Arrangement and method for monitoring of annulus volume
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E21B-017/01
E21B-047/003
E21B-047/00
E21B-041/00
G01M-003/28
E21B-034/00
출원번호
US-0399770
(2017-01-06)
등록번호
US-9803463
(2017-10-31)
우선권정보
NO-20140864 (2014-07-08)
발명자
/ 주소
Amundsen, Torbjørn
Wickmann, Carl Olav
Tvedt, Henrik
출원인 / 주소
SUBSEA AS
대리인 / 주소
Fagin, Richard A.
인용정보
피인용 횟수 :
0인용 특허 :
7
초록▼
The present description is related to integrity monitoring of an annulus volume in a pipe. More specifically, the present disclosure is related to an arrangement and a method for determination of annulus free volume of a pipe. The monitoring can as an example be performed by use of a logical unit wh
The present description is related to integrity monitoring of an annulus volume in a pipe. More specifically, the present disclosure is related to an arrangement and a method for determination of annulus free volume of a pipe. The monitoring can as an example be performed by use of a logical unit which controls the annulus testing by use of diffusion or gas feed, and also give input to calculation of the pipe's remaining lifetime. Further, the arrangement can as an example save and present results, allow for user specified settings and set off alarms it critical values are detected.
대표청구항▼
1. An arrangement for determination of an annulus free volume in a pipe, the arrangement comprising: a reference volume,at least one first valve connected to the annulus free volume in the pipe and the reference volume for depressurization of the annulus free volume in the pipe to the reference volu
1. An arrangement for determination of an annulus free volume in a pipe, the arrangement comprising: a reference volume,at least one first valve connected to the annulus free volume in the pipe and the reference volume for depressurization of the annulus free volume in the pipe to the reference volume,at least one second valve connected to the reference volume and at least one outlet for depressurization of the reference volume, andat least one first pressure instrument for pressure measurement of the annulus free volume in the pipe and at least one second pressure instrument for pressure measurement in the reference volume, whereinthe at least one first and second valve and the at least one first and second pressure instrument are arranged to read off and control pressurization and depressurization, and where the pressure measurement in the reference volume and in the annulus free volume in the pipe prior to and after depressurization, together with a dimension of the reference volume are used for calculation of the annulus free volume in the pipe. 2. Arrangement according to claim 1, where the calculation of the annulus free volume is performed by the following equations: V=Vout(Pa1-Pa2)Vat=∑i=1i=nVref(Pref1i-Pref2i)where: V is annulus free volume,Vout is accumulated volume during depressurization,Vref is reference volume,Pa1 is annulus pressure prior to the number of depressurizations (i=1)Pa2 is annulus pressure after the number of depressurizations (i=n)Pref1 is pressure in the reference volume prior to depressurization number i to the outlet,Pref2 is pressure in the reference volume after depressurization number i to the outlet, andn is the number of depressurization cycles. 3. Arrangement according to claim 1, where the arrangement further comprises: at least one logical unit for read off and control of the at least one first and second valve and the at least one first and second pressure instrument for pressurization and depressurization, where the logical unit further is arranged to use the pressure measurements in the reference volume and the annulus free volume in the pipe prior to and after depressurization and the dimension of the reference volume for the calculation of the annulus free volume in the pipe. 4. Arrangement according to claim 1, where the arrangement further comprises: at least one gas container for gas feed for pressurization,a pressure regulator connected to the gas container for pressure regulation of the gas feed, andat least one third valve to open and close for pressurization of the annulus free volume in the pipe. 5. Arrangement according to claim 4, where the arrangement further comprises: a third pressure instrument connected to the gas container to measure the pressure in the gas container,at least one fourth pressure instrument connected to the pressure regulator to indicate regulator settings, where the third pressure instrument and the at least one forth pressure instrument are further connected to the logical unit (408) for control and read off. 6. Arrangement according to claim 3, where the arrangement comprises: at least one first pressure relief valve for regulation of gas from the gas container. 7. Arrangement according to claim 1, where the arrangement comprises: at least one second pressure relief valve for regulation of gas from the annulus free volume in the pipe to the at least one outlet. 8. Arrangement according to claim 4 where the gas feed is from the at least one gas container or an internal gas container. 9. A method for determination of an annulus free volume in a pipe, characterized by acts comprising: establishing a pressure difference between the annulus free volume in the pipe and a reference volume,performing a number of depressurizations from the annulus free volume in the pipe to the reference volume, where the number of depressurizations is one or more,measuring pressure in the reference volume prior to and after each of the number of depressurizations,measuring pressure in the annulus free volume in the pipe prior to and after the total number of depressurizations, andcalculating the annulus free volume in the pipe based on the measured pressure in the annulus free volume in the pipe prior to and after the total number of depressurizations, the measured pressure in the reference volume prior to and after each of the number of depressurizations and a dimension of the reference volume. 10. Method according to claim 9, further comprising: establishing a predefined pressure in the reference volume prior to each of the number of depressurizations, andmeasuring pressure in the reference volume after each of the number of depressurizations. 11. Method according to claim 9, wherein the establishing pressure difference comprises gas diffusion to the annulus free volume in the pipe for pressurization. 12. Method according to claim 9, wherein the establishing pressure difference comprise gas feed from a gas container to the annulus free volume in the pipe for pressurization. 13. Method according to claim 9, wherein the establishing pressure difference comprises reduction of the pressure in the reference volume. 