Low-Grade Heat Harvesting

Materials, Devices, and Technologies

Low-Grade Heat Harvesting

Materials, Devices, and Technologies

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Low-Grade Heat Harvesting

Harvest a vast untapped reservoir of energy with this essential resource

The search for widely available, sustainable energy sources is arguably the defining challenge of the current era. Low-Grade Heat, a term referring to temperatures under 100 degrees Celsius, is an incredibly abundant form of energy in the natural world, but not one which existing sustainable technologies have been able to harvest efficiently and sustainably. The ubiquity of this energy, however, gives it huge potential to address the looming energy crisis.

Low-Grade Heat Harvesting surveys existing technologies for utilizing low-grade heat and the related techniques for storing and converting low-grade heat energy. Beginning with the basic thermodynamic principles underlying low-grade heat, it proceeds to work systematically through the major categories of low-grade heat harvesting device, offering a comprehensive overview of the state of the field.

Low-Grade Heat Harvesting readers will also find:

  • A focus on emerging technologies
  • Detailed discussion of thermoelectric devices for low-grade heat harvesting, liquid-based thermocells for heat-to-current conversion, and many more
  • Authored by an acknowledged expert in energy storage and conversion

Low-Grade Heat Harvesting is ideal for materials scientists, electrochemists, electronics engineers, and anyone else working to address energy needs.

Xiaogang Zhang, PhD, is Professor of Chemistry in the College of Materials Science and Technology, Nanjing University of Aeronautics and Astronautics, and Director of the Jiangsu Key Laboratory of Materials and Technologies for High-Efficiency Energy Storage, China. He is a Fellow of the Royal Society of Chemistry and has published extensively on the design and development of nanostructured composites and their applications in energy storage and conversion.

ISBN 9783527843671
Artikelnummer 9783527843671
Medientyp E-Book - ePUB
Copyrightjahr 2023
Verlag Wiley-VCH
Umfang 240 Seiten
Sprache Englisch
Kopierschutz Adobe DRM