43% Sunlight to Electricity Conversion Efficiency Using CPV

Marc Steiner; Gerald Siefer; Thomas Schmidt; Maike Wiesenfarth; Frank Dimroth; Andreas W. Bett

首页> 外文期刊>Photovoltaics, IEEE Journal of >43% Sunlight to Electricity Conversion Efficiency Using CPV

【24h】

43% Sunlight to Electricity Conversion Efficiency Using CPV

机译：使用CPV的阳光到电的转换效率为43％

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

A concentrator standard test condition (CSTC) efficiency of 43.4% for the direct conversion of sunlight into electricity is demonstrated with a subunit of a concentrator photovoltaics (CPV) module. This is the highest reported CSTC efficiency for CPV applications thus far. This test device consists of a four-junction solar cell and uses an achromatic full-glass lens for concentrating the sunlight. The high efficiency is made possible by the combination of a high-efficiency solar cell (46%) and a high-efficiency lens (95%). The I–V curve of the solar cell has been measured for varying distances to the glass lens and compared with the results for a silicone-on-glass Fresnel lens. In this manner, chromatic aberration effects on solar cell performance are discussed in this study.

机译：通过聚光器光伏（CPV）模块的子单元，证明了将太阳光直接转换为电的聚光器标准测试条件（CSTC）效率为43.4％。这是迄今为止针对CPV应用的最高CSTC效率。该测试设备由一个四结太阳能电池组成，并使用消色差的全玻璃透镜来聚集阳光。通过将高效太阳能电池（46％）和高效透镜（95％）结合使用，可以实现高效率。已测量了距玻璃透镜不同距离的太阳能电池的I–V曲线，并将其与玻璃上硅酮菲涅耳透镜的结果进行了比较。以这种方式，在这项研究中讨论了色差对太阳能电池性能的影响。

著录项

来源
《Photovoltaics, IEEE Journal of》 |2016年第4期|1020-1024|共5页
作者
Marc Steiner; Gerald Siefer; Thomas Schmidt; Maike Wiesenfarth; Frank Dimroth; Andreas W. Bett;
展开▼
作者单位

Fraunhofer Institute for Solar Energy Systems, Freiburg, Germany;

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类
关键词
Chromatic aberration; Fresnel lens; concentrator photovoltaics (CPV); glass lens; multijunction solar cell; optical efficiency;

机译：色差;菲涅尔透镜;聚光光伏（CPV）;玻璃透镜;多结太阳能电池;光学效率;

相似文献

外文文献
中文文献
专利

1. A pathway for sustainable conversion of sunlight to hydrogen using proposed compact CPV system [J] . Burhan Muhammad, Shahzad Muhammad Wakil, Oh Seung Jin, Energy Conversion & Management . 2018,第JUNa期

机译：使用建议的紧凑型CPV系统将太阳光可持续转化为氢的途径
2. Sunlight to hydrogen conversion: Design optimization and energy management of concentrated photovoltaic (CPV-Hydrogen) system using micro genetic algorithm [J] . Burhan Muhammad, Chua Kian Jon Ernest, Ng Kim Choon Energy . 2016,第mara15期

机译：阳光到氢气的转化：使用微遗传算法的聚光光伏（CPV-Hydrogen）系统的设计优化和能量管理
3. Computation-guided design of high-performance flexible thermoelectric modules for sunlight-to-electricity conversion [J] . Xu Shengduo, Hong Min, Shi Xiaolei, Energy & environmental science . 2020,第10期

机译：用于阳光电压转换的高性能柔性热电模块的计算导向设计
4. IMPROVEMENTS IN SUNLIGHT TO ELECTRICITY CONVERSION EFFICIENCY: ABOVE 40 FOR DIRECT SUNLIGHT AND OVER 30 FOR GLOBAL [C] . Martin A. Green, Mark J. Keevers, Bruno Concha Ramon, European Photovoltaic Solar Energy Conference and Exhibition . 2015

机译：阳光对电力转换效率的改善：直接阳光超过40％，全球超过30％
5. Electricity Generation, Electricity Consumption, and Energy Efficiency in the United States: A Dual Climatic-Behavioral Approach [D] . Craig, Christopher Alan. 2016

机译：美国的发电，用电量和能源效率：气候行为双重研究
6. How To Draw Electricity from the Bloodstream: A one-dimensional fluidic nanogenerator with a high power-conversion efficiency [O] . 2017

机译：如何从血流中汲取电力：具有高功率转换效率的一维流体纳米发电机
7. 43 sunlight to electricity conversion efficiency using CPV [O] . Steiner M., Siefer G., Schmidt T., 2016

机译：使用CpV可将43％的阳光转换为电能转换效率
8. n-Type Molybdenum Diselenide-Based Photoelectrochemical Cells: Evidence for Fermi Level Pinning and Comparison of the Efficiency for Conversion of Light to Electricity with Various Solvent/Halogen/Halide Combinations [R] . Schneemeyer, L. F., Wrighton, M. S. 1980

机译：n型基于二硒化钼的光电化学电池：费米能级钉扎的证据和各种溶剂/卤素/卤化物组合的光与电转换效率的比较

43% Sunlight to Electricity Conversion Efficiency Using CPV

摘要

著录项

相似文献

相关主题

期刊订阅