Use and calibration of 5-hole pressure probes to measurement of airflow velocity

• Autorzy: Ruchała P. , Grabowska K. , Małachowski P. , Santos L. , Back D.

Identyfikatory

DOI

10.5604/01.3001.0012.2850

• Języki publikacji: EN

Abstrakty

EN

Multi-hole probes are simple and robust device to measurement of flow velocity magnitude and direction in wide range of angles of attack – up to 75°. They become popular as they may be easily use to measurement of unknown flow velocity, while optical methods, like PIV or LDA, require some knowledge about the flow for proper setting of measurement devices. Multi-hole probes are also more lasting in comparison with CTA hot-wire probes, which may be damaged by a dust. A multi-hole probe measures air pressure with one pressure tap on its tip and a few (usually 2, 4, 6 or more) taps on conical or semispherical surface of the probe tip. Based on measured pressures, some non-dimensional pressure coefficients are calculated, which are related to flow velocity direction (i.e. two angles in Cartesian or spherical coordinate system) and magnitude. Finding relations between these parameters is relatively complex, which for years was limiting application of multi-hole probes. The article summarizes methods of multi-hole probes calibration and use, which may be classified as nulling and non-nulling methods or – with other criteria – as global and local methods. The probe, which was presented in the article, was the 5-hole straight probe manufactured by Vectoflow GmbH and calibrated in the stand designed and manufactured at the Institute of Aviation. The local interpolation algorithm has been used for calibration, with some modifications aimed on mitigate of mounting uncertainty, which is related with the non-alignment of flow velocity direction and probe axis Results of calibration showed that the accuracy of presented methodology is satisfactory. The standard measurement uncertainty was assessed for 0.2° for the pitch angle and yaw angle, which is better than accuracy declared by the probe’s manufacturer (1.0°). The measurement uncertainty of the flow velocity is approximately 0.12 m/s, similarly like in manufacturer’s data.

Słowa kluczowe

EN

aerodynamic measurement; turbomachinery; measuring devices; flow direction measurement; multi-hole probes

• Wydawca: Łukasiewicz Research Network - Institute of Aviation ; European Science Society of Powertrain and Transport KONES Poland ; Wydawnictwo Instytutu Technicznego Wojsk Lotniczych
• Czasopismo: Journal of KONES
• Rocznik: 2018
• Tom: Vol. 25, No. 2
• Strony: 319--327
• Opis fizyczny: Bibliogr. 19 poz., rys.

Twórcy

autor

Ruchała P.

• Institute of Aviation Aerodynamics Department Krakowska Av. 110/114, 02-256 Warszawa, Poland tel.:+48 22 8460011, fax: +48228464432

autor

Grabowska K.

• Institute of Aviation Aerodynamics Department Krakowska Av. 110/114, 02-256 Warszawa, Poland tel.:+48 22 8460011, fax: +48228464432

autor

Małachowski P.

• Institute of Aviation Engineering Design Centre Krakowska Av. 110/114, 02-256 Warszawa, Poland tel.:+48 22 8460011, fax:+48228464432

autor

Santos L.

• University of Brasilia Aerospace Department – Gama Faculty St. East Projection A – Gama, 72444-240, Brasília – DF tel.: +55 61 9988 1993

autor

Back D.

• University of Brasilia Aerospace Department – Gama Faculty St. East Projection A – Gama, 72444-240, Brasília – DF tel.: +55 61 9988 1993

Bibliografia

• [1] Benett, D. L., Evaluation of Hemispherical Head Flow Direction Sensor for Inlet Duct Measurements, NASA Flight Research Center, 1975.
• [2] Bryer, D., Pankhurst R., Pressure-Probe Methods for Determining Wind Speed and Flow Direction, Her Majesty’s Stationary Office/National Physics Laboratory, The Campfield Press, St. Albans 1971.
• [3] Everett, K. N., Gerner, A., Durston, D. A., Seven-hole cone probes for high angle flow measurement: Theory and calibration, AIAA Journal, Vol. 21, No. 7, pp. 992-998, 1983.
• [4] Fingersh, L. J., Robinson, M. C., Wind tunnel calibration of 5-hole pressure probes for application to wind turbines, ASME/AIAA Wind Energy Symposium, Reno, 1997.
• [5] Gallington, R. W., Measurement of very large flow angles with non-nulling seven-hole probe, Aeronautics Digest, USAFA-TR-80- 17, 1980.
• [6] Georgiou, D., Milidonis, K., Fabrication and calibration of a sub-miniature 5-hole probe with embedded pressure sensors, Flow Measurement and Instrumentation 39, 2014.
• [7] Gerner, A. A., Maurer, C. L., Gallington, R. W., Non-nulling seven-hole probes for high angle flow measurement. Experiments in Fluids, 2 1984.
• [8] Gonzalez, J., Arrington, E., Five-Hole Flow Angle Probe Calibration for the NASA Glenn Icing Research Tunnel, NASA Glenn Research Center, 1996.
• [9] Johansen, E., Rediniotis, O., Jones, G., The Compressible Calibration of Miniature Multi-Hole Probes, Transaction of the ASME, pp. 128-138, 2001.
• [10] Kjelgaard, S. O., Theoretical Derivation and Calibration Technique of a Hemispherical-Tipped, Five-Hole Probe, NASA Technical Memorandum 4047, 1988.
• [11] Krause, L. N., Dudzinski, T. J., Flow-direction measurement with fixed position probes in subsonic flows over a range of Reynolds number, NASA TMX-52576, 1969.
• [12] Morrison, G., Schobeiri, M., Pappu, K., Five-Hole Pressure Probe analysis technique, Flow Measurement and Instrumentation 9 (3), 1998.
• [13] Paul, A. R., Upadhyay, R. R., Jain, A., A novel calibration for five-hole pressure probe. International Journal of Engineering, Science and Technology Vol. 3, No. 2, 2011.
• [14] Pisasale, A. J., Ahmed, N. A., A novel method for extending the calibration range of five-hole probe for highly threedimensional flows, Flow Measurement and Instrumentation, Vol. 13, 2002.
• [15] Reichert, B., Weindt, B., A new Algorithm for Five-Hole Probe Calibration, Data Reduction and Uncertainty Analysis, NASA Lewis Research Center, 1994.
• [16] Rediniotis, O. K., Hoang, N. T., Telionis, D. P., The Seven-Hole Probe: Its Calibration and Use, Forum on Instructional Fluid Dynamics Experiments, 152, 1993.
• [17] Venkateswara Babu, C., Govardhan, M., Sitaram, N., A method of calibration of a seven-hole pressure probe for measuring highly three-dimensional flows, Measurement Science and Technology 9(3), 1997.
• [18] Zilliac, G. G. – Calibration of Seven-Hole Probes For Use in Fluid Flows With Large Angularity, NASA Technical Memorandum 102200

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).