Simulation of Heat Transfer Response on Single Leg Themoelectric Materials Behaviour

Abstract: Heat transfer simulation in Bi2Te3, Ca2FeMoO6, and SrTiO3 solid module single-leg had been investigated using COMSOL Multiphysics package. The software COMSOL Multiphysics was used to investigate the temperature distribution, electrical potential distribution, power output, and current vs temperature throughout the length of the sample for Bi2Te3, Ca2FeMoO6, and SrTiO3 which one of these three materials was showing potential as TE materials. The simulation showed that the perovskite material Ca2FeMoO6 and SrTi… Show more

“…Another research was done by Sugahara et al, [24] using an ambient temperature of 1250K, the perovskite material Ca2FeMoO6 was studied which has a strong electrical conductivity but a low thermal conductivity, ZT reaches 0.15 at 1250 K. Next, Ravichandran et al, find that due to the material's high Seebeck coefficient and strong thermal conductivity, which prevent the augmentation of zT, SrTiO3 exhibited a higher ZT, which was 0.2 at 873K [29]. In previous research by Omar et al, [30] three materials, Bi2Te3, SrTiO3 and Ca2FeMoO6 was simulated in COMSOL Multiphysics to study the thermoelectric materials behaviour in a single-leg thermoelectric. The results show that both Ca2FeMoO6 and SrTiO3 generate higher temperature difference and produce higher voltage which are 170mV and 160mV than Bi2Te3.…”

Effect of Thermoelectric Legs on Electrical Performance of Single Leg Teg using Multiphyiscs Simulation

“…Another research was done by Sugahara et al, [24] using an ambient temperature of 1250K, the perovskite material Ca2FeMoO6 was studied which has a strong electrical conductivity but a low thermal conductivity, ZT reaches 0.15 at 1250 K. Next, Ravichandran et al, find that due to the material's high Seebeck coefficient and strong thermal conductivity, which prevent the augmentation of zT, SrTiO3 exhibited a higher ZT, which was 0.2 at 873K [29]. In previous research by Omar et al, [30] three materials, Bi2Te3, SrTiO3 and Ca2FeMoO6 was simulated in COMSOL Multiphysics to study the thermoelectric materials behaviour in a single-leg thermoelectric. The results show that both Ca2FeMoO6 and SrTiO3 generate higher temperature difference and produce higher voltage which are 170mV and 160mV than Bi2Te3.…”

Effect of Thermoelectric Legs on Electrical Performance of Single Leg Teg using Multiphyiscs Simulation