Thermal insulation for pipes in a drill pipe riser, tubular segment and thermal insulation system for joint couplings
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E21B-007/12
E21B-017/01
E21B-017/02
E21B-036/00
출원번호
US-0423445
(2012-03-19)
등록번호
US-9140077
(2015-09-22)
우선권정보
BR-1101090 (2011-03-21)
발명자
/ 주소
Cupolillo, Gilmar Souza
Vieira, Renato Cesar Martins
출원인 / 주소
IPB-GR Indústria Mecânica Ltda.
대리인 / 주소
Winstead PC
인용정보
피인용 횟수 :
1인용 특허 :
7
초록▼
A thermal insulation of pipes of a drill pipe riser, the novelty consisting basically in the fact that the thermal insulation comprises several layers around the pipe and between the first layer and the pipe, and between two adjacent layers, there are spaces where sea water penetrates. A thermal ins
A thermal insulation of pipes of a drill pipe riser, the novelty consisting basically in the fact that the thermal insulation comprises several layers around the pipe and between the first layer and the pipe, and between two adjacent layers, there are spaces where sea water penetrates. A thermal insulation system of joint couplings of pipes for a drill pipe riser comprising a tubular segment that circumferentially surrounds the region of the joint coupling and, so that between the tubular segment and the pipes is formed a space where sea water penetrates.
대표청구항▼
1. A system for thermal insulation of pipes of a drill pipe riser for subsea petroleum production, the system comprising: a layer of thermal insulation material applied substantially or completely around an entire circumference of a drill pipe riser; andan annular space defined between the circumfer
1. A system for thermal insulation of pipes of a drill pipe riser for subsea petroleum production, the system comprising: a layer of thermal insulation material applied substantially or completely around an entire circumference of a drill pipe riser; andan annular space defined between the circumference of the drill pipe riser and the layer, whereby in use sea water penetrates into the annular space and wherein the sea water present in the annular space facilitates insulation of the drill pipe riser. 2. The system of claim 1, wherein the layer of thermal insulation material comprises a longitudinal gap formed through an entire thickness of the layer and along an entire length of the layer of thermal insulation material. 3. The system of claim 1, wherein the layer of thermal insulation material extends around the entire circumference of the drill pipe riser except for a single longitudinal gap extending an entire length of the layer and an entire thickness of the layer. 4. The system of claim 1, wherein the layer of thermal insulation material extends around the entire circumference of the drill piper riser. 5. The system of claim 1, wherein the layer of thermal insulation material extends around the entire circumference of the drill piper riser and comprises a longitudinal groove extending an entire length of the layer and partially through a thickness of the layer, the longitudinal groove open to the annular space between the layer and the drill pipe riser. 6. A system for thermal insulation of pipes of a drill pipe riser for subsea petroleum production, the system comprising: an inner layer of thermal insulation material applied substantially or completely around an entire circumference of a pipe;an inner annular space formed between the inner layer and the circumference of the pipe;a second layer of thermal insulation material disposed about the entire circumference of the inner layer and the pipe; anda second annular space formed between the inner layer and the second layer, whereby in use water penetrates into the inner annular space and the second annular space and facilitates insulation of the pipe. 7. The system of claim 6, wherein the inner annular space and the second annular space communicate with each other. 8. The system of claim 6, wherein the inner layer extends around the entire circumference of the pipe. 9. The system of claim 2, wherein the inner layer extends around the entire circumference of the pipe and comprises a longitudinal groove extending an entire length of the inner layer and partially through a thickness of the inner layer, the longitudinal groove open to the inner annular space. 10. The system of claim 6, wherein the inner layer extends around the entire circumference of the pipe except for a single longitudinal gap extending an entire length of the inner layer and an entire thickness of the inner layer between the inner annular space and the second annular space. 11. A thermal insulation system for joint couplings of a drill pipe riser for subsea petroleum production, comprising: a first thermal insulation disposed about a first pipe;a second thermal insulation disposed about a second pipe, the first and second pipes connected at a joint coupling;a tubular segment that circumferentially envelops a region of the joint coupling of a first pipe with a second pipe, and extends, beyond ends of the first and the second thermal insulation; anda space between the tubular segment and the first and second pipes, whereby in use sea water penetrates into the space. 12. The thermal insulation system according to claim 11, comprising: an upper sleeve and a lower sleeve attached respectively to the first pipe and the second pipe; anda clearance formed between an internal surface of the tubular segment and the upper and lower sleeves, whereby sea water penetrates into the space through the clearance. 13. The thermal insulation system according to claim 11, further comprising a course stop to keep the tubular segment in position about the joint coupling, wherein the course stop comprises one of: a dead stop that is part of the lower sleeve;a disk attached to the second pipe, wherein an edge of the disk acts as a dead stop in order to limit displacement of the tubular segment; anda bolt that is screwable in a wall of the tubular segment and acts against one of the first and the second thermal insulation. 14. The thermal insulation system according to claim 11, further comprising a clearance between an inner surface of the tubular segment and the first pipe and the second pipe, whereby sea water penetrates into the space through the clearance. 15. The thermal insulation system according to claim 11, further comprising: a clearance between an inner surface of the tubular segment and the first pipe and the second pipe, whereby sea water penetrates into the space through the clearance; anda sleeve positioned in the clearance whereby the sleeve restricts the flow of the sea water into and out of the space. 16. The thermal insulation system according to claim 11, wherein the first thermal insulation comprises an inner layer of thermal insulation material disposed substantially or completely around the entire circumference of the first pipe to form an inner annular space between the circumference of the first pipe and the inner layer whereby the sea water penetrates into the inner annular space from the space about the joint coupling. 17. The thermal insulation system according to claim 11, wherein the inner layer extends around the entire circumference of the pipe and comprises a longitudinal groove extending an entire length of the inner layer and partially through a thickness of the inner layer, the longitudinal groove open to the inner annular space; or the inner layer extends around the entire circumference of the pipe except for a single longitudinal gap extending the entire length of the inner layer and the entire thickness of the inner layer between the inner annular space and the second annular space. 18. The thermal insulation system according to claim 17, wherein the first thermal insulation comprises a second layer of thermal insulation material disposed about the entire circumference of the inner layer and the pipe; and a second annular space formed between the inner layer and the second layer, whereby in use sea water penetrates into the inner annular space and the second annular space and facilitates insulation of the inner pipe. 19. The thermal insulation system according to claim 18, further comprising: a clearance between an inner surface of the tubular segment and the first pipe and the second pipe, whereby sea water penetrates into the space through the clearance; anda sleeve positioned in the clearance whereby the sleeve restricts the flow of the sea water into and out of the space.
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이 특허에 인용된 특허 (7)
Bass, Ronald Marshall; Newberry, Byron Lee; Langner, Carl Gottlieb, Annulus for electrically heated pipe-in-pipe subsea pipeline.
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