Thermoelectric Generator: Difference between revisions
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*Key link -'''Thermoelectrics offer to be competitive with other alternative sustainable energy sources''' - [https://quantum.soe.ucsc.edu/sites/default/files/yazawa_EST2011.pdf] | |||
*Published report on a 150W initial design, which put out 14W in reality. -[http://www.harding.edu/olree/2009-10/senior%20design%20-%20final%20reports/thermoelectric%20generator/thermoelectric_generator_-_final_report.pdf | *Published report on a 150W initial design, which put out 14W in reality. -[http://www.harding.edu/olree/2009-10/senior%20design%20-%20final%20reports/thermoelectric%20generator/thermoelectric_generator_-_final_report.pdf | ||
*Design paper on TEGs - [http://link.springer.com/article/10.1007%2Fs11664-012-2299-8#/page-1] | *Design paper on TEGs - [http://link.springer.com/article/10.1007%2Fs11664-012-2299-8#/page-1] | ||
Revision as of 08:32, 28 April 2016
Efficiency
- 5-8% - []
Industry Standards
- 45W for $500 - [1]. Fan cooled.
- 100W max hot side temp is 300C? - [2]
- 70W - max hot side temp is 840F? -
- 60W liquid cooled - [3] - Don't exceed 900F on hot side.
- 50W siberian from a small stove - [4]
- 100W - German - http://thermalforce.de/engl/product/module/index.php
Individual Modules
- $2 for 60W - or 3W at 5% efficiency - [5]
Links
- Key link -Thermoelectrics offer to be competitive with other alternative sustainable energy sources - [6]
- Published report on a 150W initial design, which put out 14W in reality. -[http://www.harding.edu/olree/2009-10/senior%20design%20-%20final%20reports/thermoelectric%20generator/thermoelectric_generator_-_final_report.pdf
- Design paper on TEGs - [7]