Solid state generators and energy harvesters for waste heat recovery and thermal energy harvesting
Solid state generators and energy harvesters for waste heat recovery and thermal energy harvesting
This review covers solid state thermal to electrical energy converters capable of transforming low grade heat directly into electricity for waste heat recovery and thermal energy harvesting. Direct solid state heat engines, such as thermoelectric modules and thermionic converters for spatial temperature gradients, are compared with pyroelectric energy harvesters and thermomagnetic generators for transient changes in temperature. Temperature and size limitations along with the maturity of the technologies are discussed based on energy density and temperature range for the different generator technologies. Despite the low energy conversion efficiency with solid state generators, electric power density ranges from 4 nW/mm2 to 324 mW/mm2. The most promising sector to implement changes while reducing the primary energy consumption and saving resources, is the processing industry along with stationary and mobile electronics.
235-247
Zabek, D.
7281d29f-829d-4f54-89a2-ee4f48a357af
Morini, F.
a5f98fb3-dd85-4fa0-9fa7-5f75784768ad
17 December 2018
Zabek, D.
7281d29f-829d-4f54-89a2-ee4f48a357af
Morini, F.
a5f98fb3-dd85-4fa0-9fa7-5f75784768ad
Zabek, D. and Morini, F.
(2018)
Solid state generators and energy harvesters for waste heat recovery and thermal energy harvesting.
Thermal Science and Engineering Progress, 9, .
(doi:10.1016/j.tsep.2018.11.011).
Abstract
This review covers solid state thermal to electrical energy converters capable of transforming low grade heat directly into electricity for waste heat recovery and thermal energy harvesting. Direct solid state heat engines, such as thermoelectric modules and thermionic converters for spatial temperature gradients, are compared with pyroelectric energy harvesters and thermomagnetic generators for transient changes in temperature. Temperature and size limitations along with the maturity of the technologies are discussed based on energy density and temperature range for the different generator technologies. Despite the low energy conversion efficiency with solid state generators, electric power density ranges from 4 nW/mm2 to 324 mW/mm2. The most promising sector to implement changes while reducing the primary energy consumption and saving resources, is the processing industry along with stationary and mobile electronics.
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Accepted/In Press date: 21 November 2018
e-pub ahead of print date: 27 November 2018
Published date: 17 December 2018
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Local EPrints ID: 496760
URI: http://eprints.soton.ac.uk/id/eprint/496760
PURE UUID: 22dcc169-d9c1-4d6e-b4ec-d27a21f9e770
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Date deposited: 07 Jan 2025 23:14
Last modified: 22 Aug 2025 02:46
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Author:
D. Zabek
Author:
F. Morini
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