Studying the applicability of different thermoelectric materials for efficiency calculation in hybrid thermoelectric generator for waste heat recovery from automobile and steel industry

Abstract

In this work, we study the suitability of different thermoelectric materials like Bi2Te3, Sb2Te3, PbTe, TAGS, CeFe4Sb12, SiGe and TiO1.1 in estimation of thermoelectric generator's (TEG) efficiency. The efficiency of TEG made up of Be2Te3 or Sb2Te3 gives 7\% in temperature range of 310 K - 500 K. PbTe or TAGS or CeFe4Sb12 gives 6\% in temperature range of 500 K - 900 K and SiGe or TiO1.1 also have remarkable efficiency in higher temperature range i.e 1200 K. Here, we report the enhancement of efficiency by using hybridization technique for different combination of above-mentioned materials. Hybridization of two different materials of TEG module is done by considering compatibility factor aspect. To this end, the proposed values of overall efficiency of TEG by hybridizing Be2Te3 and PbTe; Be2Te3 and TAGS; Bi2Te3 and CeFe4Sb12 are 12\%, 14\% and 11.88\%, respectively, for temperature range of 310 K to 900 K, which can be installed in an automobile. For steel industry and spacecraft application (till 1200 K) hybridization of Bi2Te3, PbTe and SiGe; Be2Te3 and TiO1.1 yields efficiency of 15.2\% and 17.2\%, respectively. The proposed results can be treated as a viable option for engineers, who are looking for fabricating TEG in real life applications such as automobile, spacecraft and steel industry.