Apparatus for filtering ultrasonic noise within a fluid flow system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01N-007/02
F01N-007/00
F01N-001/12
F01N-001/08
F01N-001/10
출원번호
US-0179327
(2005-07-12)
등록번호
US-7303047
(2007-12-04)
발명자
/ 주소
Gallagher,James E.
Saunders,Michael P.
출원인 / 주소
Savant Measurement Corporation
대리인 / 주소
Strasburger & Price, LLP
인용정보
피인용 횟수 :
3인용 특허 :
63
초록▼
A method is employed to attenuate ultrasonic noise propagating in a flow stream of a fluid flow system. In particular, the method attenuates the noise propagating between a noise source and a reference point in the flow stream (wherein the reference point and the noise source are positioned in the f
A method is employed to attenuate ultrasonic noise propagating in a flow stream of a fluid flow system. In particular, the method attenuates the noise propagating between a noise source and a reference point in the flow stream (wherein the reference point and the noise source are positioned in the flow stream in direct acoustic line of sight relation). The method includes positioning an absorbent element in the flow stream between the noise source and the reference point. Then, the ultrasonic noise is directed past vicinity of the absorbent element such that indirect ultrasonic noise is absorbed by the absorbent element. Preferably, the method also includes deflecting the ultrasonic noise to convert direct noise to indirect noise prior to directing the ultrasonic noise past the vicinity of the absorbent material in the flow stream. Such a method may be employed to attenuate ultrasonic noise by up to about 20 dB to 45 dB.
대표청구항▼
What is claimed is: 1. An ultrasonic noise filter for use with a fluid flow conduit, said noise filter comprising: a flow entrance; a flow exit; said flow entrance and said flow exit defining a flow path extending therebetween, said flow path having a longitudinal centerline; and an absorbent eleme
What is claimed is: 1. An ultrasonic noise filter for use with a fluid flow conduit, said noise filter comprising: a flow entrance; a flow exit; said flow entrance and said flow exit defining a flow path extending therebetween, said flow path having a longitudinal centerline; and an absorbent element disposed in said flow path, said absorbent element including lateral sections of absorbent material configured to absorb indirect noise propagating in said flow path, said lateral sections formed by spirally wound layers of said absorbent material. 2. The noise filter of claim 1, wherein said lateral sections overlap to form protrusions into the flow path, said protrusions being adapted to effect turbulent fluid flow in the flow path. 3. The noise filter of claim 1, further comprising a plurality of channels defining said flow path, each said channel including said lateral sections of said absorbent material. 4. The noise filter of claim 3, wherein said plurality of channels includes a plurality of outside channels positioned radially equidistant from a longitudinal centerline of said noise filter, and an inside channel positioned about said common longitudinal centerline. 5. The noise filter of claim 3, wherein said absorbent element includes each of said lateral sections of absorbent material disposed in said channels, said absorbent element being configured to attenuate ultrasonic noise by at least about 20 dB. 6. The noise filter of claim 1, wherein said absorbent material includes protrusions adapted to effect turbulence in said flow path. 7. The noise filter of claim 1, wherein said absorbent material is configured to absorb indirect ultrasonic noise in said flow path by converting the indirect ultrasonic noise to vibration. 8. The noise filter of claim 1, wherein said absorbent material is a fibrous absorbent material. 9. The noise filter of claim 1, wherein said absorbent material is polyester. 10. An ultrasonic noise filter for use with a fluid flow conduit, said noise filter comprising: a flow entrance; a flow exit; said flow entrance and said flow exit defining a flow path extending therebetween, said flow path having a longitudinal centerline; and an absorbent spirally wound polyester element disposed in a portion of said flow path, said absorbent spirally wound polyester element configured to absorb indirect noise propagating in said flow path. 11. The noise filter of claim 10, further comprising lateral sections of absorbent material, wherein said lateral sections overlap to form protrusions into the flow path, said protrusions being adapted to effect turbulent fluid flow in the flow path. 12. The noise filter of claim 10, further comprising a plurality of channels defining said flow path. 13. The noise filter of claim 12, wherein said plurality of channels includes a plurality of outside channels positioned radially from a longitudinal centerline of said noise filter, and an inside channel positioned about said common longitudinal centerline. 14. The noise filter of claim 12, wherein said absorbent element is disposed in said channels, said absorbent element being configured to attenuate ultrasonic noise by at least about 20 dB. 15. The noise filter of claim 10, wherein said absorbent element includes protrusions adapted to effect turbulence in said flow path. 16. The noise filter of claim 10, wherein said absorbent element is configured to absorb indirect ultrasonic noise in said flow path by converting the indirect ultrasonic noise to vibration. 17. The noise filter of claim 10, wherein said absorbent element is a fibrous absorbent material. 18. An ultrasonic noise filter for use with a fluid flow conduit, said noise filter comprising: a flow entrance; a flow exit; said flow entrance and said flow exit defining a flow path extending therebetween, said flow path having a longitudinal centerline; and an absorbent spirally wound element disposed in a portion of said flow path, said absorbent element configured to absorb indirect noise propagating in said flow path. 19. The noise filter of claim 18, wherein said absorbent element is a fibrous absorbent material. 20. The noise filter of claim 18, wherein said absorbent element is polyester.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (63)
Cooksey ; James M., Apparatus and method for reducing flow disturbances in a flowing stream of compressible fluid.
Gallagher James E. (Kingwood TX) Beaty Ronald E. (Katy TX) Lanasa Paul J. (Houston TX), Flow conditioner profile plate for more accurate measurement of fluid flow.
Stuart John W. (Lafayette CA), Gradational tube bundle flow conditioner for providing a natural flow profile to facilitate accurate orifice metering in.
Harris Theodore R. (14 El Patio Orinda CA 94563) Harris Richard T. (3127 Stanley Blvd. Lafayette CA 94549), Large, high r.p.m. diesel engine exhaust muffler.
Gall Adam F. (Charleston WV) McJunkin ; Jr. Howard P. (Charleston WV), Method for fabricating an orifice fitting for a gas pressure differential-measuring system.
Army ; Jr. Donald E. (Springfield MA) Donnelly Brian G. (Suffield CT) Nikkanen John P. (West Hartford CT), Pressure regulation valve with integrated downstream pressure tap.
Hani August (Turgi CHX) Horler Hansulrich (Zurich CHX) Ursprung Hans (Turgi CHX), Silencer on the intake side of a compressor with assembly of axially spaced annular sound-damping elements.
Hall Kenneth R. (College Station TX) Morrison Gerald L. (College Station TX) Holste James C. (Bryan TX) ..AP: Texas A & M University System (College Station TX 02), Slotted orifice flowmeter.
Horner Michael S. (Davis CA) Brisken Axel F. (Shingle Springs CA) Zanelli Claudio I. (Fair Oaks CA), Ultrasonic transducer and attenuating material for use therein.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.