Title :
High-temperature thermoelectric power generation module of layered oxides improved by multistage structure with Bi-Te module
Author :
Asahi, Ryoji ; Tani, Toshihiko ; Itahara, Hiroshi ; Kaga, Hisashi ; Okuda, Katsuharu
Author_Institution :
Toyota Central R&D Labs. Inc., Aichi, Japan
Abstract :
A novel multistage module of layered oxides combined with Bi-Te module has been developed for high-temperature thermoelectric power generation. For the oxides module, we used highly-textured [Ca2CoO3]O0.62[CoO2] (p-type) and Ca-doped (ZnO)3In2O3 (n-type) ceramics. We employed a bridge-type thermoelectric module using 10 p-n pairs of the layered oxides. In addition, we connected the oxides module to Bi-Te modules at its both sides to improve performance. The module typically gave temperature differences of 415 K and 60 K for the oxides and Bi-Te modules, respectively, with an exposure of the alcohol lamp. The maximum output power and power density were 704 mW and 440 mW/cm2. The stability without any passivation provided a practical demonstration for high-temperature thermoelectric applications.
Keywords :
bismuth alloys; calcium; calcium compounds; ceramics; tellurium alloys; thermoelectric conversion; thermoelectric power; zinc compounds; (ZnO)3In2O3:Ca; 704 mW; BiTe; [Ca2CoO3]0.62[CoO2]; alcohol lamp; high-temperature thermoelectric applications; layered oxides; multistage structure; passivation; power density; thermoelectric power generation module; Ceramics; Contact resistance; Heat transfer; Lamps; Passivation; Power generation; Temperature; Thermal stability; Thermoelectricity; Zinc oxide;
Conference_Titel :
Thermoelectrics, 2005. ICT 2005. 24th International Conference on
Print_ISBN :
0-7803-9552-2
DOI :
10.1109/ICT.2005.1519960
