An experimental method for effusivity determination of different scratched temperature sensors

2009 3rd International Conference on Energy and Environment (ICEE) Pub Date : 2009-12-01 DOI:10.1109/ICEENVIRON.2009.5398639

H. Mohammed, H. Salleh, M. Yusoff

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Abstract

This paper presents an experimental method for evaluating the effusivity values of different scratched temperature sensors. These sensors have a response time on the order of microseconds (50 µs) with a rise time less than (0.3 µs). Two types of scratch were used, mainly abrasive papers with different grit sizes and scalpel blades with different thicknesses to form the sensor junction. The effect of scratch technique on the sensor's effusivity is also investigated. The sensors were tested and calibrated in the test section of a shock tube facility at different operating conditions. It was observed that the effusivity of a particular sensor depends on the Mach number, scratch technique, junction location as well as on the enthalpy condition. It was also noticed that sensor scratched using scalpel blade technique does not require an individual calibration. However, for sensor scratched using abrasive paper technique, a calibration for each sensor is likely to be required. The present results have provided useful and practical data of the effusivity values for different scratched temperature sensors. These data are beneficial to the experimentalists in the field and it can be used for accurate transient heat transfer rate measurements.

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一种测定不同挠性温度传感器流通量的实验方法

本文提出了一种测量不同挠性温度传感器射流系数的实验方法。这些传感器的响应时间为微秒级(50µs)，上升时间小于(0.3µs)。使用两种类型的划痕，主要是不同粒度的砂纸和不同厚度的手术刀刀片，形成传感器连接点。研究了划痕技术对传感器流通量的影响。在激波管装置的试验段中，对传感器进行了不同工况下的测试和校准。观察到，特定传感器的射流率取决于马赫数、划痕技术、结位置以及焓条件。还注意到，使用手术刀刀片技术划伤传感器不需要单独校准。然而，对于使用研磨纸技术的传感器划伤，可能需要对每个传感器进行校准。本文的研究结果为不同的刻痕温度传感器提供了有用的实用数据。这些数据对现场的实验人员很有帮助，可以用于精确的瞬态换热率测量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2009 3rd International Conference on Energy and Environment (ICEE)

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