Simultaneous Microfluidic Flow Velocity and Thermal Conductivity Measurement Utilizing Screen Printed Thermal Sensors

  • Marcus Hintermüller (Speaker)
  • Christina Offenzeller (Speaker)
  • Marcel Knoll (Speaker)
  • Jakoby, B. (Speaker)
  • Hilber, W. (Speaker)

Activity: Talk or presentationPoster presentationscience-to-science

Description

This work presents a screen printed sensor that integrates the monitoring of flow velocity and thermal conductivity of a fluid in a microchannel. A modified anemometer principle is utilized to determine the flow velocity, which accounts for spurious heat transfer paths, e.g., in the substrate or channel walls. The sensor is fabricated by screen printing and tested using three different fluids at varying flow velocities. It is shown that the devised sensor setup is feasible for sensing both, flow velocity and thermal conductivity of the fluid.
Period28 Oct 2019
Event titleIEEE Sensors 2019
Event typeConference
LocationCanadaShow on map

Fields of science

  • 202028 Microelectronics
  • 202027 Mechatronics
  • 202037 Signal processing
  • 202036 Sensor systems
  • 202 Electrical Engineering, Electronics, Information Engineering
  • 202021 Industrial electronics
  • 203017 Micromechanics
  • 202019 High frequency engineering

JKU Focus areas

  • Digital Transformation

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