Integrated pump and compressor and method of producing multiphase well fluid downhole and at surface
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E21B-043/12
F04B-047/06
E21B-043/38
F04B-023/04
F04B-047/02
출원번호
US-0313117
(2014-06-24)
등록번호
US-9915134
(2018-03-13)
발명자
/ 주소
Xiao, Jinjiang
Shepler, Randall Alan
출원인 / 주소
Saudi Arabian Oil Company
대리인 / 주소
Fish & Richardson P.C.
인용정보
피인용 횟수 :
0인용 특허 :
7
초록▼
An integrated system is disclosed to handle production of multiphase fluid consisting of oil, gas and water. The production stream is first separated into two streams: a liquid dominated stream (GVF5% for example) and a gas dominated stream (GVF95% for example). The separation can be done through sh
An integrated system is disclosed to handle production of multiphase fluid consisting of oil, gas and water. The production stream is first separated into two streams: a liquid dominated stream (GVF5% for example) and a gas dominated stream (GVF95% for example). The separation can be done through shrouds, cylindrical cyclonic, gravity, in-line or the like separation techniques. The two streams are then routed separately to pumps which pump dissimilar fluids, such as a liquid pump and a gas compressor, and subsequently recombined. Both pumps are driven by a single motor shaft which includes an internal passageway associated with one of the pumps for reception of the fluid from the other pump, thereby providing better cooling and greater overall efficiency of all systems associated therewith. A method for providing artificial lift or pressure boosting of multiphase fluid is also disclosed.
대표청구항▼
1. A system for providing artificial lift in multiphase fluid, which comprises: a) a separator configured to separate the multiphase fluids into at least two separate single phase dominant streams comprising a first stream and a second stream;b) a first pumping device configured to receive and pump
1. A system for providing artificial lift in multiphase fluid, which comprises: a) a separator configured to separate the multiphase fluids into at least two separate single phase dominant streams comprising a first stream and a second stream;b) a first pumping device configured to receive and pump the first stream;c) a second pumping device configured to receive and pump the second stream;d) a power source configured to simultaneously operate said first and second pumping devices, said power source having a common drive shaft having an internal passageway located within said second pumping device, said internal passageway configured to receive the single phase dominant stream discharged by the first pumping device and to pass the received single phase dominant stream discharged by the first pumping device through the second pumping device prior to discharge of said separate single phase dominant streams from said first and second pumping devices. 2. The system according to claim 1, further comprising an outlet configured to receive and combine said first and second single phase dominant streams discharged from said first and second pumping devices respectively. 3. The system according to claim 2 wherein said multiphase fluid is comprised of a liquid phase and a gas phase, and said first pumping device is a liquid pump, and said second pumping device is a gas compressor. 4. The system according to claim 3, wherein said second pumping device is downstream of said first pumping device. 5. A method for providing artificial lift in multiphase fluid, comprising: directing a stream of the multiphase fluid to a device for separating the stream into at least two separate single phase dominant streams, the single phase dominant streams comprising a first stream and a second stream;directing the first stream to a first pumping device for pumping the first stream therethrough;directing the second stream to a second pumping device for pumping the second stream therethrough, said first and second pumping devices being operated by a power device providing a common drive shaft for said first and second pumping devices, said common drive shaft having an internal passageway located within said second pumping device, said internal passageway configured to receive the stream discharged by the first pumping device for passage therethrough;directing the stream discharged by the first pumping device to said internal passageway of said drive shaft; andrespectively discharging said first and second streams from said first and second pumping devices. 6. The method according to claim 5, comprising the further step of combining said first and second streams discharged by said first and second pumping devices. 7. The method according to claim 6, wherein said multiphase fluid is comprised at least of a liquid phase and a gas phase, and said first pumping device is a liquid pump, and said second pumping device is a gas compressor. 8. The method according to claim 4, wherein said multiphase fluid is comprised at least of a liquid phase and a gas phase, and said first pumping device is a gas compressor and said second pumping device is a liquid pump. 9. A method for providing artificial lift in multiphase fluid, comprising the steps: separating said multiphase fluid into a first multiphase stream being liquid dominant and a second multiphase stream being gas dominant,directing said liquid dominant stream to a liquid pumping device for pumping said liquid dominant stream therethrough,directing said gas dominant stream to a compressor pumping device for compressing and pumping said gas dominant stream therethrough, said first and second pumping devices being driven by a power device having a common drive shaft for both said first and second pumping devices, and said common drive shaft having an internal passageway extending axially through said one of said liquid or compressor pumping devices,directing said stream discharged by the other of said liquid or compressor pumping devices to said internal passageway of said drive shaft associated with said one of said liquid or compressor pumping devices, andsubsequently combining said first and second streams discharged from said liquid and compressor pumping devices respectively. 10. The method according to claim 9 where said internal passageway extends axially through the portion of the drive shaft extending through said liquid pumping device, said internal passageway receiving therethrough gas dominant stream from said compressor pumping device. 11. The method according to claim 9 where said internal passageway extends axially through the portion of the drive shaft extending through said compressor pumping device, receiving therethrough liquid dominant stream from said liquid pumping device. 12. A system for providing artificial lift in a liquid-gas multiphase fluid, comprising: a) a separator dividing said multiphase fluid into a gas phase dominant stream and a separate liquid phase dominant stream,b) a first pumping device for receiving and pumping therethrough said liquid phase dominant stream,c) a compressing and pumping device for receiving and pumping therethrough said gas phase dominant stream,d) a power source providing a common drive shaft for simultaneously driving both said pumping devices, said drive shaft having a first hollow portion extending axially through one of said pumping devices and a second solid portion extending axially through the other of said pumping devices, said first hollow portion configured to receive a corresponding one of said liquid phase dominant stream or gas phase dominant stream discharged by the one of said pumping devices prior to discharge of the corresponding other of said liquid phase dominant stream or gas phase dominant stream from the other of said pumping devices. 13. The system according to claim 12 further comprising an outlet configured to receive and combine said first and second single phase dominant streams discharged from said two pumping devices respectively.
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