HIGH PRESSURE COMPRESSOR AUGMENTED BLEED WITH AUTONOMOUSLY ACTUATED VALVE

Abstract

Gas turbine engine compressor bleed assembly includes annular bleed plenum between annular outer and inner casings circumscribing compressor flowpath of compressor, upstream and downstream bleed ports disposed through inner casing and between compressor flowpath and plenum at upstream and downstream stages. Bleed path extends from downstream bleed port through bleed plenum and out bleed outlet disposed through outer casing. Autonomously actuated valve such as poppet valve disposed in bleed path or downstream bleed port. Autonomously actuated or poppet valve may be set to open at take-off and/or climb. Bleed outlet may be customer and domestic or engine bleed outlet disposed through outer casing and in fluid bleed air communication with bleed plenum. Another assembly may include annular forward and aft bleed outlets connected to plenums. Bleed path extends from downstream bleed port through plenums and out forward bleed outlet.

Claims

1. A gas turbine engine compressor bleed assembly comprising: an annular bleed plenum radially disposed between radially spaced apart annular outer and inner casings circumscribing a compressor flowpath of a compressor, upstream and downstream bleed ports disposed through the inner casing and radially between the compressor flowpath and the bleed plenum at upstream and downstream stages respectively of the compressor, a bleed path extending from the downstream bleed port through the bleed plenum and out a bleed outlet radially disposed through the outer casing, and an autonomously actuated valve disposed in the bleed path.

2. An assembly as claimed in claim 1 further comprising the autonomously actuated valve disposed in the downstream bleed port.

3. An assembly as claimed in claim 2 further comprising the autonomously actuated valve being a poppet valve.

4. An assembly as claimed in claim 3 further comprising the autonomously actuated valve or the poppet valve set to open at take-off and/or climb.

5. An assembly as claimed in claim 1 further comprising the upstream and downstream stages being adjacent stages in the compressor.

6. An assembly as claimed in claim 1 further comprising the upstream and downstream stages being non-adjacent stages spaced two or more stages apart in the compressor.

7. An assembly as claimed in claim 1 further comprising the bleed outlet being a customer and domestic or engine bleed outlet radially disposed through the outer casing and in fluid bleed air communication with the annular bleed plenum.

8. An assembly as claimed in claim 7 further comprising the autonomously actuated valve disposed in the downstream bleed port.

9. An assembly as claimed in claim 8 further comprising the autonomously actuated valve being a poppet valve.

10. An assembly as claimed in claim 9 further comprising the autonomously actuated valve or the poppet valve set to open at take-off and/or climb.

11. An assembly as claimed in claim 10 further comprising the upstream and downstream stages being adjacent stages in the compressor or non-adjacent stages spaced two or more stages apart in the compressor.

12. An assembly as claimed in claim 1 further comprising the bleed outlet being one of customer and domestic or engine bleed outlets radially disposed through the outer casing and in fluid bleed air communication with the annular bleed plenum.

13. An assembly as claimed in claim 12 further comprising the autonomously actuated valve disposed in the downstream bleed port.

14. An assembly as claimed in claim 13 further comprising the autonomously actuated valve being a poppet valve.

15. An assembly as claimed in claim 14 further comprising the autonomously actuated valve or the poppet valve set to open at take-off and/or climb.

16. An assembly as claimed in claim 15 further comprising the upstream and downstream stages being adjacent stages in the compressor or non-adjacent stages spaced two or more stages apart in the compressor.

17. An assembly as claimed in claim 1 further comprising: the annular bleed plenum being one of annular forward and aft bleed plenums radially disposed between radially spaced apart annular outer and inner casings and circumscribing the compressor flowpath, the bleed outlet being one of forward and aft bleed outlets in fluid bleed air communication with the forward and aft bleed plenums respectively and radially disposed through the outer casing, upstream and downstream bleed ports disposed through the inner casing and radially between the compressor flowpath and the forward and aft bleed plenums at upstream and downstream stages respectively of the compressor, a bleed path extending from the downstream bleed port through the forward and aft bleed plenums and out the forward bleed outlet, and an autonomously actuated valve disposed in the bleed path.

18. An assembly as claimed in claim 17 further comprising the autonomously actuated valve disposed in a bulkhead or a radially inwardly depending annular flange of the outer casing axially separating the forward and aft bleed plenums.

