M. J. Mutton scite author profile

M. J. Mutton

5Publications

31Citation Statements Received

10Citation Statements Given

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107

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Industrial Measurement Systems (United States)

Publications

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Heat Flux Determination From Ultrasonic Pulse Measurements

Myers

Walker

Yuhas

et al. 2008

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Ultrasonic time of flight measurements have been used to estimate the interior temperature of propulsion systems remotely. All that is needed is acoustic access to the boundary in question and a suitable model for the heat transfer along the path of the pulse train. The interior temperature is then deduced from a change in the time of flight and the temperature dependent velocity factor, which is obtained for various materials as a calibration step. Because the acoustic pulse samples the entire temperature distribution, inverse data reduction routines have been shown to provide stable and accurate estimates of the unknown temperature boundary. However, this technique is even more interesting when applied to unknown heat flux boundaries. Normally, the estimation of heat fluxes is even more susceptible to uncertainty in the measurement compared to temperature estimates. However, ultrasonic sensors can be treated as extremely high-speed calorimeters where the heat flux is directly proportional to the measured signal. Through some simple one-dimensional analyses, this work will show that heat flux is a more natural and stable quantity to estimate from ultrasonic time of flight. We have also introduced an approach for data reduction that makes use of a composite velocity factor, which is easier to measure.

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A comparison of extended Kalman filter, ultrasound time-of-flight measurement models for heating source localization

Myers

Jorge

Mutton

et al. 2012

Inverse Problems in Science and Engineering

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High heat flux point source sensitivity and localization analysis for an ultrasonic sensor array

Myers

Jorge

Mutton

et al. 2012

International Journal of Heat and Mass Transfer

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A comparison of extended Kalman filter, particle filter, and least squares localization methods for a high heat flux concentrated source

Myers

Jorge

Mutton

et al. 2012

International Journal of Heat and Mass Transfer

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Thermal Measurement of Harsh Environments Using Indirect Acoustic Pyrometry

Schmidt

Walker

Yuhas

et al. 2007

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The inversion of a composite governing equation for the estimation of a boundary heat flux from ultrasonic pulse data is INTRODUCTIONRemote sensing of temperature-and perhaps more importantly heat flux-is critical to a number of applications such as wind tunnel measurements, combustion chambers and large gun barrels. Each of these applications involve extremely harsh environments where sensors are not likely to survive or where measurement devices would interfere with the operation of the system. Furthermore, these applications involve high heat fluxes and fast transients. Consequently, high resolution transient characterization of these inaccessible thermal environments is difficult. Using ultrasonic pulses through a conducting wall and inverse methods, the present effort will demonstrate the feasibility

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M. J. Mutton

Heat Flux Determination From Ultrasonic Pulse Measurements

A comparison of extended Kalman filter, ultrasound time-of-flight measurement models for heating source localization

High heat flux point source sensitivity and localization analysis for an ultrasonic sensor array

A comparison of extended Kalman filter, particle filter, and least squares localization methods for a high heat flux concentrated source

Thermal Measurement of Harsh Environments Using Indirect Acoustic Pyrometry

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