Apparatus for damping acoustic vibrations in a combustor
First Claim
1. Apparatus for damping acoustic vibrations in a combustor, comprising:
- a Helmholtz resonator having a resonance volume and a connecting channel through which the combustor can be connected with the resonance volume, a hollow body having a volume and a fluid supply line in fluid communication with the volume, the hollow body being configured and arranged to change the hollow body volume by adding or draining a fluid via the supply line, the hollow body being located at a position selected from the group consisting of (a) in the Helmholtz resonator and (b) adjacent to the Helmholtz resonator;
wherein the resonance volume of the Helmholtz resonator is changed when the volume of the hollow body is changed; and
a regulator in fluid communication with the supply line, the regulator regulating the addition or draining of the fluid via the supply line as a function of the frequency of a highest vibration amplitude in the combustor.
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Accused Products
Abstract
An apparatus for damping acoustic vibrations in a combustor as well as a corresponding combustor arrangement with the apparatus. The apparatus includes a Helmholtz resonator (4) that can be connected via a connecting channel (2) with a combustor (1). The Helmholtz resonator (4) contains a hollow body (6) the volume of which can be changed by adding or draining a fluid via a supply line (5), or is located adjacent to such a hollow body in such a way that the resonance volume (3) of the Helmholtz resonator (4) is changed when the volume of the hollow body (6) is changed. This apparatus makes it possible to adjust the resonance frequency of a Helmholtz resonator arranged inside a pressure container in accordance with the respective current operating point of the combustor to be damped, without having to pass movable components through the pressure container.
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Citations
24 Claims
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1. Apparatus for damping acoustic vibrations in a combustor, comprising:
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a Helmholtz resonator having a resonance volume and a connecting channel through which the combustor can be connected with the resonance volume, a hollow body having a volume and a fluid supply line in fluid communication with the volume, the hollow body being configured and arranged to change the hollow body volume by adding or draining a fluid via the supply line, the hollow body being located at a position selected from the group consisting of (a) in the Helmholtz resonator and (b) adjacent to the Helmholtz resonator;
wherein the resonance volume of the Helmholtz resonator is changed when the volume of the hollow body is changed; and
a regulator in fluid communication with the supply line, the regulator regulating the addition or draining of the fluid via the supply line as a function of the frequency of a highest vibration amplitude in the combustor. - View Dependent Claims (2, 3, 4, 5)
at least one variable-position wall adjacent to which the hollow body is located; and
a spring mechanism which presses the variable-position wall against the hollow body.
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6. A system comprising:
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a turbine having a pressure container, the pressure container having a wall;
a combustor; and
an apparatus for damping acoustic vibrations in the combustor, the apparatus including;
a Helmholtz resonator having a resonance volume and a connecting channel through which the combustor can be connected with the resonance volume, and a hollow body having a volume and a fluid supply line in fluid communication with the volume, the hollow body being configured and arranged to change the hollow body volume by adding or draining a fluid via the supply line, the hollow body being located in the Helmholtz resonator or adjacent to the Helmholtz resonator, and a regulator in fluid communication with the supply line, the regulator regulating the addition or draining of the fluid via the supply line as a function of the frequency of a highest vibration amplitude in the combustor, wherein the resonance volume of the Helmholtz resonator is changed when the volume of the hollow body is changed;
wherein the Helmholtz resonator and the combustor are arranged inside the pressure container, and wherein the supply line to the hollow body passes outwardly through the pressure container wall. - View Dependent Claims (8, 9)
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7. A system comprising:
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a turbine having a pressure container, the pressure container having a wall;
a combustor, and an apparatus for damping acoustic vibrations in the combustor, the apparatus including;
a Helmholtz resonator having a resonance volume and a connecting channel through which the combustor can be connected with the resonance volume, and a hollow body having a volume and a fluid supply line in fluid communication with the volume, the hollow body being configured and arranged to change the hollow body volume by adding or draining air from the turbine via the supply line, the hollow body being located in the Helmholtz resonator or adjacent to the Helmholtz resonator, wherein the resonance volume of the Helmholtz resonator is changed when the volume of the hollow body is changed;
wherein the Helmholtz resonator and the combustor are arranged inside the pressure container, and wherein the supply line to the hollow body passes outwardly through the pressure container wall, wherein the hollow body is supplied with air from the turbine.
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10. A method of damping acoustic vibrations in a combustor comprising the steps of:
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providing a Helmholtz resonator in fluid communication with the combustor;
providing a hollow body, the hollow body being configured and arranged to change the hollow body volume by adding or draining a fluid via a supply line; and
supplying a fluid to the hollow body to change the hollow body volume, the change in the hollow body volume changing the resonance volume of the Helmholtz resonator, wherein the combustor has a highest vibration amplitude at a frequency and further comprising the step of;
regulating the step of supplying the fluid to the hollow body as a function of the frequency of a highest vibration amplitude in the combustor. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17)
(a) in the Helmholtz resonator and (b) adjacent to the Helmholtz resonator. -
12. A method in accordance with claim 11, wherein the Helmholtz resonator includes at least one variable-position wall adjacent to which the hollow body is located, and further comprising:
pressing the Helmholtz resonator variable-position wall against the hollow body.
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13. A method in accordance with claim 12, wherein the step of pressing the Helmholtz resonator variable-position wall against the hollow body comprises pressing with a spring.
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14. A method in accordance with claim 10, wherein the step of supplying a fluid to the hollow body comprises supplying air from a turbine.
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15. A method in accordance with claim 14, wherein the step of supplying a fluid from a turbine comprises supplying fluid from a gas turbine.
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16. A method in accordance with claim 10, wherein the step of supplying a fluid to the hollow body comprises supplying fluid from a steam turbine plant.
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17. A method in accordance with claim 16, wherein the fluid is compressed air.
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18. Apparatus for damping acoustic vibrations in a combustor, comprising:
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a Helmholtz resonator having a resonance volume and a connecting channel through which the combustor can be connected with the resonance volume, a hollow body having a volume and a fluid supply line in fluid communication with the volume, the hollow body being configured and arranged to change the hollow body volume by adding or draining a fluid via the supply line, the hollow body abutting the Helmholtz resonator;
wherein the resonance volume of the Helmholtz resonator is changed when the volume of the hollow body is changed. - View Dependent Claims (19, 20, 21, 22)
at least one variable-position wall adjacent to which the hollow body is located; and
a spring mechanism which presses the variable-position wall against the hollow body.
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22. Apparatus as claimed in claim 18, further comprising a regulator in fluid communication with the supply line, the regulator regulating the addition or draining of the fluid via the supply line as a function of the frequency of a highest vibration amplitude in the combustor.
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23. A method of damping acoustic vibrations in a combustor comprising the steps of:
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providing a Helmholtz resonator in fluid communication with the combustor;
providing a hollow body, the hollow body abutting the Helmholtz resonator and being configured and arranged to change the hollow body volume by adding or draining a fluid via a supply line; and
supplying a fluid to the hollow body to change the hollow body volume, the change in the hollow body volume changing the resonance volume of the Helmholtz resonator. - View Dependent Claims (24)
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Specification