Fluid density stratification location system, device and method
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01F-001/20
G10K-011/00
G01N-029/024
G01N-029/24
G01N-029/32
G01F-001/66
G01F-001/74
G01N-009/24
출원번호
US-0888828
(2013-05-07)
등록번호
US-9343055
(2016-05-17)
발명자
/ 주소
Ao, Xiaolei Shirley
Doria, Shawn Li
Xu, Jin Chang
Aronson, Reuben Micah
출원인 / 주소
General Electric Company
대리인 / 주소
Barclay Damon, LLP
인용정보
피인용 횟수 :
1인용 특허 :
6
초록▼
A fluid flow system, device, and method for locating a fluid layer in a fluid flow using an acoustic waveguide. The acoustic waveguide comprises a waveguide base segment, and a waveguide reflector segment. The waveguide reflector segment comprises a plurality of disc shaped waveguide reflectors alon
A fluid flow system, device, and method for locating a fluid layer in a fluid flow using an acoustic waveguide. The acoustic waveguide comprises a waveguide base segment, and a waveguide reflector segment. The waveguide reflector segment comprises a plurality of disc shaped waveguide reflectors along its length for locating a fluid layer.
대표청구항▼
1. An elongated acoustic waveguide comprising: a waveguide base segment;a waveguide reflector segment; andthe waveguide reflector segment comprising a plurality of disc shaped waveguide reflectors spaced apart along its length, each of the waveguide reflectors disposed in a plane perpendicular to an
1. An elongated acoustic waveguide comprising: a waveguide base segment;a waveguide reflector segment; andthe waveguide reflector segment comprising a plurality of disc shaped waveguide reflectors spaced apart along its length, each of the waveguide reflectors disposed in a plane perpendicular to an axis of the waveguide reflector segment,wherein the waveguide reflector segment comprises a substantially circular cross-section and a parallelogram shaped cross-section, the substantially circular cross-section positioned at a location of each waveguide reflector and the parallelogram shaped cross-section positioned within each of the waveguide reflectors. 2. The acoustic waveguide according to claim 1, wherein one of the waveguide reflectors comprises a thickness, measured parallel to the axis of the waveguide reflector segment, between about ten times to about twenty-five times a thickness of at least one of the other waveguide reflectors. 3. The acoustic waveguide according to claim 2, wherein the one of the waveguide reflectors is disposed at a distal end of the waveguide reflector segment. 4. The acoustic waveguide according to claim 1, wherein the waveguide base segment and the disc shaped waveguide reflectors comprise a substantially circular cross-section of substantially equal diameter. 5. The acoustic waveguide according to claim 4, wherein a remainder of the waveguide reflector segment comprises a substantially parallelogram shaped cross-section. 6. The acoustic waveguide according to claim 2, further comprising: an ultrasonic transducer acoustically coupled to the waveguide base segment for launching an ultrasonic pulse into the acoustic waveguide, and for receiving echoes of the ultrasonic wave reflected from the waveguide reflectors. 7. The acoustic waveguide according to claim 6, wherein the one of the waveguide reflectors comprises an end proximal to the ultrasonic transducer and an end distal to the ultrasonic transducer, and reflects the ultrasonic wave at its proximal end and at its distal end. 8. The acoustic waveguide according to claim 7, wherein the one of the waveguide reflectors generates a reflected pair of ultrasonic echoes corresponding to the proximal end and the distal end, the pair of ultrasonic echoes comprising a speed corresponding to a temperature of the one of the waveguide reflectors. 9. A fluid flow system having a pipe with fluid flowing therethrough, the system comprising: a first acoustic waveguide with a first waveguide base segment and a first waveguide reflector segment, the first waveguide reflector segment comprising a first plurality of disc shaped waveguide spaced apart along a portion of its length, each of the first plurality of waveguide reflectors disposed in a plane perpendicular to an axis of the first waveguide reflector segment, at least one of the first plurality of waveguide reflectors extending into a first portion of the fluid flowing through the pipe;a second acoustic waveguide with a second waveguide base segment and a second waveguide reflector segment, the second waveguide reflector segment comprising a second plurality of disc shaped waveguide reflectors spaced apart along a portion of its length, each of the second plurality of waveguide reflectors disposed in a plane perpendicular to an axis of the second waveguide reflector segment, at least one of the second plurality of waveguide reflectors extending into a second portion of the fluid flowing through the pipe, wherein the second portion of the fluid is different than the first portion of fluid,wherein the first and second pluralities of waveguide reflector segments each comprise a substantially circular cross-section and a substantially parallelogram shaped cross-section, the substantially circular cross-sections positioned at locations of each of the first and second plurality of waveguide reflectors and the substantially parallelogram shaped cross-section positioned within each of the waveguide reflectors. 