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Bibliographic Details
Main Authors: Swift, S. Hales, El-Kady, Ihab F.
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2603.29081
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author Swift, S. Hales
El-Kady, Ihab F.
author_facet Swift, S. Hales
El-Kady, Ihab F.
contents We introduce a method for measuring the velocity of turbulent fluid flow passing through a pipe using piezoelectric tiles without penetrating the pipe, and without having previously designed the pipe to easily allow monitoring. To measure the flow, the vibrations induced on the pipe by the fluctuating pressure loading induced by the turbulent flow are measured and compared across flow speeds to establish effective invertible relationships from vibration to velocity. Measurements are reported for instrumented pipes transporting, in separate experiments, water and air. The water experiment was able to resolve linear velocity differences on the order of 1~cm/second, while the air experiment was able to resolve on the order of 15~cm/sec. Turned inside out, a similar system might be used to assess external flow velocity, determine differential velocities on opposite sides of a body traveling through air and water, and thus provide navigational data in the form of speed and attitude/angle of attack information. Although this approach is prototyped for a single sensor, it is likely to benefit substantially from the noise suppression possible when employing an array of sensors.
format Preprint
id arxiv_https___arxiv_org_abs_2603_29081
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Piezoelectric tiles for passive flow rate monitoring across a surface
Swift, S. Hales
El-Kady, Ihab F.
Fluid Dynamics
Applied Physics
We introduce a method for measuring the velocity of turbulent fluid flow passing through a pipe using piezoelectric tiles without penetrating the pipe, and without having previously designed the pipe to easily allow monitoring. To measure the flow, the vibrations induced on the pipe by the fluctuating pressure loading induced by the turbulent flow are measured and compared across flow speeds to establish effective invertible relationships from vibration to velocity. Measurements are reported for instrumented pipes transporting, in separate experiments, water and air. The water experiment was able to resolve linear velocity differences on the order of 1~cm/second, while the air experiment was able to resolve on the order of 15~cm/sec. Turned inside out, a similar system might be used to assess external flow velocity, determine differential velocities on opposite sides of a body traveling through air and water, and thus provide navigational data in the form of speed and attitude/angle of attack information. Although this approach is prototyped for a single sensor, it is likely to benefit substantially from the noise suppression possible when employing an array of sensors.
title Piezoelectric tiles for passive flow rate monitoring across a surface
topic Fluid Dynamics
Applied Physics
url https://arxiv.org/abs/2603.29081