19. An assembly as claimed in claim 18 further comprising the autonomously actuated valve being a poppet valve.

20. An assembly as claimed in claim 19 further comprising the autonomously actuated valve or the poppet valve set to open at take-off and/or climb.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0012] FIG. 1 is a schematic cross-sectional view illustration of a gas turbine engine with a high pressure compressor section having an exemplary embodiment of a self actuating bleed valve in a bleed path for flowing augmenting bleed air from an upstage bleed.

[0013] FIG. 2 is an enlarged schematic cross-sectional view illustration of the exemplary embodiment of the self actuating bleed valve in the bleed path for flowing augmenting bleed air from an upstage bleed illustrated in FIG. 1.

[0014] FIG. 3 is an enlarged schematic cross-sectional view illustration of an alternative exemplary embodiment of the bleed path illustrated in FIG. 2.

[0015] FIG. 4 is an enlarged schematic cross-sectional view illustration of another alternative exemplary embodiment of the bleed path illustrated in FIG. 2.

[0016] FIG. 5 is an enlarged schematic cross-sectional view illustration of a poppet valve serving as the exemplary embodiment of the self actuating bleed valve illustrated in FIG. 2.

DETAILED DESCRIPTION OF THE INVENTION

[0017] Illustrated in FIG. 1 is an exemplary aircraft turbofan gas turbine engine 10 circumscribed about an engine centerline 12 and suitably designed to be mounted to a wing or fuselage of an aircraft. The engine 10 includes, in downstream serial flow communication, a fan 14, a multi-stage low pressure compressor or booster 16, a high pressure compressor 18, a combustor 20, a multi-stage high pressure turbine (HPT) 22, and a low pressure turbine (LPT) 24. A core engine 25 includes the HPT or high pressure turbine 22 drivingly connected by a high pressure drive shaft 23 to the high pressure compressor 18 and the combustor 20. The LPT or low pressure turbine 24 is drivingly connected by a low pressure drive shaft 26 to both the fan 14 and the booster 16.

[0018] The exemplary turbofan aircraft gas turbine engine high pressure compressor (HPC) 18 illustrated schematically in FIGS. 1 and 2 includes a compressor bleed assembly 40 having at least one bleed outlet 42 in fluid communication with first and second or upstream and downstream stages 44, 46 of the high pressure compressor (HPC) 18. There may be a circular row of bleed outlets 42. The upstream and downstream stages 44, 46 may be axially adjacent such as fifth and sixth stages 5, 6 in the HPC 18. Pressure of the bleed air from the upstream stages 44 is, of course, lower than the pressure of the downstream stage 46.

[0019] The bleed outlet 42 is an inlet to a bleed duct 41 and is used for extracting compressor bleed flow 34 from compressor flow 38 in a compressor flowpath 39 between the upstream and downstream stages 44, 46. The bleed outlet 42 is in fluid flow communication with and serves as an outlet from an annular bleed plenum 43 circumferentially disposed between radially spaced apart annular outer and inner casings 50, 52. The bleed outlet 42 is radially disposed through the outer casing 50. The bleed duct 41 provides compressor bleed air for use as customer and domestic or engine bleed air 64, 66.

[0020] Upstream and downstream bleed ports 54, 56 from the upstream and downstream stages 44, 46 of the compressor 18 are disposed through the inner casing 52. A high pressure bleed path 62 extends from the downstream bleed port 56, through the bleed plenum 43, and out the bleed outlet 42 radially disposed through the outer casing 50. An autonomously actuated valve illustrated as a poppet valve 60 is disposed in the downstream bleed port 56 at the beginning of the high pressure bleed path 62. The autonomously actuated valve or poppet valve 60 is operable to augment lower pressure compressor bleed air from the upstream stage 44 with higher pressure compressor bleed air from the downstream stage 46 during high pressure operation or excursions during a mission or flight.

[0021] An exemplary method for using the compressor bleed assembly 40 is to supply an autonomously actuated valve or valves illustrated as the poppet valve 60 that remains closed at cruise and allows cruise bleed to be at a lower stage for cruise optimization. The poppet valve 60 is set to open at take-off and/or climb to augment the pressure of the compressor bleed flow 34 with higher pressure compressor air from the downstream stage 46.

