372 / 2021-08-12 10:32:22
A method and structure design for identification of analyte concentration in aqueous solution by using a mistuned fluid-structure coupled vibration
Mistuned vibration,Fluid-structure interaction,Analyte concentration,High sensitivity
Draft Accepted
Yugang Chen / Dalian University of Technology
Yong-Hwa Park / Korea Advanced Institute of Science and Technology
In this paper, a new vibration structure is presented for the measurement of analyte concentration of an aqueous solution, using a magnitude change of frequency response induced by the mistuned fluid-structure coupled vibration of the suggested structure immersed in a liquid. Firstly, the measurement principle is explained by analysing natural characteristics and mistuned responses of the suggested symmetric structure by using finite element method (FEM). Then added mass effect induced by the fluid-structure interaction is formulated, by which the variations of the analyte concentration can be manifested into the change of the added mass acting on the suggested structure. Based on the added mass effect and the mistuned vibration characteristics of the proposed structure, the resonant amplitudes of the structure are investigated under different fluid densities and this method shows much higher sensitivity than the frequency changes used in previous works. Lastly, the experimental system was optimized and simulated for detecting glucose concentration at human blood glucose level and noticeable differences were observed for different glucose concentrations. The results reveal the feasibility of glucose measurement for health sensor applications.
Important Date
  • Conference Date

    Nov 01

    2022

    to

    Nov 03

    2022

  • Oct 30 2022

    Draft paper submission deadline

  • Nov 09 2022

    Registration deadline

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Qingdao University of Technology