Freeform optics design of primary lens for uniform irradiance distribution of a concentrator photovoltaic system

T. Pham, N. Duy, N. Vu, Seoyong Shin
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引用次数: 3

Abstract

In this paper, a primary lens of concentrator photovoltaic (CPV) system is designed by using freeform optics. The designed lens is constructed based on a basic idea of a combination of Fresnel lens and freeform optics, in which the lens is divided into an array of sub-lenses, which are designed using the conservation of optical path length and the edge ray theorem to get uniform irradiance distribution over the receiver. In this design, every sub-lens is designed to guide the direct sunlight over the receiver with uniform irradiance so that the whole of the primary lens will converge uniformly the direct sunlight over the receiver. The structure of the lens is designed firstly by using Matlab program for every sub-lens. The Matlab data of the designed lens structure is then used to build the three-dimensional (3D) lens in LightTools™ software. The ray tracing technique in LightTools™ software is used to find out the optimum structure of the freeform lens. Furthermore, the simulation is performed to estimate the efficiency of the lens as a concentrator of a CPV system by using the light source with the sunlight spectrum. The designed lens can achieve high geometrical concentration ratio and uniform irradiance distribution over the receiver. The simulation results show that the lens can easily reach a high concentration ratio (494 times) with uniform irradiance distribution and good optical efficiency (86%).
聚光光伏系统辐照度均匀分布主透镜的自由曲面光学设计
本文采用自由曲面光学技术设计了聚光光伏(CPV)系统的一次透镜。设计的透镜基于菲涅耳透镜与自由曲面光学相结合的基本思想,将透镜划分为一组子透镜,利用光程长度守恒和边缘射线定理进行设计,以获得均匀的辐照度分布。在这种设计中,每个副透镜都被设计成以均匀的辐照度引导直射到接收器上的阳光,从而使整个主透镜均匀地汇聚到接收器上的直射阳光。首先利用Matlab程序对各子镜头进行了结构设计。然后使用设计的透镜结构的Matlab数据在LightTools™软件中构建三维(3D)透镜。使用LightTools™软件中的光线追踪技术来找出自由曲面透镜的最佳结构。在此基础上,利用具有太阳光光谱的光源对聚光系统的聚光效率进行了仿真计算。所设计的透镜具有较高的几何聚光比和均匀的辐照度分布。仿真结果表明,该透镜具有较高的聚光比(494倍),辐照度分布均匀,光学效率高达86%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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