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Project Details
Description
Most industrial processes rely on temperature measurement, which directly influences product quality, energy efficiency, and emissions. All conventional temperature sensors exhibit calibration drift leading to inefficiencies. Poor surface thermometry causes process control problems in advanced manufacturing. Poor gas thermometry causes sub-optimal noxious emissions and reduced efficiency. This project will overcome specific process control challenges by implementing embedded traceable thermometry in situ through driftless practical primary thermometry and self-validation, gas/combustion thermometry, and new traceable surface temperature measurement methods. Traceability [1] will be either directly to the redefined SI kelvin [2], or indirectly via the International Temperature Scale of 1990 (ITS-90) [3].
Notes
funding: EURAMET - UK Horizon Europe Guarantee IFS
Total EU contribution: 2.3m Euros
Total EU contribution: 2.3m Euros
| Short title | SRT-i17 ThermoTRACE |
|---|---|
| Acronym | 23IND11 ThermoSI |
| Status | Active |
| Effective start/end date | 1/09/24 → 31/08/27 |
Keywords
- Thermometry
- traceability
- thermal imaging
- Johnson noise thermometry
- phosphor thermometry
- Self-validating thermocouples
- Artificial intelligence
- machine learning
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Projects
- 2 Finished
-
EMPRESS2_17ICD04_Enhancing process efficiency through improved temperature measurement (EUROMET)
Heyes, A. (Principal Investigator) & Andreu, A. (Co-investigator)
European Commission - Horizon Europe + H2020
1/05/18 → 30/10/21
Project: Research
-
AFRC_CRAD_191_EMPRESS
Andreu, A. (Co-investigator), Pearce, J. (Principal Investigator), Machin, G. (Co-investigator), Sutton, G. (Co-investigator), Edler, F. (Co-investigator), Elliott, C. (Co-investigator) & Rosso, L. (Co-investigator)
1/05/15 → 30/04/18
Project: Research