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Compressor Stability Enhancement Using Discrete Tip Injection (2001)

Bright, Michelle B. ; Thorp, Scott A. ; Hathaway, Michael D. ; [et al.]

In: Other Sources

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Publication Date: 2013-08-29

Description: Mass injection upstream of the tip of a high-speed axial compressor rotor is a stability enhancement approach known to be effective in suppressing small in tip-critical rotors. This process is examined in a transonic axial compressor rotor through experiments and time-averaged Navier-Stokes CFD simulations. Measurements and simulations for discrete injection are presented for a range of injection rates and distributions of injectors around the annulus. The simulations indicate that tip injection increases stability by unloading the rotor tip and that increasing injection velocity improves the effectiveness of tip injection. For the tested rotor, experimental results demonstrate that at 70 percent speed the stalling flow coefficient can be reduced by 30 percent using an injected mass- flow equivalent to 1 percent of the annulus flow. At design speed, the stalling flow coefficient was reduced by 6 percent using an injected mass-fiow equivalent to 2 percent of the annulus flow. The experiments show that stability enhancement is related to the mass-averaged axial velocity at the tip. For a given injected mass-flow, the mass-averaged axial velocity at the tip is increased by injecting flow over discrete portions of the circumference as opposed to full-annular injection. The implications of these results on the design of recirculating casing treatments and other methods to enhance stability will be discussed.

Keywords: Aircraft Propulsion and Power

Type: Transactions of the ASME; Volume 123; 14-23

Format: text

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The Effect of Variable Chord Length on Transonic Axial Rotor Performance (2002)

Roberts, William B. ; Kassaseya, George ; Thorp, Scott A. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-23

Description: Aircraft fan and compressor blade leading edges suffer from atmospheric particulate erosion that reduces aerodynamic performance. Recontouring the blade leading edge region can restore blade performance. This process typically results in blades of varying chord length. The question therefore arises as to whether performance of refurbished fans and compressors could be further improved if blades of varying chord length are installed into the disk in a certain order. To investigate this issue the aerodynamic performance of a transonic compressor rotor operating with blades of varying chord length was measured in back-to-back compressor test rig entries. One half of the rotor blades were the full nominal chord length while the remaining half of the blades were cut back at the leading edge to 95% of chord length and recontoured. The rotor aerodynamic performance was measured at 100, 80, and 60% of design speed for three blade installation configurations: nominal-chord blades in half of the disk and short-chord blades in half of the disk; four alternating quadrants of nominal-chord and short-chord blades; nominal-chord and short-chord blades alternating around the disk. No significant difference in performance was found between configurations, indicating that blade chord variation is not important to aerodynamic performance above the stall chord limit if leading edges have the same shape. The stall chord limit for most civil aviation turbofan engines is between 94-96% of nominal (new) blade chord.

Keywords: Aircraft Propulsion and Power

Type: Journal of Turbomachinery; Volume 24; 351-357

Format: text

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Active Closed-Loop Stator Vane Flow Control Demonstrated in a Low-Speed Multistage Compressor (2004)

Strazisar, Anthony J. ; Bright, Michelle M. ; Culley, Dennis E.

In: CASI

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Publication Date: 2018-06-05

Description: Closed-loop flow control was successfully demonstrated on the surface of stator vanes in NASA Glenn Research Center's Low-Speed Axial Compressor (LSAC) facility. This facility provides a flow field that accurately duplicates the aerodynamics of modern highly loaded compressors. Closed-loop active flow control uses sensors and actuators embedded within engine components to dynamically alter the internal flow path during off-nominal operation in order to optimize engine performance and maintain stable operation.

Keywords: Aircraft Propulsion and Power

Type: Research and Technology 2003; NASA/TM-2004-212729

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Accuracy of Numerical Simulations of Tip Clearance Flow in Transonic Compressor Rotors Improved Dramatically (2000)

Wood, Jerry R. ; Hathaway, Michael D. ; Okiishi, Theodore H. ; [et al.]

In: CASI

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Publication Date: 2018-06-05

Description: The tip clearance flows of transonic compressor rotors have a significant impact on rotor and stage performance. Although numerical simulations of these flows are quite sophisticated, they are seldom verified through rigorous comparisons of numerical and measured data because, in high-speed machines, measurements acquired in sufficient detail to be useful are rare. Researchers at the NASA Glenn Research Center at Lewis Field compared measured tip clearance flow details (e.g., trajectory and radial extent) of the NASA Rotor 35 with results obtained from a numerical simulation. Previous investigations had focused on capturing the detailed development of the jetlike flow leaking through the clearance gap between the rotating blade tip and the stationary compressor shroud. However, we discovered that the simulation accuracy depends primarily on capturing the detailed development of a wall-bounded shear layer formed by the relative motion between the leakage jet and the shroud.

Keywords: Aircraft Propulsion and Power

Type: Research and Technology 1999; NASA/TM-2000-209639

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Adaptive Technologies Developed and Demonstrated for Extending the Stable Operating Range of Compressors (2005)

Strazisar, Anthony J. ; Hathaway, Michael D.

In: CASI

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Publication Date: 2018-06-02

Description: The operational envelope of gas turbine engines is constrained by the stability limit of the compression system. The dangers of exceeding this limit are severe, with the potential for engine failure and loss of the aircraft. To avoid such failures, compressor designers provide an adequate stability (stall) margin in the compressor design to account for inlet distortions, degradation due to wear, throttle transients, and other factors that reduce compressor stability from the original design intent. In some cases, the required stall margin results in the compressor operating line being below the maximum efficiency potential of the compression system. Current approaches to increasing stability tend to decrease the efficiency of the compressor. The focus of this work is to increase the stall margin of compressors without decreasing their efficiency.