[0022] More than the one bleed outlet 42 may be used, examples being customer and domestic or engine bleed outlets 72, 74 as illustrated in FIG. 3. The customer and domestic or engine bleed outlets 72, 74 are in fluid flow communication with and serve as an outlet from a bleed plenum 43 circumferentially disposed between radially spaced apart annular outer and inner casings 50, 52. The customer and domestic or engine bleed outlets 72, 74 are radially disposed through the outer casing 50. There may be more than one customer or engine bleed outlet 72 and more than one domestic or engine bleed outlet 74 disposed around and through the outer casing 50.

[0023] The customer or engine bleed outlet 72 and the domestic or engine bleed outlet 74 may be disposed in rows around and through the outer casing 50. Illustrated in FIG. 3 is an embodiment of the compressor bleed assembly 40 that has both the customer and domestic or engine bleed outlets 72, 74 radially disposed through the outer casing 50 such that they can be used for both customer and domestic air supplies.

[0024] The customer and domestic or engine bleed outlets 72, 74 are used for customer and domestic air supplies. It is beneficial if such bleeds are collected from the furthest forward HPC stages to reduce the negative cycle impact for bleeding higher enthalpy fluid. Utilizing bleed air from more forward HPC stages, however, has the negative effect of providing lower secondary-flow circuit driving pressures. The autonomously actuated valve or poppet valve 60 as used herein addresses the problem of increasing flow pressures of air supplied from OD HPC bleeds to secondary flow circuits. Performance benefits include allowing cruise bleed to meet plenum pressurization requirements using a lower pressure compressor stage. Weight reduction may be available due to the ability to place flanges in good locations for the purpose of clearance control. Reduction in compressor axial length may also be possible.

[0025] Illustrated in FIG. 4 is an embodiment of the compressor bleed assembly 40 that has annular forward and aft bleed plenums 80, 82 which are in fluid bleed air communication with forward and aft bleed outlets 84, 86, respectively. The forward and aft bleed outlets 84, 86 are radially disposed through the outer casing 50. The forward and aft bleed plenums 80, 82 correspond to the forward and aft bleed outlets 84, 86 which serve as customer and domestic or engine bleed outlets 72, 74. The forward and aft bleed plenums 80, 82 are axially separated by a bulkhead 88 illustrated herein as a radially inwardly depending annular flange 90 of the outer casing 50. The upstream and downstream bleed ports 54, 56 from the upstream and downstream stages 44, 46 of the compressor 18 to the forward and aft bleed plenums 80, 82 respectively are disposed through the inner casing 52.

[0026] One high pressure bleed path 62 extends from the downstream bleed port 56, through the aft bleed plenum 82, and then through apertures 87 in the annular flange 90 into the forward bleed plenum 80. Autonomously actuated valves illustrated as poppet valves 60 are disposed through the apertures 87 to allow higher pressure bleed air from the aft bleed plenum 82 to flow into the forward bleed plenum 80 and increase the pressure of the bleed air from upstream bleed ports 54 when the poppet valves 60 open. During such operation, lower pressure compressor bleed air from the upstream stage 44 mixes with higher pressure compressor bleed air from the downstream stage 46 which typically is during high pressure operation or excursions during a mission or flight.

[0027] An exemplary poppet valve 60 design suitable for use in the compressor bleed assembly 40 is illustrated in FIG. 5. The poppet valve 60 includes a hollow body 91 having a barrel 92 within which sits a poppet 94. A first end 95 of the poppet 94 seats in a spherical seat 96 at an upper end 98 or outlet 104 of the hollow body 91 and is spring loaded with respect to the hollow body 91 by a spring 99. The hollow body 91 has a threaded lower end 100 for mounting the poppet valve 60 in the threaded apertures 102 in the annular flange 90 or the outer casing 50. An inlet 101 to the hollow body 91 includes a controlled orifice 106. The orifice 106 is designed to operate as a choke point to control flow, even in the case of a poppet valve failure.

[0028] While there have been described herein what are considered to be preferred and exemplary embodiments of the present invention, other modifications of the invention shall be apparent to those skilled in the art from the teachings herein and, it is therefore, desired to be secured in the appended claims all such modifications as fall within the true spirit and scope of the invention. Accordingly, what is desired to be secured by Letters Patent of the United States is the invention as defined and differentiated in the following claims.