The United States of America as Represented by the Administrator of the National Aeronautics and Space Administration
대리인 / 주소
Earp, III, Robert H.
인용정보
피인용 횟수 :
2인용 특허 :
14
초록
Systems and methods for passive thermal management of foil bearing systems are disclosed herein. The flow of the hydrodynamic film across the surface of bearing compliant foils may be disrupted to provide passive cooling and to improve the performance and reliability of the foil bearing system.
대표청구항▼
1. A foil bearing system, comprising: a compliant foil bearing mounted to a stationary member and operably disposed between the stationary member and a rotating member, wherein the compliant foil bearing supports the rotating member via a fluid film when the rotating member rotates;a plurality of co
1. A foil bearing system, comprising: a compliant foil bearing mounted to a stationary member and operably disposed between the stationary member and a rotating member, wherein the compliant foil bearing supports the rotating member via a fluid film when the rotating member rotates;a plurality of compliant foils mounted to the compliant foil bearing, the plurality of compliant foils facilitate passive thermal management of the fluid film without an external energy source, wherein the plurality of compliant foils are formed to disrupt a flow of heated lubricant from one compliant foil to the ensuing compliant foil. 2. The foil bearing system of claim 1, wherein the foil bearing comprises a journal type foil bearing capable of supporting a radial load. 3. The foil bearing system of claim 1, wherein the foil bearing comprises a thrust type foil bearing capable of supporting an axial load. 4. The foil bearing system of claim 1, wherein the foil bearing comprises an air foil bearing. 5. The foil bearing system of claim 1, wherein a trailing edge profile of the plurality of compliant foils comprises at least one of a semicircular, scalloped, triangular, trapezoidal, rectangular, square, sinusoidal, or chevron shape that provides passive thermal management of the fluid film. 6. The foil bearing system of claim 1, wherein a surface of the plurality of compliant foils is etched. 7. The foil bearing system of claim 1, wherein a surface of the plurality of compliant foils includes protuberances or depressions effective to provide passive thermal management of the fluid film. 8. The foil bearing system of claim 1, wherein a surface of the plurality of compliant foils includes a wiper capable of providing passive thermal management of the fluid. 9. The foil bearing system of claim 1, further including an air curtain capable of disrupting the flow of the fluid film across the compliant foils. 10. A method of passive cooling of a foil bearing system, comprising: providing a compliant foil bearing mounted to a stationary member and operably disposed between the stationary member and a rotating member;providing a plurality of compliant foils mounted to the compliant foil bearing, wherein the compliant foil bearing supports the rotating member via a fluid film when the rotating member rotates; anddisrupting a flow of the fluid film, without an external energy source, across the plurality of compliant foils to facilitate passive thermal management of the fluid film. 11. The method of passive cooling of the foil bearing system of claim 10, further including supporting a radial load with a journal type compliant foil bearing. 12. The method of passive cooling of the foil bearing system of claim 10, further including supporting an axial load with a thrust type compliant foil bearing. 13. The method of passive cooling of the foil bearing system of claim 10, wherein providing the compliant foil bearing comprises providing an air foil bearing. 14. The method of passive cooling of the foil bearing system of claim 10, wherein disrupting the flow of the fluid film across the plurality of compliant foils includes forming the plurality of compliant foils. 15. The method of passive cooling of the foil bearing system of claim 14, wherein forming the plurality of compliant foils comprises: forming a trailing edge profile of the plurality of compliant foils, wherein the trailing edge profile includes at least one of a semicircular, scalloped, triangular, trapezoidal, rectangular, square, sinusoidal, or chevron shape effective to provide passive thermal management of the fluid film. 16. The method of passive cooling of the foil bearing system of claim 14, wherein forming the plurality of compliant foils comprises etching a surface of the plurality of compliant foils. 17. The method of passive cooling of the foil bearing system of claim 14, wherein forming the plurality of compliant foils includes positioning a wiper on a surface of the plurality of compliant foils. 18. The method of passive cooling of the foil bearing system of claim 14, wherein forming the plurality of compliant foils comprises forming protrusions or depressions effective to provide passive thermal management of the fluid film on a surface of the plurality of compliant foils. 19. The method of passive cooling of the foil bearing system of claim 14, including inducing an air curtain capable of disrupting the flow of the fluid film across the compliant foils.
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이 특허에 인용된 특허 (14)
Bosley, Robert W., Compliant foil fluid film thrust bearing with a tilting pad underspring.
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