A low cost miniature vortex sensor for turbulence measurement

Jianguo Zhao; D. Feili; H. Vollm; T. Panidis; B. Ma; H. Seidel

doi:10.1109/ICSENS.2012.6411243

A low cost miniature vortex sensor for turbulence measurement

Jianguo Zhao, D. Feili, H. Vollm, T. Panidis, B. Ma, H. Seidel

School of Microelectronics

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

This work introduces a miniature vortex sensor which can measure vorticity of turbulent flow, especially at moderate and high turbulence intensity in the small scale flow domain. The vorticity is extracted mathematically from the measurement of velocities and velocity gradients via several spatially separated individual hot wires. The complete vortex sensor consists of nine micro platinum hot wires with a specific spatial arrangement. All wires are fabricated using standard MEMS processes and they are assembled mechanically to a spatial 3D structure. The characteristic sizes of the platinum hot wires were strongly reduced down to a minimum value of 260 nm. This allows the measurement of smaller vortices and, thus, higher vorticity frequencies. The TCR (temperature coefficient of resistance) was measured to be 0.217 %/K and the time constant was estimated to be below 10 μs.

Original language	English
Title of host publication	IEEE SENSORS 2012 - Proceedings
DOIs	https://doi.org/10.1109/ICSENS.2012.6411243
State	Published - 2012
Event	11th IEEE SENSORS 2012 Conference - Taipei, Taiwan, Province of China Duration: 28 Oct 2012 → 31 Oct 2012

Publication series

Name	Proceedings of IEEE Sensors

Conference

Conference	11th IEEE SENSORS 2012 Conference
Country/Territory	Taiwan, Province of China
City	Taipei
Period	28/10/12 → 31/10/12

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10.1109/ICSENS.2012.6411243

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title = "A low cost miniature vortex sensor for turbulence measurement",

abstract = "This work introduces a miniature vortex sensor which can measure vorticity of turbulent flow, especially at moderate and high turbulence intensity in the small scale flow domain. The vorticity is extracted mathematically from the measurement of velocities and velocity gradients via several spatially separated individual hot wires. The complete vortex sensor consists of nine micro platinum hot wires with a specific spatial arrangement. All wires are fabricated using standard MEMS processes and they are assembled mechanically to a spatial 3D structure. The characteristic sizes of the platinum hot wires were strongly reduced down to a minimum value of 260 nm. This allows the measurement of smaller vortices and, thus, higher vorticity frequencies. The TCR (temperature coefficient of resistance) was measured to be 0.217 %/K and the time constant was estimated to be below 10 μs.",

author = "Jianguo Zhao and D. Feili and H. Vollm and T. Panidis and B. Ma and H. Seidel",

year = "2012",

doi = "10.1109/ICSENS.2012.6411243",

language = "英语",

isbn = "9781457717659",

series = "Proceedings of IEEE Sensors",

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AU - Zhao, Jianguo

AU - Feili, D.

AU - Vollm, H.

AU - Panidis, T.

AU - Ma, B.

AU - Seidel, H.

PY - 2012

Y1 - 2012

N2 - This work introduces a miniature vortex sensor which can measure vorticity of turbulent flow, especially at moderate and high turbulence intensity in the small scale flow domain. The vorticity is extracted mathematically from the measurement of velocities and velocity gradients via several spatially separated individual hot wires. The complete vortex sensor consists of nine micro platinum hot wires with a specific spatial arrangement. All wires are fabricated using standard MEMS processes and they are assembled mechanically to a spatial 3D structure. The characteristic sizes of the platinum hot wires were strongly reduced down to a minimum value of 260 nm. This allows the measurement of smaller vortices and, thus, higher vorticity frequencies. The TCR (temperature coefficient of resistance) was measured to be 0.217 %/K and the time constant was estimated to be below 10 μs.

AB - This work introduces a miniature vortex sensor which can measure vorticity of turbulent flow, especially at moderate and high turbulence intensity in the small scale flow domain. The vorticity is extracted mathematically from the measurement of velocities and velocity gradients via several spatially separated individual hot wires. The complete vortex sensor consists of nine micro platinum hot wires with a specific spatial arrangement. All wires are fabricated using standard MEMS processes and they are assembled mechanically to a spatial 3D structure. The characteristic sizes of the platinum hot wires were strongly reduced down to a minimum value of 260 nm. This allows the measurement of smaller vortices and, thus, higher vorticity frequencies. The TCR (temperature coefficient of resistance) was measured to be 0.217 %/K and the time constant was estimated to be below 10 μs.

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DO - 10.1109/ICSENS.2012.6411243

M3 - 会议稿件

AN - SCOPUS:84873959986

SN - 9781457717659

T3 - Proceedings of IEEE Sensors

BT - IEEE SENSORS 2012 - Proceedings

T2 - 11th IEEE SENSORS 2012 Conference

Y2 - 28 October 2012 through 31 October 2012

ER -

A low cost miniature vortex sensor for turbulence measurement

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