About Aluminum Nitride Concentrated Solar Power Generation
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6 FAQs about [Aluminum Nitride Concentrated Solar Power Generation]
Are high-entropy nitrides a good solar selective absorber?
In this context, high-entropy nitrides, as novel solar selective absorbers (SSAs) materials, play a crucial role in these applications, demonstrating excellent spectral selectivity and strong thermal and chemical stability at high temperatures and in harsh environments.
Is solar nitriding a suitable method for obtaining Carbo-nitrides of metallic elements?
As it was described in the first lines of this section, solar nitriding of metallic elements in presence of N 2 or NH 3 is the option for obtaining carbo-nitrides of certain metallic elements ( Shohoji et al., 2011 and Costa-Oliveira et al., 2012, Ti, V, Nb and Ta; Shohoji et al., 2013, Mo and Fe; Costa-Oliveira et al., 2015, Cr, Mo, and W).
Can a nodular cast iron be coated with solar energy?
The coating of nodular cast irons by using concentrated solar energy could be useful in certain applications, although as mentioned in other sections the problem of using this energy source in coating is the surface that could be coated (coatings might be limited to small parts and short series of product).
Can concentrated solar energy be used in manufacturing?
In the particular case of joining technologies, concentrated solar energy could not be applied in the manufacture, for instance, of cars that are produced in factories operating 24 h 365 days yearly, but could be applied to high added value or to small series of products, as for instance in precious materials or other high added value products.
What is the most promising field for concentrated solar energy?
The couple Zn-Solar energy seems to be the most promising field for concentrated solar energy. Concentrated solar energy has a great potential in the treatment of high-Fe wastes. Concentrated solar energy could be competitive with high-energy technologies (laser, plasma, etc.).
Are Raman spectra characteristic of transition metal nitrides formed during sputtering?
The Raman spectra (Figure 1I) further corroborate these findings; no distinct characteristic peaks were detected for the MoTaTiCrN (H) layer, while two broad Raman bands were observed at 254 cm⁻ 1 and 780 cm⁻ 1 for the MoTaTiCrN (L) layer. These bands are characteristic of transition metal nitrides formed during the sputtering process. 48, 49