posted on 2020-08-11, 13:40authored byH. Dong, Wenhui Zhao, Tong Sun, Kenneth T.V. Grattan, AI Al-Shamma'a, C. Wei, Jim Mulrooney, John Clifford, Colin FitzpatrickColin Fitzpatrick, Elfed LewisElfed Lewis, M. Degner, Hartmut Ewald, Steffen Lochmann, G. Bramann, E.M. Borla, P. Faraldi, M. Pidria
A fluorescence-based temperature sensor system using a digital signal processing approach has been developed and evaluated in operation on a working automotive engine. The signal processing approach, using the least squares method, makes the system relatively insensitive to intensity variations in the probe and thus provides more precise measurements when compared to a previous system designed using analogue phase-locked detection. Experiments carried out to determine the emission temperatures of a running car engine have demonstrated the effectiveness of the sensor system in monitoring exhaust temperatures up to 250oC, and potentially higher
Funding
Study on Aerodynamic Characteristics Control of Slender Body Using Active Flow Control Technique