Thermocouple measurements of the gas temperatures in a constricted column discharge

= velocity integrals defined by Eqs. 17 and 18 = velocity function, defined by Eq. 6 = constants, defined by Eqs. 1 to 3 and 12 to 14 = jet exit radius (m) = radius of potential core (m) = radius of jet edge (m) = velocity at jet exit (m/s) = length of potential core (m) = radial distance, Figure 1

A new correctional calculation method is proposed for measurements of temperature profiles in flames with a thermocouple. This method includes an iterative procedure of correcting a temperature prof'de with respect to conductive and radiative heat losses. Experiments were performed on hydrogen-air

## Abstract Aim of this work is to model and study the behavior of thermocouples as they are used in the measurement of gas temperatures in solid oxide fuel cell systems. Due to the high temperature regime in such systems, the effect of radiation and conduction from surrounding solids may bias the

A thermocouple device for the measurement of the surface temperature of a liquid metal when non-uniform and/or rapidly changing temperatures exist in the liquid is described. A mathematical analysis of its principle is made from which the accuracy of its measurements are calculated and plotted.