The gas turbine engine including, in serial flow communication, a compressor, a combustor, a turbine, and a fluid system fluidly connecting at least two components of the gas turbine engine, also includes a tunable resonator in fluid flow communication with the fluid system, the tunable resonator. T
The gas turbine engine including, in serial flow communication, a compressor, a combustor, a turbine, and a fluid system fluidly connecting at least two components of the gas turbine engine, also includes a tunable resonator in fluid flow communication with the fluid system, the tunable resonator. The tunable resonator has a resonating volume that varies as a function of a volume of an inflatable member located inside the tunable resonator. The inflatable member having a means for varying the volume of the inflatable member, to thereby tune the resonating volume to a selected frequency of pressure fluctuations or acoustic waves within the fluid system.
대표청구항▼
1. A tunable resonator for damping at least one selected frequency of pressure fluctuations or acoustic waves within a fluid system of a gas turbine engine, the tunable resonator comprising: an outer casing enclosing a chamber defining a total inner volume, the outer casino having an inlet therein c
1. A tunable resonator for damping at least one selected frequency of pressure fluctuations or acoustic waves within a fluid system of a gas turbine engine, the tunable resonator comprising: an outer casing enclosing a chamber defining a total inner volume, the outer casino having an inlet therein configured to provide fluid flow communication between the chamber and the fluid system, the outer casing defining an axial direction and a radial direction; andat least two inflatable sub-members disposed within the outer casing adjacent at least one inner wall of the outer casing, the at least two inflatable sub-members each respectively having a skin defining a respective sub-chamber within the chamber, each skin configured to prevent fluid flow between the respective sub-chamber and the chamber, each skin being deformable between a deflated position and one or more inflated positions to change a respective volume of the respective sub-chamber, the at least two inflatable sub-members each covering a respective portion of the at least one inner wall of the outer casing, each inflatable sub-member being configured to extend, in the one or more inflated positions, radially relative to the radial direction of the outer casing and axially relative to the axial direction of the outer casing, the at least two inflatable sub-members each being configured to change the respective volume of the respective sub-chamber by expansion or retraction in the radial direction and the axial direction;wherein the at least two inflatable sub-members are positioned with respect to each other to define a hollow cylinder within the outer casing, wherein a resonating volume is defined along a central axis of the hollow cylinder between the at least two inflatable sub-members, andwherein the resonating volume of the tunable resonator corresponds to a difference between the total inner volume of the chamber and a combined volume of the respective sub-chambers. 2. The tunable resonator according to claim 1, wherein the tunable resonator is a Helmholtz resonator, a fluid passage of the fluid system being substantially perpendicular to a fluid passage of the tunable resonator. 3. The tunable resonator according to claim 1, wherein the tunable resonator is an in-line resonator, a fluid passage of the fluid system being substantially parallel to a fluid passage of the tunable resonator. 4. The tunable resonator according to claim 1, wherein a respective portion of each skin of the at least two inflatable sub-members has at least one gusset, the at least one gusset having two sections pivotable relative to one another along an edge joining the two sections, an angle between the two sections variable with a change of the respective volume of the respective sub-chamber. 5. The tunable resonator according to claim 4, wherein each skin of the at least two inflatable sub-members has a plurality of gussets, the plurality of gussets defining an accordion section of the respective skin of the respective inflatable sub-member. 6. The tunable resonator according to claim 1, wherein the at least two inflatable sub-members, in respective fully inflated positions, block a fluid flow from entering the tunable resonator. 7. A gas turbine engine comprising, in serial flow communication, a compressor, a combustor, and a turbine, the gas turbine engine further having a fluid system fluidly connecting at least two components of the gas turbine engine, the fluid system including the tunable resonator as defined in claim 1, the tunable resonator in fluid flow communication with a remainder of the fluid system.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (6)
Rawdon, Blaine K.; Harber, Benjamin A.; Harrison, Neal A., Dual-rib morphing leading edge.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.