Keywords: Aircraft Propulsion and Power

Type: Research and Technology 2004; NASA/TM-2005-213419

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Jet Injection Used to Control Rotating Stall in a High-Speed Compressor (1998)

Paduano, James D. ; Bright, Michelle M. ; Weigl, Harald J. ; [et al.]

In: CASI

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Publication Date: 2018-06-05

Description: In a joint effort between the Massachusetts Institute of Technology (MIT) and the NASA Lewis Research Center, a new technology was demonstrated to identify and control rotating stall and surge in a single-stage, high-speed compressor. Through the use of highvelocity, high-frequency jet injectors, the instabilities of surge and stall were controlled in a high-speed compressor rig. Through the use of active stall control, modal instabilities that normally occur in the pressure measurements prior to stall were normalized and the range of the compressor was extended. Normally the events of rotating stall and surge instabilities limit the operation of the aeroengine compressor to a region below the surge line. To enhance the performance of the compressor, the Lewis/MIT team used active stall control methods to extend the normal operation of the compressor beyond the original stall point.

Keywords: Aircraft Propulsion and Power

Type: Research and Technology 1997; NASA/TM-1998-206312

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Enhancing aeropropulsion research with high-speed interactive computing (1991)

Szuch, John R. ; Strazisar, Anthony J. ; Arpasi, Dale J.

In: Other Sources

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Publication Date: 2019-07-27

Description: NASA-Lewis has committed to a long range goal of creating a numerical test cell for aeropropulsion research and development. Efforts are underway to develop a first generation Numerical Propulsion System Simulation (NPSS). The NPSS will provide a unique capability to numerically simulate advanced propulsion systems from nose to tail. Two essential ingredients to the NPSS are: (1) experimentally validated Computational Fluid Dynamics (CFD) codes; and (2) high performing computing systems (hardware and software) that will permit those codes to be used efficiently. To this end, NASA-Lewis is using high speed, interactive computing as a means for achieving Integrated CFD and Experiments (ICE). The development is described of a prototype ICE system for multistage compressor flow physics research.

Keywords: COMPUTER SYSTEMS

Type: International Symposium on Air Breathing Engines; Sept. 1-6, 1991; Nottingham

Format: text

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8

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High-Speed Laser Anemometer (1982)

Powell, J. A. ; Strazisar, A. ; Seasholtz, R.

In: Other Sources

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Publication Date: 2019-06-28

Description: New high-speed laser anemometer system rapidly and efficiently maps gas-flow velocities within rotating blade rows of turbomachinery. Small seed particles entrained in gas flow fluoresce when they pass through probe volume, which is the fringe pattern formed by intersecting laser beams. Transit time of particles is obtained by use of suitable optics, photomultiplier tube and electronic signal processor. Data are then sent to a minicomputer.

Keywords: MECHANICS

Type: LEW-13527 , NASA Tech Briefs (ISSN 0145-319X); 6; 1; P. 52

Format: text

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9

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Laser Anemometer Measurements of the Flow Field in a 4:1 Pressure Ratio Centrifugal Impeller (1997)

Skoch, G. J. ; Wernet, M. P. ; Wood, J. R. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: A laser-doppler anemometer was used to obtain flow-field velocity measurements in a 4:1 pressure ratio, 4.54 kg/s (10 lbm/s), centrifugal impeller, with splitter blades and backsweep, which was configured with a vaneless diffuser. Measured through-flow velocities are reported for ten quasi-orthogonal survey planes at locations ranging from 1% to 99% of main blade chord. Measured through-flow velocities are compared to those predicted by a 3-D viscous steady flow analysis (Dawes) code. The measurements show the development and progression through the impeller and vaneless diffuser of a through-flow velocity deficit which results from the tip clearance flow and accumulation of low momentum fluid centrifuged from the blade and hub surfaces. Flow traces from the CFD analysis show the origin of this deficit which begins to grow in the inlet region of the impeller where it is first detected near the suction surface side of the passage. It then moves toward the pressure side of the channel, due to the movement of tip clearance flow across the impeller passage, where it is cut by the splitter blade leading edge. As blade loading increases toward the rear of the channel the deficit region is driven back toward the suction surface by the cross-passage pressure gradient. There is no evidence of a large wake region that might result from flow separation and the impeller efficiency is relatively high. The flow field in this impeller is quite similar to that documented previously by NASA Lewis in a large low-speed backswept impeller.

Keywords: Aircraft Propulsion and Power

Type: NASA-TM-107541 , NAS 1.15:107541 , ARL-TR-1448 , E-10864 , GRC-E-DAA-TN18827 , Turbo-Expo 1997; Jun 02, 1997 - Jun 05, 1997; Orlando, FL; United States

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10

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Endwall Treatment and Method for Gas Turbine (2006)

Strazisar, Anthony J. ; Suder, Kenneth L. ; Hathaway, Michael D.

In: CASI

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Publication Date: 2019-08-13

Description: An endwall treatment for a gas turbine engine having at least one rotor blade extending from a rotatable hub and a casing circumferentially surrounding the rotor and the hub, the endwall treatment including, an inlet formed in an endwall of the gas turbine engine adapted to ingest fluid from a region of a higher-pressure fluid, an outlet formed in the endwall and located in a region of lower pressure than the inlet, wherein the inlet and the outlet are in a fluid communication with each other, the outlet being adapted to inject the fluid from the inlet in the region of lower pressure, and wherein the outlet is at least partially circumferentially offset relative to the inlet.

Keywords: Aircraft Propulsion and Power

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