提高热光伏性能的高光谱效率和高温能量收集超材料发射器的数值研究

IF 2.1 4区 工程技术 Q3 CHEMISTRY, PHYSICAL International Journal of Photoenergy Pub Date : 2023-09-07 DOI:10.1155/2023/5442031
Sifan Tamiru, Fekadu Tolessa, Birke Alemu, Solomon Tiruneh, A. Belay, Gurmu Alemu, T. Gurumurthi
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引用次数: 0

摘要

设计工作是在宽带和广角选择性金字塔超材料发射器。COMSOL Multiphysics软件用于研究由钨和氮化铝制成的发射极。晶胞的宽度和钨接地厚度是固定的,而其他几何参数,如金字塔的基极长度、金字塔的高度和电介质的厚度,则被调谐以产生发射器所需的宽带发射。截止波长以下0.96以上的高平均发射率(0.1 μm-2.2 μm)。所开发的超材料发射器在0°至60°的宽入射角范围内也具有良好的发射率,并且与偏振无关。此外,InGaAs电池的计划发射极比其他设计的黑体发射极具有更好的光谱效率。一般来说,计划中的选择性纳米金字塔发射极以75%的InGaAs带隙能量(0.55 eV) K、 其大于黑体和先前的论文。
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Numerical Study of High Spectral Efficiency and High-Temperature Energy Harvesting Metamaterial Emitter to Improve Thermophotovoltaic Performance
Design work was done on a broadband and wide-angle selective pyramid metamaterial emitter. COMSOL Multiphysics software was used to study the emitter, which was made of tungsten and aluminum nitride. The width of the unit cell and the tungsten ground thickness were fixed while other geometric parameters, such as the base length of the pyramid, the height of the pyramid, and the thickness of the dielectric, were tuned to produce the emitter’s desired broadband emission. A high average emissivity over 0.96 below the cutoff wavelength (0.1 μm-2.2 μm) was seen in the numerical simulation. The developed metamaterial emitter also had good emissivity across a broad range of incidence angles, from 0° to 60°, and was polarization independent. In addition, the planned emitter for the InGaAs cell has a better spectral efficiency than the blackbody other designed emitter. In general, the planned selective nanopyramid emitter was realized with 75% spectrum efficiency for InGaAs band gap energy (0.55 eV) at 1200 K, which was greater than blackbody and prior papers.
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来源期刊
CiteScore
6.00
自引率
3.10%
发文量
128
审稿时长
3.6 months
期刊介绍: International Journal of Photoenergy is a peer-reviewed, open access journal that publishes original research articles as well as review articles in all areas of photoenergy. The journal consolidates research activities in photochemistry and solar energy utilization into a single and unique forum for discussing and sharing knowledge. The journal covers the following topics and applications: - Photocatalysis - Photostability and Toxicity of Drugs and UV-Photoprotection - Solar Energy - Artificial Light Harvesting Systems - Photomedicine - Photo Nanosystems - Nano Tools for Solar Energy and Photochemistry - Solar Chemistry - Photochromism - Organic Light-Emitting Diodes - PV Systems - Nano Structured Solar Cells
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