Selective surface: Difference between revisions
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*[http://www.bcas.net/Publication/EnergyNewsletter/Document/2003-5.PDF Selective Surface for efficient Solar Thermal Conversion] |
*[http://www.bcas.net/Publication/EnergyNewsletter/Document/2003-5.PDF Selective Surface for efficient Solar Thermal Conversion] |
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Revision as of 05:21, 27 September 2006
In solar thermal collectors, a selective surface is chosen based on the ratio of radiation-absorption (alpha) to radiation-emission (epsilon), with a higher ratio meaning better performance. Selective surfaces take advantage of the differing wavelengths of incident solar radiation and the emmissive radiation from the absorbing surface.
Normally, a combination of materials is used. One of the first selective surfaces investigated was simply copper with a layer of black cupric oxide. Black chromium ("black chrome") nickel-plated copper is another selective surface that is very durable, highly resistant to humidity or oxidizing atmospheres and extreme temperatures while being able to retain its selective properties - but expensive. Another combination consists of steel plated with gold, silicon, and silicon dioxide. Ordinary steel or aluminum can also be spray-painted black for a cheaper (but less effective) collector surface.
Typical values for a selective surface might be 0.90 absorption and 0.10 emissivity.
See also
- Insulated glazing
- Solar box cooker
- Solar collector
- Solar oven
- Solar power
- Solar thermal collector
- Trombe wall