Device and method for detecting a surge in a compressor and relocating a surge margin
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F04D-027/02
F04D-027/00
출원번호
US-0217608
(2011-08-25)
등록번호
US-9091274
(2015-07-28)
우선권정보
IT-CO2010A0048 (2010-08-31)
발명자
/ 주소
Galeotti, Daniele
출원인 / 주소
Nuovo Pignone S.P.A.
대리인 / 주소
GE Global Patent Operation
인용정보
피인용 횟수 :
1인용 특허 :
8
초록▼
Methods, systems and controllers for detecting a surge event based on pattern of evolution of a discharge pressure of a compressor, and for relocating a surge margin relative to a surge parameter value recorded at the beginning of the surge event are provided. A controller has an interface configure
Methods, systems and controllers for detecting a surge event based on pattern of evolution of a discharge pressure of a compressor, and for relocating a surge margin relative to a surge parameter value recorded at the beginning of the surge event are provided. A controller has an interface configured to receive values of the discharge pressure from a compressor, and to output signals and alarms, a surge event detection unit connected to the interface and configured to detect a surge event in the compressor based on evolutions of the discharge pressure, a rate of the discharge pressure and a rate change of the rate, and a surge margin relocation unit connected to the surge event detection unit and the interface, and configured to relocate a surge margin relative to a surge parameter value recorded at a beginning of the surge event.
대표청구항▼
1. A fluid transport system, comprising: a compressor configured to increase a pressure of a fluid flow passing therethrough;an anti-surge flow recirculation loop configured to selectively redirect, using an anti-surge valve, a part of the fluid flow passing through the compressor from a discharge o
1. A fluid transport system, comprising: a compressor configured to increase a pressure of a fluid flow passing therethrough;an anti-surge flow recirculation loop configured to selectively redirect, using an anti-surge valve, a part of the fluid flow passing through the compressor from a discharge output of the compressor to an input of the compressor; anda controller connected to the anti-surge flow recirculation loop and the compressor, and configured to:(i) detect a surge event by detecting a beginning of the surge event based on decreasing discharge pressure, the rate of the discharge pressure, and the rate of change of the rate of the discharge pressure in the compressor using a sensor;(ii) monitor the discharge pressure until the discharge pressure decreases below an expected low discharge pressure value; and then(iii) after the discharge pressure has decreased below the expected low discharge pressure value, detect an end of the surge event when the rate of the discharge pressure becomes positive; and(iv) relocate a surge margin characterizing an operation of the fluid transport system; (v) issue a relocate alarm, when the surge margin is changed. 2. The fluid transport system of claim 1, wherein the surge parameter is related to the fluid flow through the compressor. 3. The fluid transport system of claim 1, wherein the controller is configured to detect the surge event based on the evolution of the discharge pressure of the fluid flow exiting the compressor, and of a rate of the discharge pressure. 4. The fluid transport system of claim 1, wherein the controller includes a timer and is configured to monitor the evolution of the discharge pressure using the timer for a predetermined time, and to reset a search for the surge event after the predetermined time has elapsed if the surge event has not been detected. 5. The fluid transport system of claim 1, wherein the controller issues a relocate alarm, when the surge margin is changed. 6. The fluid transport system of claim 1, wherein the controller is configured to relocate the surge margin by requiring the fluid transport system to be operated such that a surge parameter relative to which the surge margin is defined to remain 10% larger than the surge parameter value recorded at the beginning of the surge event. 7. A method for a fluid transport system including a compressor, the method comprising: detecting a beginning of a surge event based on a rate of a discharge pressure of the compressor and a rate change of the rate of the discharge pressure;after the beginning of the surge event, monitoring the discharge pressure until the discharge pressure decreases below an expected low discharge pressure value;after the discharge pressure has decreased below the expected low discharge pressure value, detecting an end of the surge event when the rate of the discharge pressure becomes positive; andafter the end of the surge event, relocating a surge margin based on a surge parameter value recorded at the beginning of the surge event. 8. The method of claim 7, further comprising: relocating the surge margin by requiring the fluid transport system to be operated such that a surge parameter relative to which the surge margin is defined to be 10% larger than a value of the surge parameter recorded at a beginning of the detected surge event. 9. The method of claim 7, wherein the surge parameter value is related to the fluid flow through the compressor. 10. The method of claim 7, further comprising detecting the surge event based on the evolution of the discharge pressure of the fluid flow exiting the compressor, and of a rate of the discharge pressure. 11. The method of claim 7, further comprising a controller having a timer the configured to monitor the evolution of the discharge pressure using the timer for a predetermined time, and to reset a search for the surge event after the predetermined time has elapsed if the surge event has not been detected. 12. The method of claim 11, wherein the controller issues a relocate alarm when the surge margin is changed. 13. The method of claim 7, further comprising relocating the surge margin by requiring the fluid transport system to be operated such that a surge parameter relative to which the surge margin is defined to remain 10% larger than the surge parameter value recorded at the beginning of the surge event. 14. A controller comprising: an interface configured to receive values of a discharge pressure from a compressor, and to output signals and alarms;a surge event detection unit connected to the interface and configured to detect a surge event in the compressor by monitoring the discharge pressure with a sensor, a rate of the discharge pressure and a rate change of the rate of discharge pressure; the surge event detection unit being further configured to: (i) detect a surge event by detecting a beginning of the surge event based on decreasing discharge pressure, the rate of the discharge pressure, and the rate of change of the rate of the discharge pressure in the compressor using a sensor;(ii) monitor the discharge pressure until the discharge pressure decreases below an expected low discharge pressure value; and(iii) after the discharge pressure has decreased below the expected low discharge pressure value, detect an end of the surge event when the rate of the discharge pressure becomes positive;a surge margin relocation unit connected to the surge event detection unit and the interface, and configured to relocate a surge margin relative to a surge parameter value recorded at a beginning of the surge event, after the surge event detector detects a pattern of a surge event in the evolutions;and issues a relocate alarm when the surge margin is changed. 15. The controller of claim 14, wherein the surge margin relocation unit is configured to relocate the surge margin by requiring a fluid transport system to be operated such that a surge parameter relative to which the surge margin is defined to be 10% larger than a value of the surge parameter recorded at a beginning of the detected surge event. 16. The controller of claim 14, wherein the surge parameter is related to the fluid flow through the compressor. 17. The controller of claim 14, wherein the controller is configured to detect the surge event based on the evolution of the discharge pressure of the fluid flow exiting the compressor, and of a rate of the discharge pressure. 18. The controller of claim 14, wherein the controller includes a timer and is configured to monitor the evolution of the discharge pressure using the timer for a predetermined time, and to reset a search for the surge event after the predetermined time has elapsed if the surge event has not been detected.
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이 특허에 인용된 특허 (8)
Glennon Timothy F. (Rockford IL) Sarphie Theodore E. (Rockford IL) Faulkner Dennis T. (Rockford IL), Compressor surge control with pressure rate of change control.
Walter Hilger A. (Stade DEX) Honen Herwart (Uebace-Palenberg DEX) Gallus Heinz E. (Aachen DEX), Process and device for monitoring vibrational excitation of an axial compressor.
Gunn John T. (Charlotte NC) Martin Daniel T. (Clemmons NC) Harden William H. (Yadkinville NC), Surge control and recovery for a centrifugal compressor.
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