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A Study On the Radiation Corrections Applied to Thermocouple Measurements in Non-premixed Counterflow Flames  

오율권 (조선대학교 기계공학부)
허준영 (트렉셀대학교 기계공학과)
차경옥 (명지대학교 기계공학부)
Publication Information
Journal of Advanced Marine Engineering and Technology / v.26, no.2, 2002 , pp. 209-218 More about this Journal
Abstract
The temperature field of a counterflow non-premixed flame is investigated using thermocouples of two sizes. A thermal balance is performed on the thermocouple in order to calculate the magnitude of the radiation corrections involved. Both the thermocouple wire and bead are separately considered to be the relevant thermal surface to which convective heat transfer takes place, and from which radiation lasses occur. The flame is also simulated by using a detailed chemical kinetic mechanism in a previously developed computer code. The local thermo-physical properties of the gas mixture, required to calculate the corrections, are determined both from the simulation, and by approximating the properties of the mixture as those of molecular nitrogen at the measured temperatures. It is concluded that the thermocouple wire is the appropriate thermal surface to which radiation corrections apply, in the absence of information about the gas mixture, its properties can be reasonably approximated by those of nitrogen rm ($N_2$), and the radiation corrections are very sensitive to misalignments in the temperature and velocity fields.
Keywords
Radiation correction method; Heat flux; Transient effects; Convection heat transfer coefficient; Laser doppler velocimetry;
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