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In this paper, a measurement method for cross-sectional temperature distribution is addressed. A novel method based on an acoustic CT technique is proposed. Specifically, the temperature distributions are estimated using the time of flight data of several ultrasonic propagation paths. The times of the flight data contain both temperature and wind effect, and the method to select only temperature component is introduced. A filtered back projection method is applied to reconstruct the temperature distributions from the time of flight data. An experimental system was designed and fabricated to realize simultaneous temperature and wind velocity distribution measurements. Through this system, the effectiveness of the proposed measurement method is confirmed.
A novel method based on an acoustic CT technique is addressed. Specifically, the temperature distributions are estimated using the time of flight data of several ultrasonic propagation paths. The times of The flight data contain both temperature and wind effect, and the method to select only temperature component is introduced. A experimental back-up method is applied to reconstruct the temperature distributions from the time of flight data. temperature and wind velocity distribution measurements. Through this system, the effectiveness of the proposed measurement method is confirmed.