Thermoelectric Conversion Materials: Design and Development Aimed at Practical Use and Application
Heat recovery utilization, environmental power generation, flexible devices... the latest technologies for effective use of thermoelectric materials.
What are the future prospects of thermoelectric conversion technology? This document summarizes the current status and challenges of material development, as well as the latest initiatives. It is a comprehensive guide that helps understand the key points for the practical application of thermoelectric materials, covering aspects from design and development to modularization, flexibility, and practical case studies.
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Publication Date: December 19, 2014 Price: 55,000 yen + tax Format: B5 softcover, 249 pages ISBN: 978-4-86502-074-8 List of Contributors (Honorifics omitted) ● Ken Kurosaki (Osaka University) ● Tsunehiro Takeuchi (Toyota Technological Institute) ● Kenro Ikeuchi (ULVAC, Inc.) ● Takashi Ito (Nagoya University) ● Rintaku Otaki (Kyushu University) ● Mikio Koyano (Hokuriku Advanced Institute of Science and Technology) ● Atsuko Kosuge (Osaka Prefecture University) ● Yosuke Fujii (Osaka Prefecture University) ● Go Koyanagi (Yamaguchi University) ● Hidetoshi Miyazaki (Nagoya Institute of Technology) ● Naoto Tsujii (National Institute for Materials Science) ● Ken Kajiwara (KELK, Inc.) ● Seiji Yoneda (Kanagawa University) ● Akihiro Sakai (Panasonic Corporation) ● Koji Suemori (National Institute of Advanced Industrial Science and Technology) ● Masatoshi Takeda (Nagaoka University of Technology) ● Koji Miyazaki (Kyushu Institute of Technology) ● Jun Hayakawa (Hitachi, Ltd.) ● Hideaki Takano (Hitachi, Ltd.) ● Takashi Kuroki (JFE Steel Corporation) ● Shinichiro Fujikawa (Nissan Motor Co., Ltd.) ● Takanori Nakamura (Murata Manufacturing Co., Ltd.) Others
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*Please download the catalog for more details.* <Points of this document> - What are the development trends and challenges of conventional/new thermoelectric materials, as well as design guidelines and considerations? - What methods are there for reducing heavy elements and lattice thermal conductivity aimed at environmental measures and cost reduction? - What are the evaluation methods for bulk/thin films/modules? - Numerous examples of the latest developments and studies of various materials are included (Bismuth telluride/Silicides/Oxides/Sulfides/Nanostructures/Clathrates/Heusler/CuFeS2) - From the challenges of modularization to the examination of module structure/assembly, evaluation, and application examples. - Techniques for creating elements aimed at flexibility, including production/printing methods, nanoporous structuring, and thin-film technology. - Examples of waste heat utilization in steel mills/casting processes, examples of incorporation into sensor terminals, as well as challenges in utilization from a materials perspective.
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