Localized Radiofrequency Heating for Enhanced Thermoelectric Energy Generation Using Natural Galena Ore
Abstract
The efficiency of thermoelectric devices can be significantly enhanced by maintaining a stable temperature gradient, which can be achieved through localized heating. Radio waves serve as an ideal heat source for this purpose. In this study, we demonstrate the enhancement of thermoelectric performance in earth-abundant natural ore Galena (PbS) through localized radio frequency (RF) heating. RF heating experiments conducted at frequencies between 35MHz and 45MHz induced substantial localized heating in PbS, generating a temperature gradient of 32K. This resulted in a Seebeck voltage of -5.8mV/K, approximately 13 times greater than the conventional Seebeck coefficient of PbS (440 V/K). Additionally, a power factor of 151mWm-1K-2 and an overall RF to thermoelectric conversion efficiency of 15\% were achieved. Molecular dynamics simulations corroborate the experimental findings, providing insights into the mechanism of thermal transport and RF-induced heating in PbS. These results highlight the potential of localized RF heating as an effective strategy for enhancing thermoelectric performance, with promising implications for ambient thermoelectric energy harvesting applications.
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