Title page for ETD etd-07252003-134507


Type of Document Dissertation
Author Zhang, Yibing
Author's Email Address zyibing@vt.edu
URN etd-07252003-134507
Title Novel Optical Sensors for High Temperature Measurement in Harsh Environments
Degree PhD
Department Electrical and Computer Engineering
Advisory Committee
Advisor Name Title
Safaai-Jazi, Ahmad Committee Co-Chair
Wang, Anbo Committee Co-Chair
Jacobs, Ira Committee Member
Pickrell, Gary R. Committee Member
Stolen, Roger Hall Committee Member
Keywords
  • Fiber optic sensors
  • Temperature
  • Polarimetry
  • Birefringence
  • Low-coherence interferometry
Date of Defense 2003-07-24
Availability unrestricted
Abstract
Abstract

Accurate measurement of temperature is essential for the safe and efficient operation and control of a vast range of industrial processes. Many of these processes involve harsh environments, such as high temperature, high pressure, chemical corrosion, toxicity, strong electromagnetic interference, and high-energy radiation exposure. These extreme physical conditions often prevent conventional temperature sensors from being used or make them difficult to use. Novel sensor systems should not only provide accurate and reliable temperature measurements, but also survive the harsh environments through proper fabrication material selections and mechanical structure designs.

This dissertation presents detailed research work on the design, modeling, implementation, analysis, and performance evaluation of novel optical high temperature sensors suitable for harsh environment applications. For the first time to our knowledge, an optical temperature sensor based on the broadband polarimetric differential interferometric (BPDI) technology is proposed and tested using single crystal sapphire material. With a simple mechanically structured sensing probe, in conjunction with an optical spectrum-coded interferometric signal processing technique, the proposed single crystal sapphire optical sensor can measure high temperature up to 1600 oC in the harsh environments with high accuracy, corrosion resistance, and long-term measurement stability. Based on the successfully demonstrated sensor prototype in the laboratory, we are confident of the next research step on sensor optimization and scale-up for full field implementations. The goal for this research has been to bring this temperature sensor to a level where it will become commercially viable for harsh environment applications associated with industries.

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