Development of parabolic luminescent solar concentrators by 3D printing

Arash Nikniazi, J. Nunzi
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引用次数: 1

Abstract

The rising awareness regarding the ramifications of greenhouse gas emissions on climate trends on a long-term basis pushes for the development of renewable energy technologies. Luminescent solar concentrators (LSCs) are widely viewed as not only a technology full of promise but also within easy reach in order to reduce architectural impediments to the integration of photovoltaic (PV) systems, as well as being as an economical strategy to develop it into new and untried areas. By means of this exposition, we attempt to analytically look into and model parabolic LSCs by COMSOL ray optics so as to introduce optimized manufacturing parameters for 3D printing technologies.
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利用3D打印技术研制抛物型发光太阳能聚光器
人们越来越认识到温室气体排放对气候趋势的长期影响,这推动了可再生能源技术的发展。发光太阳能聚光器(LSCs)不仅被广泛认为是一项充满希望的技术,而且易于实现,以减少光伏(PV)系统集成的建筑障碍,同时也是一种经济策略,将其发展到新的和未尝试的领域。通过本文的阐述,我们尝试用COMSOL射线光学对抛物型LSCs进行分析研究和建模,从而为3D打印技术引入优化的制造参数。
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