Material and structural optimization of metal nanowire/AAO composites for high-temperature solar thermal application
Yuefeng Hu, Xiu Li Si, Xiaoling Wu, Guo An Cheng, and Rui Ting Zheng
TL;DR
This study uses numerical simulations to optimize metal nanowire/AAO composites for high-temperature solar thermal applications, achieving high absorption and efficiency at 1000 K.
Contribution
It introduces an optimized design of W nanowire/AAO composites with specific parameters for enhanced solar absorption at high temperatures.
Findings
Achieved 0.90 solar absorptivity at 1000 K.
Attained 0.045 thermal emissivity at 1000 K.
Photothermal conversion efficiency of 71.5 %.
Abstract
In this paper, we study the solar selective absorbing properties of metal nanowire array (NWA) / anodic aluminum oxide (AAO) composites at 1000 K via numerical simulation. The materials and structural parameters which influence the wavelength absorption between 0.28 and 10 microns are simulated and optimized. The results reveal that W NWA / AAO composites with nanowire length of 7.3 microns, fill factor of 0.03, and AAO template thickness of 0.1 microns exhibits the best selective absorption. This composite has 0.90 solar absorptivity and 0.045 thermal emissivity in 1000 K, and shows a photothermal conversion efficiency of 71.5 %.
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Taxonomy
TopicsSolar-Powered Water Purification Methods · Thermal Radiation and Cooling Technologies · Solar Thermal and Photovoltaic Systems