regulator moves fluid to the riser when the tubular moves up. The system also compensates for heave induced pressure fluctuations on a floating rig when a riser telescoping joint located below an RCD is moving between its retracted and extended positions while drilling.
1. A system for managing pressure from a floating rig heaving relative to an ocean floor, comprising: a riser in communication with a wellbore and configured to extend from the ocean floor, wherein said riser having a telescoping joint configured to move between an extended position and a retracted
1. A system for managing pressure from a floating rig heaving relative to an ocean floor, comprising: a riser in communication with a wellbore and configured to extend from the ocean floor, wherein said riser having a telescoping joint configured to move between an extended position and a retracted position;a tubular positioned within said riser;an annulus formed between said tubular and said riser configured to receive a fluid;a drill bit disposed with said tubular, wherein said drill bit is in contact with said wellbore;a rotating control device disposed above said telescoping joint and configured to seal said annulus;a fluid container configured to receive a volume of a fluid when said telescoping joint is in said retracted position;a line positioned between said rotating control device and said telescoping joint and configured to communicate said annulus with said fluid container; anda pressure regulator configured to move fluid in said line when an annulus pressure is less than a predetermined pressure setting of said pressure regulator. 2. The system of claim 1, further comprising an annular blowout preventer having a seal, said annular blowout preventer seal configured to move between an open position and a sealed position on said tubular. 3. The system of claim 1, wherein said fluid container is an accumulator, and said line and said accumulator are configured to be regulated by said pressure regulator to maintain a predetermined pressure. 4. The system of claim 3, wherein said line comprising a flexible flow line and wherein said fluid in said accumulator is a gas and the fluid in said annulus is a liquid and said gas and said liquid interface in said flexible flow line. 5. The system of claim 4, wherein said accumulator gas configured to provide a volume of liquid to said annulus when said tubular heaving from said wellbore. 6. The system of claim 1, further comprising: a programmable controller; anda sensor configured to transmit a signal to said programmable controller;wherein said pressure regulator is configured to he remotely actuatable by said programmable controller in response to said sensor transmitted signal. 7. The system of claim 1, wherein said fluid container is a trip tank. 8. The system of claim 1, further comprising a pressure relief valve, said pressure relief valve configured to allow said volume of fluid to be received in said fluid container. 9. The system of claim 8, wherein said pressure regulator configured to provide said volume of fluid through said line to said annulus. 10. The system of claim 1, wherein said fluid container being a cylinder, having a piston. 11. The system of claim 10, further comprising a piston rod connected between said piston and the floating rig. 12. The system of claim 10, wherein said line configured to communicate said fluid from said cylinder. 13. The system of claim 1, further comprising a first valve in fluid communication with said line and configured to move between an open position when said drill bit is contacting said wellbore and a closed position when said drill bit is spaced apart from said wellbore. 14. The system of claim 1, wherein said line is configured to communicate said fluid between said riser and said fluid container below said rotating control device. 15. A method for managing pressure from a floating rig heaving relative to an ocean floor, comprising the steps of: communicating a riser with a wellbore, wherein said riser is configured to extend from the ocean floor and having a telescoping joint;moving said telescoping joint between an extended position and a retracted position;moving a tubular having a drill bit in said riser to form an annulus between said tubular and said riser;sealing said annulus above said telescoping joint with a rotating control device;drilling the wellbore with said drill hit;positioning a first fluid container with said floating rig to receive a volume of fluid out of said riser annulus when said telescoping joint is in said retracted position; andcommunicating said volume of fluid from said annulus to said first fluid container into said riser annulus to manage pressure during the step of drilling. 16. The method of claim 15, further comprising the step of: moving an annular blowout preventer seal between an open position and a sealed position on said tubular to manage pressure. 17. The method of claim 15, further comprising a line and a first valve in said line for communicating said volume of fluid from said annulus to said first fluid container, further comprising the steps of: opening said first valve: anddrilling the wellbore with said drill bit. 18. The method of claim 17, further comprising the steps of: closing said first valve after the step of opening said first valve; andmoving said drill bit from the well bore. 19. The method of claim 15, further comprising a regulator, wherein said first fluid container is an accumulator and further comprising the step of: regulating pressure with said regulator to maintain a predetermined pressure in said accumulator. 20. The method of claim 19, further comprising the steps of: sensing a pressure in said annulus with a sensor;transmitting a signal of said pressure from said sensor to a programmable controller; andremotely actuating said regulator with said programmable controller in response to said transmitted signal for the step of regulating pressure. 21. The method of claim 15, wherein said first fluid container is a trip tank and the method further comprising the steps of: allowing the volume of fluid to be received in said trip tank when said tubular heaving towards the well bore; andproviding the volume of fluid to said annulus when said tubular heaving from the wellbore. 22. The method of claim 15, wherein said first fluid container being a cylinder, said cylinder having a piston, wherein said cylinder piston having a piston rod connected between with said cylinder piston and the floating rig, and the method further comprising the step of: communicating said volume of fluid between said cylinder and below a said sealed rotating control device in said riser. 