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Application of holography to flow visualization within rotating compressor blade row (1974)

Kobayashi, R. J. ; Wuerker, R. F. ; Ware, T. C. ; [et al.]

In: CASI

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Publication Date: 2019-06-27

Description: Two holographic interblade row flow visualization systems were designed to determine the three-dimensional shock patterns and velocity distributions within the rotating blade row of a transonic fan rotor, utilizing the techniques of pulsed laser transmission holography. Both single- and double-exposure bright field holograms and dark field scattered-light holograms were successfully recorded. Two plastic windows were installed in the rotor tip casing and outer casing forward of the rotor to view the rotor blade passage. The viewing angle allowed detailed investigation of the leading edge shocks and shocks in the midspan damper area; limited details of the trailing edge shocks also were visible. A technique was devised for interpreting the reconstructed holograms by constructing three dimensional models that allowed identification of the major shock systems. The models compared favorably with theoretical predictions and results of the overall and blade element data. Most of the holograms were made using the rapid double-pulse technique.

Keywords: MASERS

Type: NASA-CR-121264 , AIRESEARCH-73-9489

Format: application/pdf

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Hightip-speed, low-loading transonic fan stage. Part 2: Data compilation (1974)

Jackson, R. J. ; Kobayashi, R. J. ; Ware, T. C.

In: CASI

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Publication Date: 2019-06-27

Description: Tests were conducted on a high-tip-speed low-loading transonic fan stage to determine the performance and inlet flow distortion tolerance of the design. Test data were recorded for overall and blade element performance with both uniform and distorted inlet flows. A tabular summary of the data and a representative selection of the computer data reduction sheets are presented.

Keywords: PROPULSION SYSTEMS

Type: NASA-CR-121262 , AIRESEARCH-73-9487

Format: application/pdf

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High-tip-speed, low-loading transonic fan stage. Part 3: Final report (1974)

Jackson, R. J. ; Kobayashi, R. J. ; Ware, T. C.

In: CASI

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Publication Date: 2019-06-27

Description: Tests were conducted on a high-tip-speed, low-loading transonic fan stage to determine the performance and inlet flow distortion tolerance of the design. The fan was designed for high efficiency at a moderate pressure ratio by designing the hub section to operate at minimum loss when the tip operates with an oblique shock. The design objective was an efficiency of 86 percent at a pressure ratio of 1.5, a specific flow (flow per unit annulus area) of 42 lb/sec-sq. ft (205.1 kgm/sec-m sq), and a tip speed of 1600 ft/sec (488.6 m/sec). During testing, a peak efficiency of 84 percent was achieved at design speed and design specific flow. At the design speed and pressure ratio, the flow was 4 percent greater than design, efficiency was 81 percent, and a stall margin of 24 percent was obtained. The stall line was improved with hub radial distortion but was reduced when the stage was tested with tip radial and circumferential flow distortions. Blade-to-blade values of static pressures were measured over the rotor blade tips.

Keywords: PROPULSION SYSTEMS

Type: NASA-CR-121263 , AIRESEARCH-73-9488

Format: application/pdf

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