Dynamic calibration and performance of reliable and fast-response coaxial temperature probes in a shock tube facility
An experimental dynamic calibration technique of reliable, rugged, low-cost, and fast-response coaxial temperature probes is presented. These probes were successfully designed and fabricated in-house, in conjunction with its signal processing circuit, which can be used for transient heat transfer me...
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my.uniten.dspace-304872023-12-29T15:48:23Z Dynamic calibration and performance of reliable and fast-response coaxial temperature probes in a shock tube facility Mohammed H.A. Salleh H. Yusoff M.Z. 15837504600 24067645400 7003976733 dynamic calibration experimental performance fast response shock tube facility temperature probes thermal product Abrasives Aerodynamics Calibration Heating Mach number Shock tubes Signal processing Tubes (components) Dynamic calibration experimental performance Fast response shock tube facility temperature probes thermal product Probes An experimental dynamic calibration technique of reliable, rugged, low-cost, and fast-response coaxial temperature probes is presented. These probes were successfully designed and fabricated in-house, in conjunction with its signal processing circuit, which can be used for transient heat transfer measurements in a hypersonic testing facility. These probes have a response time less than 50 ?s with a rise time less than 0.3 ?s. Two types of scratches were used, mainly abrasive papers with different grit sizes and scalpel blades with different thicknesses to form the probe junction. The effect of the scratch technique on the probe's thermal product is investigated. The probes were tested and calibrated in the test section and end wall of the UNITEN shock tube facility at different axial and radial locations. The effects of placing the coaxial temperature probe at different axial and radial distances, different working fluids, and different Mach numbers on the transient surface temperature rise were examined. It was observed from the dynamic calibration results that the thermal product of a particular coaxial temperature probe depends on Mach number, junction scratch technique, and junction location, as well as on the enthalpy conditions. It was also noticed that the calibrated coaxial temperature probe using the scalpel blade technique with a particular blade size gives consistent thermal product values. Thus, it does not require an individual calibration. However, for a coaxial temperature probe whose junction was created using the abrasive paper technique with different grit sizes, a calibration for each coaxial temperature probe is likely to be needed. Copyright � Taylor & Francis Group, LLC. Final 2023-12-29T07:48:23Z 2023-12-29T07:48:23Z 2011 Article 10.1080/08916152.2010.482752 2-s2.0-79952916835 https://www.scopus.com/inward/record.uri?eid=2-s2.0-79952916835&doi=10.1080%2f08916152.2010.482752&partnerID=40&md5=ce42d81e90f43a09543cebb56fae5e47 https://irepository.uniten.edu.my/handle/123456789/30487 24 2 109 132 Scopus |
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dynamic calibration experimental performance fast response shock tube facility temperature probes thermal product Abrasives Aerodynamics Calibration Heating Mach number Shock tubes Signal processing Tubes (components) Dynamic calibration experimental performance Fast response shock tube facility temperature probes thermal product Probes |
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dynamic calibration experimental performance fast response shock tube facility temperature probes thermal product Abrasives Aerodynamics Calibration Heating Mach number Shock tubes Signal processing Tubes (components) Dynamic calibration experimental performance Fast response shock tube facility temperature probes thermal product Probes Mohammed H.A. Salleh H. Yusoff M.Z. Dynamic calibration and performance of reliable and fast-response coaxial temperature probes in a shock tube facility |
| description |
An experimental dynamic calibration technique of reliable, rugged, low-cost, and fast-response coaxial temperature probes is presented. These probes were successfully designed and fabricated in-house, in conjunction with its signal processing circuit, which can be used for transient heat transfer measurements in a hypersonic testing facility. These probes have a response time less than 50 ?s with a rise time less than 0.3 ?s. Two types of scratches were used, mainly abrasive papers with different grit sizes and scalpel blades with different thicknesses to form the probe junction. The effect of the scratch technique on the probe's thermal product is investigated. The probes were tested and calibrated in the test section and end wall of the UNITEN shock tube facility at different axial and radial locations. The effects of placing the coaxial temperature probe at different axial and radial distances, different working fluids, and different Mach numbers on the transient surface temperature rise were examined. It was observed from the dynamic calibration results that the thermal product of a particular coaxial temperature probe depends on Mach number, junction scratch technique, and junction location, as well as on the enthalpy conditions. It was also noticed that the calibrated coaxial temperature probe using the scalpel blade technique with a particular blade size gives consistent thermal product values. Thus, it does not require an individual calibration. However, for a coaxial temperature probe whose junction was created using the abrasive paper technique with different grit sizes, a calibration for each coaxial temperature probe is likely to be needed. Copyright � Taylor & Francis Group, LLC. |
| author2 |
15837504600 |
| author_facet |
15837504600 Mohammed H.A. Salleh H. Yusoff M.Z. |
| format |
Article |
| author |
Mohammed H.A. Salleh H. Yusoff M.Z. |
| author_sort |
Mohammed H.A. |
| title |
Dynamic calibration and performance of reliable and fast-response coaxial temperature probes in a shock tube facility |
| title_short |
Dynamic calibration and performance of reliable and fast-response coaxial temperature probes in a shock tube facility |
| title_full |
Dynamic calibration and performance of reliable and fast-response coaxial temperature probes in a shock tube facility |
| title_fullStr |
Dynamic calibration and performance of reliable and fast-response coaxial temperature probes in a shock tube facility |
| title_full_unstemmed |
Dynamic calibration and performance of reliable and fast-response coaxial temperature probes in a shock tube facility |
| title_sort |
dynamic calibration and performance of reliable and fast-response coaxial temperature probes in a shock tube facility |
| publishDate |
2023 |
| _version_ |
1806428012478988288 |
| score |
13.214268 |