Abstract:Solar selective absorber is a key component that directly influences the photothermal efficiency in high-temperature solar energy harvesting. In present work, a solar selective absorber combining tungsten nanohole and nanoshuriken arrays was proposed and studied. Firstly, the geometry of the absorber was optimized, obtaining a near-perfect absorber. Then, evaluation of the near-perfect absorber indicated that it can achieve near unit spectral absorptance within 0.28-1.25 μm and obtain a solar absorptance of 0.… Show more
“…It is known that the fabrication uncertainties of the absorber are smaller than 0.01 μm. 52 When the variations of these parameters are within the fabrication uncertainties, only the d 2 has obvious influences on the α λ , indicating that d 2 should be controlled carefully in the fabrication. However, h 6 , d 3 , and h 7 influence α λ slightly, indicating that these geometries are able to sustain relatively large fabrication uncertainties.…”
A metamaterial absorber that can achieve near-perfect spectral selectivity with simple structure is proposed for high-temperature solar energy harvesting.
“…It is known that the fabrication uncertainties of the absorber are smaller than 0.01 μm. 52 When the variations of these parameters are within the fabrication uncertainties, only the d 2 has obvious influences on the α λ , indicating that d 2 should be controlled carefully in the fabrication. However, h 6 , d 3 , and h 7 influence α λ slightly, indicating that these geometries are able to sustain relatively large fabrication uncertainties.…”
A metamaterial absorber that can achieve near-perfect spectral selectivity with simple structure is proposed for high-temperature solar energy harvesting.
“… 32 According to this space distribution, it can be inferred that LSPR are excited within the nanogap under the action of incident wave with a wavelength of 2000 nm. 33 Under the effect of LSPR, the incident wave with wavelength around 2000 nm is dissipated due to ohmic dissipation, therefore leading to the selective radiation characteristic of the emitter to realize the radiation regulation of thermal radiation spectrum and achieve efficient conversion of the absorbed AM0 solar energy. Figure 12 The |E| field and |H| field distribution in the selective emitters under incident waves with a wavelength of 2000 nm …”
“…They are obtained from a significantly complex production process composed of a combination of multiple techniques (magnetron sputtering, electron beam lithography, Inductively Coupled Plasma etching, and electron beam evaporation). However, while their numerically simulated optical properties appear promising, the coating stability and durability at the foreseen temperatures, as well as the expected lifetime, are unclear [ 12 ].…”
Tantalum boride is an ultra-refractory and ultra-hard ceramic known so far for its favorable high-temperature thermo-mechanical properties and also characterized by a low spectral emittance, making it interesting for novel high-temperature solar absorbers for Concentrating Solar Power. In this work, we investigated two types of TaB2 sintered products with different porosities, and on each of them, we realized four femtosecond laser treatments differing in the accumulated laser fluence. The treated surfaces were then characterized by SEM-EDS, roughness analysis, and optical spectrometry. We show that, depending on laser processing parameters, the multi-scale surface textures produced by femtosecond laser machining can greatly increase the solar absorptance, while the spectral emittance increase is significantly lower. These combined effects result in increased photothermal efficiency of the absorber, with interesting perspectives for the application of these ceramics in Concentrating Solar Power and Concentrating Solar Thermal. To the best of our knowledge, this is the first demonstration of successful photothermal efficiency enhancement of ultra-hard ceramics using laser machining.
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