23. A method for managing pressure from a floating rig heaving relative to an ocean floor, comprising the steps of: communicating a riser with a wellbore, wherein said riser configured to extend from the ocean floor;moving a tubular having a drill bit relative to said riser at a predetermined speed;sealing an annulus formed between said tubular and said riser with a rotating control device to maintain a predetermined pressure in said annulus below said rotating control device; andreceiving a volume of fluid out of said annulus when said rig heaving toward said wellbore during said step of moving;returning said volume of fluid into said annulus during said step of moving, wherein the steps of receiving and returning said volume of fluid out of and into said annulus allowing said predetermined pressure to be substantially maintained. 24. The method of claim 23, further comprising the steps of: moving a telescoping joint positioned below said rotating control device between an extended position and a retracted position; andreceiving said volume of fluid when said telescoping joint moves to the retracted position. 25. A system for managing pressure from a floating rig heaving relative to an ocean floor, comprising: a riser in communication with a wellbore and configured to extend from the ocean floor, wherein said riser having a telescoping joint configured to move between an extended position and a retracted position;a tubular positioned within said riser;an annulus formed between said tubular and said riser;a drill bit disposed with said tubular, wherein said drill bit is in contact with said well bore;a rotating control device disposed above said telescoping joint and configured to seal said annulus;a first fluid container configured to receive a volume of a fluid when said telescoping joint is in said retracted position;a line positioned between said rotating control device and said telescoping joint and configured to communicate said annulus with said first fluid container to manage pressure from the floating rig heaving relative to the ocean floor; anda pressure regulator configured to maintain a predetermined pressure in said line. 26. The system of claim 25, wherein said first fluid container is an accumulator, wherein said line and said accumulator are configured to be regulated by said pressure regulator to maintain a predetermined pressure. 27. The system of claim 25, wherein said system further comprising a mud pump, said pressure regulator configured to allow said mud pump to move fluid in said line when an annulus pressure from said tubular heaving is less than a predetermined pressure setting of said pressure regulator. 28. The system of claim 25, wherein said first fluid container is a cylinder, said cylinder having a piston and the system further comprising a piston rod connected between said cylinder piston and the floating rig. 29. The system of claim 28, wherein said line configured to communicate said volume of fluid from said cylinder. 30. A method for manning pressure from a floating, rig heaving relative to an ocean floor, comprising the steps of: communicating a riser with a wellbore, wherein, said riser configured to extend from the ocean floor and having a telescoping joint;moving said telescoping joint between an extended position and a retracted position;moving a tubular having a drill bit in said riser to form annulus;sealing said annulus above said telescoping joint with a rotating control device during the step of drilling;drilling, the wellbore with said drill bit;receiving a volume of fluid out of said annulus when said telescoping joint moves to the retracted position; andreturning said volume of fluid into said annulus during said step of moving said telescoping joint. 31. The method of claim 30, wherein the method further comprising the steps of: communicating said volume of fluid between said first fluid container and said annulus below said sealed rotating control device when a first valve is in an open position. 32. A system for managing pressure from a floating rig heaving relative to an ocean floor, comprising: a riser in communication with a wellbore and configured to extend from the ocean floor, wherein said riser having a telescoping joint configured to move between an extended position and a retracted position;a tubular suspended from the floating rig and leaving within said riser;an annulus formed between said tubular and said riser and configured to receive a fluid;a drill hit disposed with said tubular, wherein said drill hit is spaced apart from said wellbore;a rotating control device disposed above said telescoping joint and configured to seal said annulus;a fluid container configured to receive a volume of a fluid when said telescoping joint is in said retracted position and said tubular heaving in said riser toward said well bore;a line positioned between said rotating control device and said telescoping joint and configured to communicate said annulus with said fluid container; anda valve in said line configured to block the volume of the fluid from said annulus to manage pressure in the wellborn. 33. The system of claim 32, further comprising: a pressure regulator configured to move fluid in said line to said fluid container when an annulus pressure is greater than a predetermined, pressure setting of said pressure regulator. 34. The system of claim 32, wherein said tubular heaving within said riser manages pressure in the wellbore during a cementing operation. 35. A method for managing pressure from a floating rig heaving relative to an ocean floor, comprising the steps of: communicating a riser with a wellbore, wherein said riser configured to extend from the ocean floor and having a telescoping joint;moving said telescoping joint between an extended position and a retracted position;moving a tubular having a drill bit in said riser to form an annulus between said tubular and said riser;sealing said annulus above said telescoping joint with a rotating control device;spacing apart said drill hit from said wellbore;suspending said tubular from the floating rig so that said tubular heaves relative to said riser;positioning a first fluid container with said floating rig to receive as volume of fluid when said tubular heaving toward the wellbore and said telescoping joint is in said retracted position; andclosing a first valve to block said volume of fluid from said annulus to said first fluid container to manage pressure in the wellbore. 36. The method of claim 35, further comprising the step of: regulating pressure to maintain a predetermined pressure in said annulus, wherein said first valve is unblocked when an annulus pressure is greater than a predetermined pressure setting of a pressure regulator. 37. The system of claim 35, wherein said tubular heaving within said riser manages pressure in said wellbore during a cementing operation.
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