2023
DOI: 10.3390/s23031627
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Development of Measurement Method for Temperature and Velocity Field with Optical Fiber Sensor

Abstract: We have developed a new method for measuring temperature and velocity at a high spatial resolution (minimum 2.56 mm pitch along an optical fiber). The developed method uses the same principle as a hot wire anemometer, where the velocity perpendicular to an optical fiber is estimated as a function of the cooling curve of a gold-coated layer on the optical fiber Joule-heated intermittently. The developed optical fiber sensor demonstrated the ability to acquire a transient velocity profile in airflow experiments … Show more

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Cited by 4 publications
(5 citation statements)
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“…However, the center wavelengths of the RGB elements of a color camera are approximately 100 nm apart, which limits the ability to measure slight color changes with high precision. In a previous study, we constructed a two-wavelength spectral optical system (center wavelengths: 570 and 610 nm), to improve the accuracy of the temperature measurement in the wavelength range of yellow to red coloration [ 19 ]. Pyrromethene 597 phosphor showed a slight temperature dependence on the fluorescence center wavelength [ 19 ], allowing for the temperature distribution of the optical fluorescent material in a two-wavelength spectrometer to be measured at two wavelengths.…”
Section: Measurement Methods and Experimental Setupmentioning
confidence: 99%
See 2 more Smart Citations
“…However, the center wavelengths of the RGB elements of a color camera are approximately 100 nm apart, which limits the ability to measure slight color changes with high precision. In a previous study, we constructed a two-wavelength spectral optical system (center wavelengths: 570 and 610 nm), to improve the accuracy of the temperature measurement in the wavelength range of yellow to red coloration [ 19 ]. Pyrromethene 597 phosphor showed a slight temperature dependence on the fluorescence center wavelength [ 19 ], allowing for the temperature distribution of the optical fluorescent material in a two-wavelength spectrometer to be measured at two wavelengths.…”
Section: Measurement Methods and Experimental Setupmentioning
confidence: 99%
“…In a previous study, we constructed a two-wavelength spectral optical system (center wavelengths: 570 and 610 nm), to improve the accuracy of the temperature measurement in the wavelength range of yellow to red coloration [ 19 ]. Pyrromethene 597 phosphor showed a slight temperature dependence on the fluorescence center wavelength [ 19 ], allowing for the temperature distribution of the optical fluorescent material in a two-wavelength spectrometer to be measured at two wavelengths. The Lumisis phosphors employed in this study are a combination of green and red phosphors, allowing for two-wavelength measurements using the red and green imaging elements of a color camera without modification.…”
Section: Measurement Methods and Experimental Setupmentioning
confidence: 99%
See 1 more Smart Citation
“…Optical-fiber-based sensors are becoming increasingly mature and in greater demand in the fields of energy, biotechnology, biomedicine, superconducting magnets, automotive technology, aerospace, healthcare, and civil engineering [ 1 , 2 , 3 , 4 , 5 , 6 ]. These sensors have been extensively researched due to their advantages, such as passive operation, ease of fabrication, compact size, resistance to corrosion, remote sensing ability, capacity for distant sensing, and resistance to electromagnetic interference [ 7 , 8 , 9 , 10 , 11 ].…”
Section: Introductionmentioning
confidence: 99%
“…Optical fibre makes it possible to significantly increase the sensitivity of measuring systems, capturing even the slightest fluctuations in gas flow. M. Sekine and M. Furuya compared the technical specifications of the traditional method based on a hot-wire anemometer and HWAs with a fibre-optic sensor [ 14 ]. The comparison was made for airflow velocities up to 7 m/s.…”
Section: Introductionmentioning
confidence: 99%