Review of industrial temperature measurement technologies and research priorities for the thermal characterisation of the factories of the future

Ross-Pinnock, David; Maropoulos, Paul

doi:10.1177/0954405414567929

Cited by 54 publications

(27 citation statements)

References 85 publications

(121 reference statements)

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“…9(c)]. The difference between the temperature measured with our system and that one measured with the commercial thermistor is acceptable because most of commercial DTS systems offer ±1 °C absolute temperature error [20]. This error is mainly because of the different calibration techniques applied for the optical fiber DTS and thermistor.…”

Section: Simultaneous Vibration and Temperaturementioning

confidence: 94%

Simultaneous Distributed Acoustic and Temperature Sensing Using a Multimode Fiber

Mao

Ashry

Hveding

et al. 2020

IEEE J. Select. Topics Quantum Electron.

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Fiber optic distributed acoustic sensor (DAS) and distributed temperature sensor (DTS) are considerably important for many applications. It is challenging to design a hybrid DAS-DTS system using the same optical fiber because the operation principles of the two sensors are different. We here deploy the widespread standard multimode fiber (MMF) for simultaneous distributed acoustic and temperature sensing. In particular, we operate the MMF in a quasi-single-mode (QSM) state to simultaneously fulfill the functionality requirements of the DAS and DTS. The reported design offers simultaneous vibration and temperature monitoring with high accuracy. In particular, the DAS has a 12.98 dB mean signal-to-noise ratio (SNR) and the DTS offers temperature measurements with ±1 °C accuracy. This technique is significant for many industrial applications because it efficiently tackles a longstanding issue in practical implementation.

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Section: Simultaneous Vibration and Temperaturementioning

confidence: 94%

Simultaneous Distributed Acoustic and Temperature Sensing Using a Multimode Fiber

Mao

Ashry

Hveding

et al. 2020

IEEE J. Select. Topics Quantum Electron.

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“…This has led to the proposal of a hybrid approach [9,10] as suggested in Figure 2. In the upper part of the figure, the nominal geometry (provided by the CAD model) is used to make predictions about how deformations occur.…”

Section: Thermal Compensationmentioning

confidence: 99%

“…The aim of this paper is to explore a "hybrid approach" to metrology [9,10] in which measurements of a component (in non-ideal conditions) are used hand-in-hand with a nominal geometry model of that component. There is then a need to be able to map between measurement space and the nominal space.…”

Section: Introductionmentioning

confidence: 99%

Thermal compensation for large volume metrology and structures

Yang

Ross-Pinnock

Muelaner

et al. 2017

Int. J. Metrol. Qual. Eng.

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Abstract. Ideally metrology is undertaken in well-defined ambient conditions. However, in the case of the assembly of large aerospace structures, for example, measurement often takes place in large uncontrolled production environments, and this leads to thermal distortion of the measurand. As a result, forms of thermal (and other) compensation are applied to try to produce what the results would have been under ideal conditions. The accuracy obtained from current metrology now means that traditional compensation schemes are no longer useful. The use of finite element analysis is proposed as an improved means for undertaking thermal compensation. This leads to a "hybrid approach" in which the nominal and measured geometry are handled together. The approach is illustrated with a case study example.

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“…But the most common (about 50 %) are temperature measurements. For example, the average nuclear power plant has approximately 1500 control (measuring) points for temperature measurement, and large-scale chemical production has about 20 thousand of them [1][2][3].…”

Section: Introductionmentioning

confidence: 99%

Novel Approach of Non-linearity Analyses of Resistive Temperature Sensors

Younes¹

2019

RIA

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The non-linearity analysis is one of the most important issue when defining the static characteristics of temperature sensors, namely thermoresistive sensors. The purpose of this work is to propose a simple approach based on measuring the signal conditioning parameters to define the model of measured temperature. The developed approach is utilized to obtain a relationship between the bridge parameters and the final measured value of temperature. The data acquisition and signal processing are carried out by Arduino Uno and LabVIEW software.

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Review of industrial temperature measurement technologies and research priorities for the thermal characterisation of the factories of the future

Cited by 54 publications

References 85 publications

Simultaneous Distributed Acoustic and Temperature Sensing Using a Multimode Fiber

Simultaneous Distributed Acoustic and Temperature Sensing Using a Multimode Fiber

Thermal compensation for large volume metrology and structures

Novel Approach of Non-linearity Analyses of Resistive Temperature Sensors

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