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Elsevier

Low-Grade Thermal Energy Harvesting

Advances in Materials, Devices, and Emerging Applications

  • 1 Edición - 22 de marzo de 2022
  • Última edición
  • Editor: Shiren Wang
  • Idioma: Inglés

Low-Grade Thermal Energy Harvesting: Advances in Thermoelectrics, Materials, and Emerging Applications provides readers with fundamental and key concepts surrounding low-grade… Leer más

Descripción

Low-Grade Thermal Energy Harvesting: Advances in Thermoelectrics, Materials, and Emerging Applications provides readers with fundamental and key concepts surrounding low-grade thermal energy conversion while also reviewing the latest research directions. The book covers the most promising and emerging technologies for low-grade heat recovery, harvesting and conversion, including wearable thermoelectrics and organic thermoelectrics. Each chapter includes key materials, principles, design and fabrication strategies for low-grade heat recovery. Special attention on emerging materials such as organic composites, 2D materials and nanomaterials are also included. The book emphasizes materials and device structures that enable the powering of wearable electronics and consumer electronics.

The book is suitable for materials scientists and engineers in academia and R&D in manufacturing, industry, energy and electronics.

Puntos claves

  • Introduces key concepts and fundamental principles of low-grade thermal energy harvesting, storage and conversion
  • Provides an overview on key materials, design principles and fabrication strategies for devices for low energy harvesting applications
  • Focuses on materials and device designs that enable wearable thermoelectrics and flexible electronics applications

De interès para

Materials Scientists and Engineers. Manufacturing Engineers, Design Engineers

Índice

1. Introduction to Low-Grade Thermal Energy Harvesting

2. Harvesting low-grade heat energy using thermo-osmotic vapour transport through nanoporous membranes

3. Ion selectivity membrane for low-grade heat energy harvesting

4. Wearable thermoelectrics for low-energy harvesting

5. Flexible organic/inorganic hybrid films for low grade heat recovery

6. Organic composite thermoelectrics

7. Flexible inorganic membrane for low grade heat recycling

8. 2D materials for low-grade energy harvesting

9. Electrochemical systems for efficiently harvesting low-grade heat energy

10. Thermogalvanic cells with a high Seebeck coefficient for low-grade heat harvesting

11. Thermally Regenerative Electrochemical Cycle for Low-Grade Heat Harvesting

12. Summary and outlook for low-grade thermal energy harvesting

Detalles del producto

  • Edición: 1
  • Última edición
  • Publicado: 22 de marzo de 2022
  • Idioma: Inglés

Sobre el editor

SW

Shiren Wang

Prof. Shiren Wang is an Associate Professor at the Department of Materials Science and Engineering at Texas A&M University and leads the Manufacturing Intelligence and Nanomaterial Innovation laboratory. Dr. Wang received BS and MS in Materials Science at BeiHang University (China), and also MS in Manufacturing Systems and PhD in Industrial & Manufacturing Engineering from Florida State University. He was an Assistant Professor during 2007-2012 and an Associate professor during 2012-2014 at Texas Tech University before joining Texas A&M at 2015. He is a recipient of Ed & Linda whitacre Faculty Fellow award in 2012, 2013, and 2014, National Science Foundation CAREER award in 2010, Air Force Summer Faculty Fellowship in 2010, as well as 3M Young Faculty award in 2009, 2010, and 2011. He is also a member of editorial board for two international academic journals, Composites-Part B Engineering, and Journal of Nanomaterials.
Afiliaciones y experiencia
Associate Professor, Texas A&M University, TX, USA

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