Thermal Conductivity Measurement of Liquids by Using a Suspended Microheater

摘要

In this paper, the traditional 3 omega method is modified in order to measure the thermal conductivity of a droplet of liquid. The 3 omega sensor is microfabricated using bulk silicon etching on a silicon wafer to form a microheater on a suspended bridge structure. The Si substrate of over 400 mu m thickness beneath the microheater is etched away so that the sample liquid can fill the gap created between the heater and the bottom boundary of the sensor. The frequency of the sinusoidal heating pulses that are generated from the heater is controlled such that the thermal penetration depth is much smaller than the thickness of the liquid layer. The temperature oscillation of the sample fluid is measured at the thin-film heater to calculate the thermal conductivity of the surrounding fluid. The thermal conductivity and measured values of the deionized water and ethanol show a good agreement with the theoretical values at room temperature.