串联
产量(工程)
钙钛矿(结构)
硅
自上而下和自下而上的设计
材料科学
硅太阳电池
能量(信号处理)
钙钛矿太阳能电池
工程物理
光电子学
太阳能电池
计算机科学
结晶学
化学
工程类
数学
冶金
统计
复合材料
程序设计语言
作者
Manvika Singh,Jacopo Finazzo,Youri Blom,Mahesh Jayan,Carlos M. Ruiz,A.W. Weeber,Miro Zeman,Rudi Santbergen,Olindo Isabella
标识
DOI:10.1051/epjpv/2025009
摘要
At standard test conditions (STC), the performance of photovoltaic modules is compared using efficiency. As irradiance and module temperature fluctuate over the year and STC efficiency does not assess the performance of the module accurately in real world conditions, the annual energy yield is used instead as performance metric. Perovskite/silicon tandem solar cells are being massively researched and sought after in PV industry for their efficiency well above 34% with further growth perspective. In this work, to evaluate and compare performance of different perovskite/silicon tandem photovoltaic (PV) modules based on different bottom cell technologies, we use a hybrid modelling approach. Such approach, combining experimentally obtained and simulated current-voltage curves, flexibly predicts the annual energy yield of novel tandem PV modules via our PVMD toolbox and enables their optimization in any location. In particular, considering (i) mono- and bi-facial architectures, (ii) 2-terminal and 4-terminal module configurations, and (iii) silicon heterojunction or novel poly-SiO x passivated c-Si solar bottom cells, we compare the annual energy yield of different perovskite/silicon tandem modules and we optimize their performance in different locations with respect to different perovskite thickness and bandgaps.
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