Pulsation dampening system for a reciprocating pump
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F04B-011/00
F04B-017/04
출원번호
US-0971757
(2010-12-17)
등록번호
US-9121397
(2015-09-01)
발명자
/ 주소
Marica, Adrian
출원인 / 주소
NATIONAL OILWELL VARCO, L.P.
대리인 / 주소
Conley Rose, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
45
초록▼
A pressure pulsation dampening system for a pump that pressurizes a working fluid. In some embodiments, the dampening system includes a hydraulic cylinder, a valve, and a controller. The hydraulic cylinder has a piston that is movably disposed within a housing and divides the housing into a working
A pressure pulsation dampening system for a pump that pressurizes a working fluid. In some embodiments, the dampening system includes a hydraulic cylinder, a valve, and a controller. The hydraulic cylinder has a piston that is movably disposed within a housing and divides the housing into a working fluid chamber and a hydraulic fluid chamber. An outlet of the pump is in fluid communication with the working fluid chamber, and the valve is in fluid communication with the hydraulic fluid chamber. The controller is operable to actuate the valve to a first configuration, wherein pressurized hydraulic fluid is supplied to the hydraulic fluid chamber, and to a second configuration, wherein hydraulic fluid is exhausted from the hydraulic fluid chamber. The piston is movable under fluid pressure, whereby working fluid is relieved from the outlet to the working fluid chamber or supplied to the outlet from the working fluid chamber.
대표청구항▼
1. A pressure pulsation dampening system for a reciprocating pump that pressurizes a working fluid delivered from a working fluid source, the pressure pulsation dampening system comprising: a hydraulic cylinder having a piston movably disposed within a housing and dividing the housing into a working
1. A pressure pulsation dampening system for a reciprocating pump that pressurizes a working fluid delivered from a working fluid source, the pressure pulsation dampening system comprising: a hydraulic cylinder having a piston movably disposed within a housing and dividing the housing into a working fluid chamber and a hydraulic fluid chamber, wherein the working fluid chamber is in fluid communication with an outlet of the reciprocating pump;a valve in fluid communication with the hydraulic fluid chamber, the valve actuatable to a first configuration, wherein pressurized hydraulic fluid is supplied to the hydraulic fluid chamber from a hydraulic fluid reservoir that is separate from the working fluid source, and to a second configuration, wherein hydraulic fluid is relieved from the hydraulic fluid chamber; anda controller configured to actuate the valve to the first configuration in response to a pressure decrease at the outlet and to the second configuration in response to a pressure increase at the outlet;wherein the piston is movable relative to the housing under pressure from working fluid in the working fluid chamber and hydraulic fluid in the hydraulic fluid chamber, whereby working fluid is relieved from the outlet to the working fluid chamber and supplied to the outlet from the working fluid chamber. 2. The pressure pulsation dampening system of claim 1, wherein the pressure of the working fluid at the outlet is a discharge pressure of the reciprocating pump, the discharge pressure being adjustable by the flow of working fluid between the outlet and the working fluid chamber. 3. The pressure pulsation dampening system of claim 2, wherein the controller is configured to actuate the valve such that the discharge pressure is maintained within a preselected bandwidth. 4. The pressure pulsation dampening system of claim 1, further comprising a dampener coupled to the piston, the dampener configured to apply a resistive force that resists movement of the piston when hydraulic fluid is supplied and relieved from the hydraulic fluid chamber. 5. The pressure pulsation dampening system of claim 4, wherein the controller is configured to control the resistive force applied by the dampener to the piston. 6. The pressure pulsation dampening system of claim 1, further comprising a transducer coupled between the hydraulic cylinder and the controller, the transducer delivering a signal to the controller indicative of the position of the piston. 7. The pressure pulsation dampening system of claim 6, wherein the controller is configured to actuate the valve as a function of the piston position. 8. A reciprocating pump system comprising: a reciprocating pump with a piston-cylinder assembly, the piston-cylinder assembly operable to pressurize a working fluid and having an outlet; anda pressure pulsation dampening system comprising: a hydraulic cylinder having a piston movably disposed within a housing and dividing the housing into a working fluid chamber and a hydraulic fluid chamber, wherein the working fluid chamber is in fluid communication with the outlet;a valve in fluid communication with the hydraulic fluid chamber, the valve actuatable to a first configuration, wherein pressurized hydraulic fluid is supplied to the hydraulic fluid chamber, and to a second configuration, wherein hydraulic fluid is relieved from the hydraulic fluid chamber, and wherein fluid communication between the outlet and the hydraulic fluid chamber is restricted when the valve is in the first configuration and the second configuration; anda control unit configured to actuate the value to the first configuration in response to a pressure decrease at the outlet and to the second configuration in response to a pressure increase at the outlet;wherein the piston is movable relative to the housing under pressure from working fluid in the working fluid chamber and hydraulic fluid in the hydraulic fluid chamber, whereby working fluid is relieved from the outlet to the working fluid chamber and supplied to the outlet from the working fluid chamber. 9. The reciprocating pump system of claim 8, wherein the pressure of the working fluid at the outlet is a discharge pressure of the piston-cylinder assembly at the outlet, the discharge pressure being adjustable by the flow of working fluid between the outlet and the working fluid chamber. 10. The reciprocating pump system of claim 8, further comprising a transducer coupled between the hydraulic cylinder and the control unit, the transducer delivering a signal to the control unit indicative of the position of the piston. 11. The reciprocating pump system of claim 10, wherein the control unit is configured to actuate the valve as a function of the piston position. 12. The reciprocating pump system of claim 8, further comprising a dampener coupled to the piston, the dampener configured to apply a resistive force that resists movement of the piston when hydraulic fluid is supplied and relieved from the hydraulic fluid chamber. 13. The reciprocating pump system of claim 12, wherein the control unit is configured to control the resistive force applied by the dampener to the piston. 14. The reciprocating pump system of claim 8, wherein the reciprocating pump further comprises a channel in fluid communication with the working fluid chamber and the outlet of the piston-cylinder assembly. 15. The reciprocating pump system of claim 14, wherein the reciprocating pump further comprises an internal throughbore in fluid communication with the outlet and wherein the channel has an internal port that is tangent to a surface bounding the internal throughbore. 16. A method for dampening pressure pulsations in a working fluid discharged by a pump, the method comprising: disposing a piston within a housing, the piston dividing the housing into a first chamber and a second chamber and being movable relative to the housing;providing fluid communication between an outlet of the pump and the first chamber;pressurizing the second chamber with a hydraulic fluid to a predetermined level;detecting a pressure decrease in the working fluid at the outlet;increasing the quantity of hydraulic fluid in the second chamber to thereby move the piston to decrease the volume of the first chamber in response to the detected pressure decrease; andincreasing the pressure of the working fluid in the first chamber to the predetermined level as a result of the said increasing the quantity of hydraulic fluid in the second chamber. 17. The method of claim 16, further comprising: detecting a pressure increase at the outlet; anddecreasing the quantity of hydraulic fluid in the second chamber to thereby move the piston to increase the volume in the first chamber in response to the detected pressure increase. 18. The method of claim 17, further comprising: decreasing the pressure of the working fluid in the first chamber to the predetermined level as a result of the said decreasing the quantity of hydraulic fluid in the second chamber. 19. The method of claim 18, wherein the method further comprises resisting movement of the piston when increasing and decreasing the quantity of hydraulic fluid in the second chamber.
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