10. The fluid flow system of claim 9, wherein the second waveguide reflector segment is longer than the first waveguide reflector segment. 11. The fluid flow system of claim 9, wherein the first waveguide reflector segment and the second waveguide reflector segment comprise equal lengths and wherein the second plurality of waveguide reflectors are located in a portion of the second waveguide reflector segment further from the second waveguide base segment than the first plurality of waveguide reflectors are located from the first waveguide base segment. 12. The fluid flow system according to claim 9, further comprising: a first ultrasonic transducer acoustically coupled to the first waveguide base segment for transmitting a first ultrasonic wave into the first waveguide base segment, and for receiving echoes of the first ultrasonic wave reflected from the first plurality of waveguide reflectors; anda second ultrasonic transducer acoustically coupled to the second waveguide base segment for transmitting a second ultrasonic wave into the second waveguide base segment, and for receiving echoes of the second wave reflected from the second plurality of waveguide reflectors. 13. The fluid flow system according to claim 9, wherein one of the first plurality of waveguide reflectors comprises a thickness, measured parallel to the axis of the first waveguide reflector segment, between about ten times to about twenty five times a thickness of at least one other of the first plurality of waveguide reflectors, and wherein one of the second plurality of waveguide reflectors comprises a thickness, measured parallel to the axis of the second waveguide reflector segment, between about ten times to about twenty five times a thickness of at least one other of the second plurality of waveguide reflectors. 14. The fluid flow system according to claim 13, wherein the one of the first plurality of waveguide reflectors and the one of the second plurality of waveguide reflectors each comprises an end proximal to its corresponding ultrasonic transducer and an end distal to the corresponding ultrasonic transducer, and wherein each of the proximal ends and each of the distal ends reflects its corresponding ultrasonic wave. 15. The fluid flow system according to claim 14, wherein the one of the first plurality of waveguide reflectors and the one of the second plurality of waveguide reflectors each generate a reflected pair of ultrasonic echoes corresponding to its proximal end and its distal end, each pair of ultrasonic echoes comprising characteristics corresponding to a temperature of the waveguide reflector that generated it. 16. A method of determining a location of a selected fluid layer in a fluid flow wherein the fluid flow comprises a plurality of flowing layers, the method comprising: extending an acoustic waveguide into the fluid flow, the acoustic waveguide comprising a first plurality of disc shaped acoustic waveguide reflectors spaced along a waveguide reflector segment, wherein the waveguide reflector segment comprises a substantially circular cross-section positioned at a location of each waveguide reflector and a parallelogram shaped cross-section positioned within each of the waveguide reflectors;propagating an acoustic wave through the acoustic waveguide;receiving echoes of the acoustic wave reflected by the waveguide reflectors; anddetermining a location of the selected fluid layer based on characteristics of the echoes. 17. The method of claim 16, wherein the step of determining comprises measuring a time-of-flight of the received echoes reflected by different ones of the waveguide reflectors. 18. The method of claim 16, further comprising: extending a second acoustic waveguide into the fluid flow, the second acoustic waveguide comprising a second plurality of disc shaped acoustic waveguide reflectors, the second plurality of waveguide reflectors extending further into the fluid flow than the first plurality of waveguide reflectors;propagating an acoustic wave through the second acoustic waveguide;receiving echoes of the acoustic wave reflected by the second plurality of waveguide reflectors; anddetermining the location of the selected fluid layer based on characteristics of the echoes reflected by the second plurality of waveguide reflectors.
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이 특허에 인용된 특허 (6)
Nguyen, Toan H.; Lynnworth, Lawrence C., Acoustic waveguide system.
Campbell Eric (Logan UT) Campbell Gaylon (Pullman WA) Norton Jeff (Logan UT) Heers Art (Logan UT), Multi-level probe and system for measurement of physical conditions in liquid-containing tanks.
Bau Haim H. (Swarthmore PA) Kim Jin O. (Philadelphia PA) Lynnworth Lawrence C. (Waltham MA) Nguyen Toan H. (Needham MA), Torsional wave fluid sensor and system.
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