First spectral emissivity study of a solar selective coating in the150–600 ºC temperature range
Ikusi/ Ireki
Data
2013-07-20Egilea
Setién Fernández, Iñigo
Fernández González, Luis
Pérez Sáez, Raúl Benjamín
Céspedes, Eva
Sánchez-García, José Ángel
Álvarez-Fraga, Leopoldo
Escobar Galindo, Ramón
Albella, José María
Prieto, Carlos
Tello León, Manuel
Solar Energy Materials and Solar Cells 117 : 390-395 (2013)
Laburpena
A complete experimental study of temperature dependence of the total spectral emissivity has been performed, for the first time, for absorber–reflector selective coatings used in concentrated solar power (CSP) systems for energy harvesting. The coating consist of double cermet layers of silicon oxide with different amounts of molybdenum over a silver infrared mirror layer. The experimental measurements were carried out by a high accurate radiometer (HAIRL) with controlled atmosphere in the mid-infrared and for temperatures between 150 and 600 °C. The spectral emissivity is nearly constant in this temperature range. Therefore, the temperature dependence of the total emissivity is given by Planck function. These results were compared with those obtained with the usual calculus using room temperature reflectance spectrum. Finally, the performance of the coating was analyzed by comparison of coated respect to non-coated stainless steel.