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AeroSense Measurements: Wind Tunnel Ecole Centrale Lyon

Opis

Data from wind tunnel tests of Aerosesne measurement system installed on NACA 63418 aerfoil in the anechoic wind tunnel at the Ecole Centrale Lyon. 

A NACA 63418 wing profile with a chord of 12 cm and a span of 30 cm was placed between twoend-plates at the outlet of the open-jet wind tunnel of 0.4 m x 0.3 m.

Measurements were carried out for different wind speeds (from 12.5 m s−1 to 50 m s−1, Re = 1 × 10e5 to 6.5 × 10e5, M a = 0.04 to 0.22) and for different inflow turbulent intensity: 0% as a reference case and 8% to represent field measurements.

The Aerosense measurement system was tested for static angle of attacks from −4◦to 24◦.

The barometers of the Aerosense measurement system were compared with 20 pressure points measured at mid-span using a Kulite KMPS-1-64 pr essure scanner. The pressure scanner acquired pressure data from pin-holes via capillary tubes at a sampling frequency of 1.1 kHz.

The microphones of the Aerosense measurement system were compared with 12 Br ̈uel & Kjaer 4958 type microphones distributed along the chord, using the same pin-holes. The acquired fluctuating wall pressure signals were recorded at 51.2 kHz after calibration

Measurement series:

  1.  ms000: instrumented NACA63-418 without any external sensors
  2. ms001: instrumented aerofoil with GRAS microphones
  3. ms002: instrumented aerofoil with Aerosense microphones only
  4. ms003: instrumented aerofoil with Aerosense absolute pressure sensors
  5. ms004: instrumented aerofoil with Aerosense differential pressure sensors


For each measurement series, 119 measurement points (with minor exceptions):

  • TI: turbulence intensity grid. 0 means no grid (almost 0% turbulence intensity), 8 means a grid yielding a turbulence intensity of 8% (no spectrum provided though)
  • U0: wind speed in meter per second. 12.5 m s−1 yields: Re = 1.0×105, M a = 0.037, q0 = 100 Pa. 25 m s−1 yields: Re = 2.1 × 105, M a = 0.074, q0 = 390 Pa. 50 m s−1 yields: Re = 4.2 × 105, M a = 0.147, q0 = 1550 Pa
  • DP1 means sinusoidal dynamic pitching creating dynamic stall around α0 = 10◦, with amplitude of α1 = 20◦, with a frequency of fs = 1.989 Hz (k = 0.06 at 12.5 m s−1).
  • DP2 means sinusoidal pitching representing high shear flow around α0 = 10◦, with amplitude of α1 = 4◦, with a frequency of fs = 0.663 Hz at at 25 m s−1) (k = 0.01), with a frequency of fs = 1.326 Hz at at 50 m s−1) (k = 0.01)
  • SP means sand paper at the leading edge to simulate leading edge erosion.

Plik z danymi badawczymi

AeroSense-WT-Lyon.zip
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pobierz plik AeroSense-WT-Lyon.zip

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Creative Commons: by 4.0 otwiera się w nowej karcie
CC BY
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Informacje szczegółowe

Rok publikacji:
2023
Data zatwierdzenia:
2023-06-27
Język danych badawczych:
angielski
Dyscypliny:
  • automatyka, elektronika, elektrotechnika i technologie kosmiczne (Dziedzina nauk inżynieryjno-technicznych)
  • inżynieria mechaniczna (Dziedzina nauk inżynieryjno-technicznych)
DOI:
Identyfikator DOI 10.34808/b549-5v17 otwiera się w nowej karcie
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