In the paper a procedure to assess, at low cost, the length of various coiled tubes by using standing waves is presented. The air in the tube is excited by using a speaker and random signal in the frequency band of interest. The pressure is measured at both tube ends by using a two input channels sound card, in order to evaluate the frequency response function (FRF). From the peaks of the frequency response function (magnitude), the frequency values of the standing waves generated in the tube are identified and the length of the tube is evaluated. The acquisition system and the calculations are managed by a Labview application. Corrections can be applied in order to obtain better results.

Bădărău, E., Grumăzescu, M., Bazele

acusticii moderne, Ed. Acad. RPR, 1961.

Coroian, A., Lupea, I., Improving level for a

simplified passenger cabin by using modal participation and size optimization, Romanian Journal of Acoustics & Vibration 10 (1), 2013.

Lupea, I., Considerations on the Helmholtz

resonator simulation and experiment, Proceedings of the Romanian Academy, Series A-Mathematics Physics Technical Sciences Information Science Volume: 13 Issue: 2, pages: 118-124, Published: Apr-Jun, 2012

Lupea, I., Experimental validation of

acoustic modes for fluid structure coupling in the car habitacle, Proceedings of the Romanian Academy, Series A-Mathematics Physics Technical Sciences Information Science, Vol:18, Issue: 1, 2017.

Lupea, I., Vibration and noise measurement

by using Labview programming, Casa Cărţii de Ştiinţă, Cluj-Napoca, 2005,

Lupea, I., The length of flexible coiled tubes

measured by using standing waves, Acta Technica Napocensis, Series: AMM, Issue III, Vol. 61, 2018,

** ni.com, Labview, National Instruments Sound vibration measurement suite, 2018.