A method for time and spatially resolved measurement of convective heat transfer coefficient (h) in complex flows
Résumé
A miniaturized plane probe (5 x 5 x 1.1 mm(3)) was developed to measure on-line local and unsteady convective heat transfer coefficients (h) in complex flows. The proposed method is in particular dedicated to assess h at the surface of porous media subjected to mass transport that interacts with the surrounding flow such as those that occur between a partially saturated porous medium and hot fluid phase (superheated steam, oil, etc.). The active h-probe consisted of a combination of a film heater sandwiched between two heat flux sensors, and h was obtained on each side from temperature and flux outputs of flux sensors in response to a periodic input of heating (maximum increase in probe surface temperature < 2.5°C. In controlled hydrodynamic conditions, it was found that 3 cycles of 1 Hz measurements ensured h relative errors ranged between -3% and -0.5% with 98% confidence for h values ranged between 200 and 500 W m(-2) K(-)1.