IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0844288
(2013-03-15)
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등록번호 |
US-9388679
(2016-07-12)
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발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
11 |
초록
▼
A gas separator connectable to a pump for flowing production fluid, the separator having a housing defining an internal cavity with an inlet end defining for the production fluid. A housing first pumping stage pressurizes the production fluid, and a first fluid flow restrictor downstream of the firs
A gas separator connectable to a pump for flowing production fluid, the separator having a housing defining an internal cavity with an inlet end defining for the production fluid. A housing first pumping stage pressurizes the production fluid, and a first fluid flow restrictor downstream of the first pumping stage limits the production fluid to a selected first flow rate. A first separation chamber in the housing downstream of the first fluid flow restrictor separates some gas from the production fluid, and a housing second pumping stage further pressurizes the production. A second fluid flow restrictor downstream of the second pumping stage limits the production fluid flow to a selected second flow rate, and a second separation chamber downstream to the second fluid flow restrictor effects further gas separation from the production fluid.
대표청구항
▼
1. A separator for separating gas from a production fluid produced from an oil well extending into a subterranean formation, the separator connectable to a pump motor for flowing the production fluid through the separator, the separator comprising: a housing sized to be insertable into the oil well
1. A separator for separating gas from a production fluid produced from an oil well extending into a subterranean formation, the separator connectable to a pump motor for flowing the production fluid through the separator, the separator comprising: a housing sized to be insertable into the oil well and defining an internal cavity, the housing having an inlet at one end defining a passage for entry of the production fluid into the cavity, the housing having an internal diameter of the same dimension throughout the length thereof;a first pumping stage in the housing pressurizing the production fluid from the inlet to flow in a direction substantially parallel to the longitudinal direction of the housing;a first fluid flow restrictor in the housing downstream of the first pumping stage, the first fluid flow restrictor defining a passage limiting the production fluid from the first pumping stage to a selected first flow rate;a first separation chamber in the housing downstream of the first fluid flow restrictor in which some of the gas separates from the production fluid, the separated gas directed to the oil well;a second pumping stage in the housing further pressurizing the production fluid from the first separation chamber;a second fluid flow restrictor in the housing downstream of the second pumping stage, the second fluid flow restrictor defining a passage limiting the production fluid flow from the second pumping stage to a selected second flow rate, wherein the second flow rate is less than the first flow rate of the first fluid flow restrictor;a second separation chamber in the housing downstream of the second fluid flow restrictor in which additional gas separates from the production fluid, the gas separated from the production fluid directed to the oil well; anda drive shaft extending the length of the housing and connected to and rotated by the pump motor;wherein the first fluid flow restrictor comprises:an extension cylinder having an internal chamber; anda support member disposed in the internal chamber and having a central block defining a bore through which the drive shaft extends, a plurality of stanchions extending from the central block, the stanchions having longitudinally extending planar surfaces against which the turbulent flow of the production fluid impinges and is straightened;wherein the central block has an angled surface whereby debris of the straightened fluid flow impacts the angled surface, the impacted debris directed in an angular path away from the angled surface. 2. A separator for separating gas from a production fluid produced from an oil well extending into a subterranean formation, the separator connectable to a pump motor for flowing the production fluid through the separator, the separator comprising: a housing sized to be insertable into the oil well and defining an internal cavity, the housing having an inlet at one end defining a passage for entry of the production fluid into the cavity, the housing having an internal diameter of the same dimension throughout the length thereof;a first pumping stage in the housing pressurizing the production fluid from the inlet to flow in a direction substantially parallel to the longitudinal direction of the housing;a first fluid flow restrictor in the housing downstream of the first pumping stage, the first fluid flow restrictor defining a passage limiting the production fluid from the first pumping stage to a selected first flow rate;a first separation chamber in the housing downstream of the first fluid flow restrictor in which some of the gas separates from the production fluid, the separated gas directed to the oil well;a second pumping stage in the housing further pressurizing the production fluid from the first separation chamber;a second fluid flow restrictor in the housing downstream of the second pumping stage, the second fluid flow restrictor defining a passage limiting the production fluid flow from the second pumping stage to a selected second flow rate, wherein the second flow rate is less than the first flow rate of the first fluid flow restrictor; anda second separation chamber in the housing downstream of the second fluid flow restrictor in which additional gas separates from the production fluid, the gas separated from the production fluid directed to the oil well;wherein the first fluid flow restrictor comprises:an extension cylinder having an internal chamber;a support member disposed in the internal chamber supporting the extension cylinder and having a central block defining a bore through which the drive shaft extends; anda plurality of stanchions extending from the central block, the stanchions defining longitudinally extending planar surfaces against which the turbulent fluid flow of the production fluid impinges and is straightened. 3. A separator for separating gas from a production fluid produced in an oil well bore extending into a subterranean formation, the separator connectable to a pump motor for flowing the production fluid through the separator, the separator comprising: a housing having an internal cavity and having an inlet port for entry of the production fluid in to the cavity;a rotatable drive shaft extending the length of the separator connected to the pump motor;a first pumping stage pressurizing the production fluid;a first fluid flow restrictor downstream of the first pumping stage, the first fluid flow restrictor limiting the production fluid from the first pumping stage to a selected first flow rate;a first separation chamber downstream of the first fluid flow restrictor and separating some of the gas from the production fluid, the separated gas discharged to the oil well bore, the first separation chamber having a first vortex generator mounted to the drive shaft, the generator having a first plurality of paddles, each paddle having an angled distal end that upon rotation of the drive shaft impacts particulate debris so that the debris is diverted to an angular direction different to the direction imparted by the other part of the paddle;a second pumping stage further pressurizing the production fluid from the first separation chamber;a second fluid flow restrictor downstream of the second pumping stage limiting the production fluid flow from the second pumping stage to a selected second flow rate, the second flow rate less than the first flow rate of the production fluid; anda second separation chamber downstream of the second fluid flow restrictor and in which additional gas separates from the production fluid, the separated gas discharged to the oil well bore. 4. The separator of claim 3 wherein the second separation chamber comprises a second vortex generator mounted to the drive shaft, the generator having a second plurality of paddles, each paddle having an angled distal end that upon rotation of the drive shaft impacts particulate debris so that the debris is diverted to an angular direction different to the direction imparted by the other part of the paddle. 5. The separator of claim 3 wherein the first fluid flow restrictor comprises: an extension cylinder having an internal chamber;a support member disposed in the internal chamber and having a central block defining a bore through which the drive shaft extends, a plurality of stanchions extending from the central block, the stanchions having longitudinally extending planar surfaces against which the turbulent fluid flow of the production fluid impinges and is straightened. 6. The separator of claim 5 wherein the central block supports a bearing upon which the drive shaft is supported for rotation. 7. The separator of claim 6 wherein the central block has an angled surface whereby debris of the straightened fluid flow impacts the angled surface, the impacted debris directed in an angular path away from the angled surface.
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