Abstract:
In this thesis, We discuss the fabrication of the experimental setups for Seebeck coefficient (α) and thermal conductivity (k) measurement at high temperature. We also discuss the fabrication of high temperature figure of merit (Z T) measurement setup, which can measure , and electrical resistivity , simultaneously to find out Z T value. Simple design and use of minimal components make these
setups compact, lightweight, and more user-friendly. A dedicated thin heater is built to heat the sample. It's small cross section (8mm 8mm) and very low thickness ( 1mm) minimizes the heat loss and further simplified the sample holder design. Heat loss value required for thermal conductivity measurement has been found out by developing a simple measurement methodology based on the parallel
thermal conductance technique. Low heat loss is achieved by using gypsum insulator block and by optimizing its dimension. The requirement of more number of sensors and wires in the simultaneous measurement of α, κ, and ρ have been resolved by performing temperature as well as voltage measurements using same
thermocouples. Use of commonly available low-cost materials and in-house fabrication of components including thin heater reduces the cost of the setup. It also provides low cost and easy replacement of any parts in case of damage. Low cost, lightweight, compact design, and use of minimal components are the key features of these measurement setups.