14. Method according to claim 9, further comprising: after establishing of the pressure difference, determining whether the measured pressure in the annulus volume has reached a high pressure limit, followed by maintaining the pressure at the high pressure limit for a selected period of time, anddetermining whether the measured pressure in the annulus volume after the selected period of time is within a predetermined accuracy level of the high pressure limit followed by further pressurization if the measured pressure is not within the predetermined accuracy of the high pressure limit, and further comprising depressurization from the annulus volume if the pressure is stabilized. 15. Method according to claim 9, further comprising: after depressurization, determining whether the measured pressure in the annulus free volume in the pipe has reached a low pressure limit, and maintaining the pressure in the annulus free volume in the pipe for a selected period of time when the measured pressure in the annulus free volume in the pipe has reached the low pressure limit,after the selected period of time, determining whether the measured pressure in the annulus free volume in the pipe is within a predetermined accuracy of the low pressure limit, followed by further depressurization of the annulus free volume in the pipe if the measured pressure in the annulus free volume in the pipe is not within the predetermined accuracy, and followed by calculation of the annulus free volume in the pipe if the pressure is stabilized. 16. Method according to claim 9, where the calculation of the annulus free volume is performed by use of the following equations: V=Vout(Pa1-Pa2)Vat=∑i=1i=nVref(Pref1i-Pref2i)Where: V is annulus free volume,Vout is accumulated volume during depressurization,Vref is reference volume,Pa1 is annulus pressure prior to the number of depressurizations (i=1)Pa2 is annulus pressure after the number of depressurizations (i=n)Pref1 is pressure in the reference volume prior to depressurization number i to the outlet,Pref2 is pressure in the reference volume after depressurization number i to the outlet, andn is the number of depressurization cycles. 17. Method according to claim 9, wherein an accumulated volume calculation is performed by at least one logical unit based on data received from emptying the reference volume through at least one second valve at least one time until the low pressure limit in the annulus free volume of the pipe is reached. 18. Method according to claim 9, wherein establishing the pressure difference comprises pressurization and is performed by either (i) opening at least one first valve in pressure communication with the annulus free volume in the pipe and closing at least one second valve in pressure communication with the reference volume for use of diffused gas, or (ii) adjusting a pressure regulator, opening of a third valve in pressure communication with a gas container and the annulus free volume in the pipe and closing the at least one second valve in pressure communication with the reference volume if the pressure difference is established using gas feed from the gas container. 19. Method according to claim 14, wherein the selected time period is zero for use of diffusion, or the pressure is maintained for a predetermined period of time until the pressure is stabilized if gas feed from a gas container is used. 20. Method according to claim 14, wherein when it is determined that the pressure is stabilized at a predefined high pressure limit, performing a pressure measurement by use of at least one second pressure instrument if diffused gas is utilized, or by closing a third valve and measuring pressure by use of at least one second pressure instrument if gas feed is utilized. 21. Method according to claim 14, wherein emptying of the reference volume is performed at least one time by closing at least one first valve in pressure communication with the annulus free volume in the pipe and opening at least one second in pressure communication with the reference volume until the low pressure limit in the annulus free volume in the pipe is reached. 22. Method according to claim 15, wherein when the pressure in the annulus free volume in the pipe is stabilized at the low pressure limit, performing pressure measurement by use of pressure instruments. 23. Method according to claim 19, comprising at least one of the following actions: calculations corrected for diffusion,calculations corrected for temperature differences, andcontrol of one or more components of the arrangement according to one of the claims 1-8. 24. Method according to claim 9, where the following actions are performed by a logical unit: controlling at least one first valve for pressurization and depressurization of the annulus free volume in the pipe,reading off at least one second pressure instrument for pressure measurement of the reference volume,controlling at least one second valve for pressurization and depressurization of the reference volume, andreading off at least one first pressure instrument for pressure measurement of the annulus volume in the pipe. 25. Method according to claim 9, wherein the following actions are performed by a logical unit: reading at least one third pressure instrument for pressure measurement of at least one gas container,controlling at least one pressure regulator for regulation of pressure of the gas feed from the gas container,reading at least one fourth pressure instrument to check the settings of the pressure regulator, andcontrolling at least one third valve for pressurization and depressurization of at least one gas container. 26. Method according to claim 9, further comprising at least one of the following actions: comparing calculated annulus free volume in the pipe to one or more previously calculated annulus free volumes in the pipe for integrity evaluation,comparing accumulated volume per time to a normal condition,comparing accumulated volume per time to an historical trend,using calculated annulus free volume in the pipe for calculation of the pipe's remaining lifetime,saving and presenting measured and calculated values, andtriggering one or more alarms if critical values are determined. 27. Method according to claim 9, wherein the method is performed continuously or at regular time intervals.
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이 특허에 인용된 특허 (7)
Taylor, Jack Curtis; Roach, Max Jerry, Annular fluid manipulation in lined tubular systems.
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Roach Max J. (P.O. Box 966 Longview TX 75606) Whitehead John A. (P.O. Box 966 Longview TX 75606), Pipeline monitoring and leak containment system and apparatus therefor.
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