IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0807372
(2004-03-24)
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등록번호 |
US-7702423
(2010-05-20)
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우선권정보 |
CA-2450994(2003-11-27) |
발명자
/ 주소 |
- Steiner, Adrian
- Grossman, Mike Fredric
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출원인 / 주소 |
- Weatherford Canada Partnership c/o Weatherford International Ltd.
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대리인 / 주소 |
Merek, Blackmon, & Vorhees, LLC
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인용정보 |
피인용 횟수 :
0 인용 특허 :
43 |
초록
▼
An apparatus to control the rate of flow of a stream of pressurized fluid through a conduit. The apparatus comprises a flow measurement device operatively connected to the conduit, a flow control device operatively connected to the conduit, and a controller operatively connected to the flow control
An apparatus to control the rate of flow of a stream of pressurized fluid through a conduit. The apparatus comprises a flow measurement device operatively connected to the conduit, a flow control device operatively connected to the conduit, and a controller operatively connected to the flow control device. The flow measurement device generates an output signal proportionate to the rate of flow of fluid therethrough. The flow control device includes an adjustable orifice wherein upon the opening of the orifice a portion of the stream of pressurized fluid is independently released from the conduit by the flow control device. The controller receives the output signal generated by the flow measurement device and causes the adjustable orifice in the flow control device to open or close as necessary to maintain the flow of pressurized fluid as measured by the flow measurement device within pre-determined limits.
대표청구항
▼
We claim: 1. An apparatus to control the rate of flow of pressurized fluid through a conduit connected to a discharge of a pump which draws fluid from a reservoir, the apparatus permitting the discharge of fluid from the conduit at a rate below the output rate of the pump, the apparatus comprising:
We claim: 1. An apparatus to control the rate of flow of pressurized fluid through a conduit connected to a discharge of a pump which draws fluid from a reservoir, the apparatus permitting the discharge of fluid from the conduit at a rate below the output rate of the pump, the apparatus comprising: (i) a flow measurement device operatively associated with said conduit and for generating an output signal proportionate to the rate of flow of fluid through said conduit; (ii) an adjustable flow control device operatively connected to said pump discharge downstream of the connection of said conduit to said pump discharge, said flow control device including an adjustable orifice wherein upon the opening of said orifice a portion of the fluid from said pump discharge is independently released and injected into a work stream of a wellbore, wherein said flow control device, together with the pump and reservoir, forming part of a continuous loop fluid circuit, said flow control device being adjustable to control the release of pressurized fluid from the continuous loop fluid circuit. 2. The apparatus as claimed in claim 1 including a controller operatively associated with said flow control device and for receiving an output signal generated by said flow measurement device, said controller causing said adjustable orifice in said flow control device to open or close as necessary to maintain the flow of fluid through said conduit within desired limits. 3. An apparatus to control the rate of flow of pressurized fluid through a conduit connected to a pump that draws fluid from a reservoir, the apparatus permitting a discharge of fluid from said conduit at a rate below the output rate of the pump, the apparatus comprising: (i) a flow measurement device for generating an output signal proportionate to the rate of flow of said fluid there through, said flow measurement device being operatively connected to said conduit; (ii) an adjustable flow control device for permitting a portion of said pressurized fluid to be independently released from said conduit to maintain the flow of pressurized fluid as measured by said flow measurement device within pre-determined limits, said flow control device being operatively connected to said conduit downstream of said flow measurement device wherein said portion of said stream of pressurized fluid independently released from said conduit by said flow control device is injected into a work stream of a wellbore and said flow control device, together with the pump and reservoir forming part of a continuous loop fluid circuit, said flow control device being adjustable to control the release of pressurized fluid from the continuous loop fluid circuit. 4. The apparatus as claimed in claim 3 including a visual indicator for responding to said output signal generated by said flow measurement device. 5. The apparatus as claimed in claim 4 wherein said visual indicator comprises a gauge for indicating the volumetric flow of fluid as measured by said flow measurement device. 6. The apparatus as claimed in claim 3 including a controller for receiving said output signal generated by said flow measurement device, said controller being operably connected to said flow control device, said flow control device including an adjustable orifice wherein said controller upon receiving said output signal generated by said flow measurement device causes said adjustable orifice in said flow control device to open or close as necessary to maintain the flow of pressurized fluid as measured by said flow measurement device within pre-determined limits. 7. The apparatus as claimed in claim 6 wherein said controller is a microprocessor control, said microprocessor control being programmable to adjust said flow control device to maintain the flow of fluid as measured by said flow measurement device within a pre-determined range. 