Accurate and quickly responsive surface temperature measurement: a step to widespread non-invasive T-measurement in industry

2019 IEEE International Instrumentation and Measurement Technology Conference (I2MTC) Pub Date : 2019-05-01 DOI:10.1109/I2MTC.2019.8827002

Jörg Gebhardt, W. Daake, Peter Ude, K. Schröder, G. Sosale

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引用次数: 6

Abstract

Non-invasive temperature sensing has the potential to considerably enhance the safety and simplicity of temperature measurement in industrial process facilities. By accurately and reliably measuring the outer wall temperature of a piping conveying a liquid, the needs for a traditional invasive device can be eliminated in many common process circumstances. However, surface sensors are not widely used largely due to two factors: ambiguity of the process conditions that allow for surface measurements and inaccuracies that arise from improper device design and installation. This paper outlines the key process conditions where surface measurements would suffice. It also subsequently presents a framework for modeling a surface measurement sensor with insights on how to improve the measurement accuracy. Experiments with a device that utilizes the derived insights are presented which demonstrate temperature measurement performance equivalent to traditional invasive sensors.

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准确和快速响应的表面温度测量:在工业中广泛的非侵入性t测量的一步

非侵入式温度传感有可能大大提高工业过程设施温度测量的安全性和简单性。通过准确可靠地测量输送液体的管道的外壁温度，可以在许多常见的工艺环境中消除对传统侵入式设备的需求。然而，表面传感器并没有被广泛使用，主要是由于两个因素:允许表面测量的工艺条件的模糊性，以及由不适当的设备设计和安装引起的不准确性。本文概述了表面测量足够的关键工艺条件。随后还提出了一个框架，用于对如何提高测量精度的表面测量传感器进行建模。利用该装置的实验证明了与传统侵入式传感器相当的温度测量性能。

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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2019 IEEE International Instrumentation and Measurement Technology Conference (I2MTC)

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