A bleed valve that expels a gas from a compressed region includes a valve section and a muffler section coupled to and located downstream from the valve section. The valve section includes a centerbody and a housing. The centerbody supports a plunger that controls opening and closing of the bleed va
A bleed valve that expels a gas from a compressed region includes a valve section and a muffler section coupled to and located downstream from the valve section. The valve section includes a centerbody and a housing. The centerbody supports a plunger that controls opening and closing of the bleed valve. The centerbody is coupled to the housing by at least one strut disposed substantially radially. The at least one strut may have a cross-section that reduces or suppresses flow separation and vortex shedding from the at least one strut. The muffler section may include a baffle plate and a dome plate. A honeycomb may be installed between the baffle plate and the dome plate. The bleed valve may also include a middle plate on a face of the honeycomb and a conical diverter immediately upstream from the baffle plate. Other embodiments are also described.
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1. A method of reducing noise from a bleed valve that expels a gas from a compressed region, the bleed valve including a valve section includes a centerbody and a housing, the gas flowing between the centerbody and the housing, the centerbody being coupled to the housing by at least one strut dispos
1. A method of reducing noise from a bleed valve that expels a gas from a compressed region, the bleed valve including a valve section includes a centerbody and a housing, the gas flowing between the centerbody and the housing, the centerbody being coupled to the housing by at least one strut disposed substantially radially, and a muffler section coupled to the valve section and downstream of the valve section, the muffler section including a baffle plate and a dome plate, the baffle plate being placed upstream of the dome plate, the method comprising: inserting at least one honeycomb flow straightener in the muffler section, wherein inserting the at least one honeycomb flow straightener includes placing the at least one honeycomb section between the baffle plate and the dome plate. 2. The method of claim 1, wherein the dome plate is flat or curved. 3. The method of claim 1, wherein inserting the at least one honeycomb flow straightener in the muffler section includes filling the entire space between the baffle plate and the dome plate with the honeycomb section. 4. The method of claim 1 wherein inserting the at least one honeycomb flow straightener in the muffler section includes providing a space between the honeycomb section and the baffle plate. 5. The method of claim 1 wherein inserting the at least one honeycomb flow straightener in the muffler section includes providing a space between the honeycomb section and the dome plate. 6. The method of claim 1 wherein inserting the at least one honeycomb flow straightener in the muffler section includes providing a space between the honeycomb section and the baffle plate and providing a space between the honeycomb section and the dome plate. 7. The method of claim 4 further comprising inserting, in the muffler section, a middle perforated plate that is coupled on an upstream face of the honeycomb section. 8. The method of claim 6 further comprising inserting, in the muffler section, a middle perforated plate that is coupled to an upstream face of the honeycomb section. 9. The method of claim 2 wherein the at least one honeycomb flow straightener has flat faces. 10. The method of claim 2 wherein a downstream face of the honeycomb section conforms to the curvature of the dome plate. 11. The method of claim 1, further comprising a conical diverter placed immediately upstream of the baffle plate, the conical diverter being porous or solid. 12. The method of claim 1, wherein said at least one perforated plate comprises a plurality of perforated plates and the at least one honeycomb flow straightener comprises at least one honeycomb section inserted between adjacent perforated plates. 13. The method of claim 1, further comprising streamlining a cross-sectional shape of the at least one strut to reduce or suppress flow separation and vortex shedding from the at least one strut. 14. The method of claim 13 wherein the cross-section of the at least one strut is one or more of the following: an ellipse, an asymmetric ellipse, a rounded triangle; and an airfoil. 15. The method of claim 14, wherein the ellipse and the asymmetric ellipse having an aspect ratio equal to or greater than 2, and the rounded triangle and the airfoil having a chord-to-thickness ratio being equal to or greater than 2. 