8. The apparatus as claimed in claim 6 wherein said controller is a flow controller. 9. The apparatus as claimed in claim 3 wherein said flow measurement device includes a turbine in communication with said pressurized fluid passing through said conduit. 10. The apparatus as claimed in claim 3 wherein said flow measurement device includes a pressure sensor and said output signal comprises a pressure signal. 11. The apparatus as claimed in claim 3 wherein said flow measurement device includes a pitot tube. 12. The apparatus as claimed in claim 3 including a pilot pressure control tube having a first end in communication with said conduit and a second end in communication with said flow control device, said flow control device including an orifice adjustable in response to fluctuations in fluid pressure within said pilot pressure control tube whereby adjustments to the size of said orifice alters the volume of fluid released from said conduit by said flow control device to thereby maintain the flow of fluid as measured by said flow measurement device within pre-determined limits. 13. A method to control the rate of flow of pressurized fluid through a conduit connected to a pump that draws fluid from a reservoir, the method permitting a discharge of said fluid from said conduit at a rate below the output rate of the pump, the method comprising the steps of: (i) with a flow measurement device determining the rate of flow of fluid through a portion of said conduit and generating a signal proportionate to said fluid flow rate; and, (ii) comparing said generated signal to a pre-determined value and activating an adjustable flow control device operatively connected to said conduit, downstream of said portion of said conduit, to permit a portion of said pressurized fluid to be independently released from said conduit to maintain the flow of pressurized fluid as measured by said flow measurement device within pre-determined limits wherein said portion of said stream of pressurized fluid independently released from said conduit by said flow control device is injected into a work stream of a wellbore and said flow control device, together with the pump and reservoir, forming part of a continuous loop fluid circuit, said flow control device being adjustable to control the release of pressurized fluid from the continuous loop fluid circuit. 14. The method as claimed in claim 13 including the further step of directing said signal to a controller operatively connected to said adjustable flow control device, said controller upon receiving said signal causing said adjustable flow control device to open or close as necessary to maintain the flow of pressurized fluid as measured by said flow measurement device within said pre-determined limits. 15. The method as claimed in claim 14 wherein said controller is a flow controller. 16. An apparatus to control the rate of flow of a stream of pressurized fluid through a conduit connected to a pump that draws fluid from a reservoir, the apparatus comprising: (i) a flow measurement device for generating an output signal proportionate to the rate of flow of said fluid there through, said flow measurement device being operatively connected to said conduit; (ii) a flow control device operatively connected to said conduit downstream of said flow measurement device, said flow control device including an adjustable orifice wherein upon the opening of said orifice a portion of said stream of pressurized fluid is independently released from said conduit by said flow control device; and, (iii) a controller operatively connected to said flow control device for receiving said output signal generated by said flow measurement device and for causing said adjustable orifice in said flow control device to open or close as necessary to maintain the flow of pressurized fluid as measured by said flow measurement device within pre-determined limits wherein said portion of said stream of pressurized fluid independently released from said conduit by said flow control device is injected into a work stream of a wellbore and said flow control device, together with the pump and reservoir, forming part of a continuous loop fluid circuit, said flow control device being adjustable to control the release of pressurized fluid from the continuous loop fluid circuit. 17. The apparatus as claimed in claim 16 wherein said flow control device includes an automatically adjustable choke or valve. 18. The apparatus as claimed in claim 16 wherein said flow measurement device includes a turbine in communication with said stream of pressurized fluid. 19. The apparatus as claimed in claim 16 wherein said flow measurement device includes a pressure sensor and said output signal comprises a pressure signal. 20. The apparatus as claimed in claim 16 wherein said flow measurement device includes a pitot tube, the output of said pitot tube operatively connected to said controller. 21. The apparatus as claimed in claim 16 wherein said flow measurement device includes a pilot pressure tube, said pilot pressure tube having a first end in communication with said conduit and a second end in communication with said controller. 22. The apparatus as claimed in claim 16 wherein said controller is a microprocessor control, said microprocessor control being programmable to automatically adjust said orifice in said flow control device in accordance with fluctuations in said output signal received from said flow measurement device to maintain the flow of fluid as measured by said flow measurement device within a pre-determined range. 23. The apparatus as claimed in claim 16 wherein said controller is a flow controller. 