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Extreme-Condition Sensors for Use with Electrical Capacitance VolumeTomography & Capacitance Sensing Applications

Engineering & Physical Sciences
Electronics & Photonics
Instrumentation
Sensors & Controls
College
College of Engineering (COE)
Researchers
Marashdeh, Qussai
Alghothani, Yousef
Hudak, Jesse
Legg, Geoffrey
Straiton, Benjamin
Tong, Andrew
Licensing Manager
Ashouripashaki, Mandana
5125867192
ashouri.2@osu.edu

T2017-455 A modular and non-invasive ECVT sensor that can be adapted and scaled to vessel demands.

The Need

Electrical Capacitance Volume Tomography (ECVT) is a non-invasive image reconstruction that provides volumetric images of a material. An ECVT system is generally comprised of a sensor, data acquisition system, computer system, and software for reconstruction of the 3D image. Capacitance data collected from the electrodes or plates placed around or near the region of interest are used to achieve the image reconstruction. In ECVT, sensor plates are generally distributed around the circumference or along the edge of a vessel under interrogation. If the plates are along the outside of the vessel, the vessel itself should not be an electrical conductor in order for the electric field to penetrate the region of interest. This presents a challenge in high pressure and high temperature applications, where such high-pressure high temperature vessels are usually made of steel or other electrical conductors.

The Technology

Researchers at The Ohio State University, have developed a novel, non-invasive ECVT sensor that operates in harsh environments allowing for measurements of high pressure flow systems. The general design consists of capacitance plates arranged on the inner surface of a high-strength vessel held in place by bolts. This arrangement allows the force to be transmitted from the capacitance plates to the outer high-strength vessel. Each capacitance plate is electrically connected to a data collection unit via the bolt that affixes the capacitance plate. The capacitance plate is coated on the fluid side with a dielectric material which allows for the formation of a capacitor for ECVT measurements and can withstand high temperature, highly abrasive, and highly corrosive conditions. Examples of materials used for the coating include ceramics and high temperature plastics. The device has been designed to be entirely modular so that components are easily replaced.

Commercial Applications

  • Multiphase Flow Applications in Industrial Food, Pharmaceuticals, Petrochemical, and Power Generation Processes
  • Single Phase Applications Requiring Non-Invasive Imaging or Monitoring

Benefits/Advantages

  • The developed ECVT sensor can withstand extreme environments including high pressure, high temperature, highly abrasive and highly corrosive environments
  • The design of the present invention allows the sensor to be scalable to accommodate any vessel size or geometry
  • The modular design allows for various, configurations, and spacing of plates