16. A method of reducing noise from a bleed valve that expels a gas from a compressed region, the bleed valve including a valve section includes a centerbody and a housing, the gas flowing between the centerbody and the housing, the centerbody being coupled to the housing by at least one strut disposed substantially radially, and a muffler section coupled to the valve section and downstream of the valve section, the muffler section including a baffle plate and a dome plate, the baffle plate being placed upstream of the dome plate, the method comprising: inserting at least one honeycomb flow straightener in the muffler section, wherein inserting the at least one honeycomb flow straightener includes placing the at least one honeycomb section between the baffle plate and the dome plate; andstreamlining a cross-sectional shape of the at least one strut to reduce or suppress flow separation and vortex shedding from the at least one strut. 17. A bleed valve for expelling a gas from a compressed region, the bleed valve comprising: a valve section including a centerbody and a housing, the gas flowing between the centerbody and the housing, the centerbody being coupled to the housing by at least one strut disposed substantially radially; anda muffler section coupled to the valve section and being downstream of the valve section, the muffler section comprising at least two perforated plates and at least one honeycomb, wherein the gas flows through the at least one perforated plate and the at least one honeycomb, wherein the at least two perforated plates include a baffle plate and a dome plate, the baffle plate being placed upstream of the dome plate, and the at least one honeycomb is a honeycomb section located between the baffle plate and the dome plate. 18. The bleed valve of claim 17 wherein the dome plate is flat or curved. 19. The bleed valve of claim 17 wherein the honeycomb section fills the entire space between the baffle plate and the dome plate. 20. The bleed valve of claim 17 wherein a space is provided between the honeycomb section and the baffle plate. 21. The bleed valve of claim 17 wherein a space is provided between the honeycomb section and the dome plate. 22. The bleed valve of claim 17 wherein a space is provided between the honeycomb section and the baffle plate and a space is provided between the honeycomb section and the dome plate. 23. The bleed valve of claim 20 further comprising a middle perforated plate coupled to an upstream face of the honeycomb section. 24. The bleed valve of claim 22 further comprising a middle perforated plate coupled to an upstream face of the honeycomb section. 25. The bleed valve of claim 18 wherein the honeycomb faces are flat. 26. The bleed valve of claim 18 wherein a downstream face of the honeycomb section conforms to the curvature of the dome plate. 27. The bleed valve of claim 17, further comprising a conical diverter placed immediately upstream of the baffle plate, the conical diverter being porous or solid. 28. The bleed valve of claim 17, wherein the at least one perforated plate comprises a plurality of perforated plates and the at least one honeycomb comprises at least one honeycomb section inserted between adjacent perforated plates. 29. The bleed valve of claim 17, wherein the centerbody supports a plunger that controls the opening and closing of the bleed valve. 30. The bleed valve of claim 17, wherein the at least one strut has a cross-section that reduces or suppresses flow separation and vortex shedding from the at least one strut. 31. The bleed valve of claim 30 wherein the cross-section of the at least one strut is one or more of the following: an ellipse, an asymmetric ellipse, a rounded triangle, and an airfoil. 32. The bleed valve of claim 31, wherein the ellipse and the asymmetric ellipse have an aspect ratio equal to or greater than 2, and the rounded triangle and the airfoil have a chord-to-thickness ratio being equal to or greater than 2. 33. A bleed valve for expelling a gas from a compressed region, the bleed valve comprising: a valve section including a centerbody and a housing, the gas flowing between the centerbody and the housing, the centerbody being coupled to the housing by at least one strut disposed substantially radially, the at least one strut having a cross-section that reduces or suppresses flow separation and vortex shedding from the at least one strut; anda muffler section coupled to the valve section and being downstream of the valve section, the muffler section comprising at least two perforated plates and at least one honeycomb, wherein the gas flows through the at least two perforated plates and the at least one honeycomb, wherein the at least two perforated plates include a baffle plate and a dome plate, the baffle plate being placed upstream of the dome plate, and the at least one honeycomb is a honeycomb section located between the baffle plate and the dome plate.
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이 특허에 인용된 특허 (8)
Gukeisen,Robert; Smith,Peter G.; Walther,Ronald S., Bleed diffuser for gas turbine engine.
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