24. A method of controlling the rate of flow of a stream of pressurized fluid through a conduit connected to a pump that draws fluid from a reservoir, the method comprising the steps of: (i) with a flow measuring device determining the rate of flow of fluid through a portion of said conduit and generating a signal proportionate to said fluid flow rate; (ii) directing said signal to a controller operatively connected to a flow control device, said flow control device operatively connected to said conduit downstream of said portion of said conduit and including an adjustable orifice wherein upon the opening of said orifice a portion of said stream of pressurized fluid is independently released from said conduit by said flow control device; and, (iii) with said controller, comparing said signal to a pre-determined value and activating said flow control device to open or close said adjustable orifice as necessary to maintain the flow of pressurized fluid as measured by said flow measurement device within pre-determined limits wherein said portion of said stream of pressurized fluid independently released from said conduit by said flow control device is injected into a work stream of a wellbore and said flow control device, together with the pump and reservoir, forming part of a continuous loop fluid circuit, said flow control device being adjustable to control the release of pressurized fluid from the continuous loop fluid circuit. 25. The method as claimed in claim 24 wherein said step of determining the rate of flow of said fluid through said portion of said conduit includes the utilization of a turbine placed in communication with said stream of pressurized fluid such that the rotation of said turbine results in the generation of said signal. 26. The method as claimed in claim 24 wherein said step of determining the rate of flow of said pressurized fluid through said portion of said conduit includes the measurement of the pressure of said fluid in said portion of said conduit and the generation of a proportionate pressure signal. 27. The method as claimed in claim 24 wherein said controller is a microprocessor control, said method further including a step of programming said microprocessor control to automatically adjust said orifice in said flow control device in accordance with fluctuations in said signal to maintain the flow of fluid as measured by said flow measurement device within a pre-determined range. 28. The apparatus as claimed in claim 24 wherein said controller is a flow controller. 29. An apparatus to control the rate of flow of a stream of pressurized fluid through a conduit connected to a pump that draws fluid from a reservoir, the apparatus comprising: (i) a flow measurement device for generating an output signal proportionate to the rate of flow of said fluid there through, said flow measurement device operatively associated with said conduit; (ii) a flow control device operatively associated with said conduit downstream of said flow measurement device, said flow control device including an adjustable orifice where upon the opening of said orifice a portion of said stream of pressurized fluid is independently released from said conduit by said flow control device, said flow control device is part of a continuous loop fluid circuit and is adjustable to control the release of pressurized fluid from the continuous loop fluid circuit; and, (iii) a controller operatively associated with said flow control device for receiving said output signal generated by said flow measurement device and for causing said adjustable orifice to open or close as necessary to maintain the flow of pressurized fluid as measured by said flow measurement device within pre-determined limits wherein said portion of said stream of pressurized fluid independently released from said conduit by said flow control device is injected into a work stream of a wellbore and said flow control device, together with the pump and reservoir, forming part of a continuous loop fluid circuit, said flow control device being adjustable to control the release of pressurized fluid from the continuous loop fluid circuit. 30. The apparatus as claimed in claim 29 wherein said controller is a flow controller. 31. A method of controlling the rate of flow of a stream of pressurized fluid through a conduit connected to a pump that draws fluid from a reservoir, the method comprising the steps of: (i) with a flow measuring device determining the rate of flow of fluid through a portion of said conduit and generating a signal proportionate to said fluid flow rate; (ii) directing said signal to a controller operatively associated with a flow control device, said flow control device operatively associated with said conduit downstream of said portion of said conduit and including an adjustable orifice where upon the opening of said orifice a portion of said stream of pressurized fluid is independently released from said conduit by said flow control device, said flow control device is part of a continuous loop fluid circuit and is adjustable to control release of pressurized fluid from the continuous loop fluid circuit; and, (iii) with said controller, comparing said signal to a pre-determined value and activating said flow control device to open or close said adjustable orifice as necessary to maintain the flow of pressurized fluid as measured by said flow measurement device within pre-determined limits wherein said portion of said stream of pressurized fluid independently released from said conduit by said flow control device is injected into a work stream of a wellbore and said flow control device, together with the pump and reservoir, forming part of a continuous loop fluid circuit, said flow control device being adjustable to control the release of pressurized fluid from the continuous loop fluid circuit. 32. The method as claimed in claim 31 wherein said controller is a flow controller.
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