垂直光伏系统的数字孪生热模型有助于解释意外收益

IF 1.9 Q3 PHYSICS, APPLIED
Anna J. Carr, Ji Liu, Ashish Binani, Kay Cesar, Bas B. Van Aken
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引用次数: 0

摘要

新型太阳能综合应用的商业案例通常被视为标准太阳能公园的直接外推。但是,当太阳能公园的设计与典型的太阳能公园明显不同时,光伏电池板的运行条件也可能发生变化。我们已经将数字孪生应用于研发中心,在垂直的东/西方向上有9排8个双面光伏板,排与排之间的距离不同。我们根据测量的GHI模拟了面内辐照度,结果与面内辐照度的观测结果很好地吻合。但是,使用默认的独立式PV传热系数,模型模块温度过高,模拟模块功率过低。应用内部开发的方法,我们发现传热系数Uc几乎翻了一番,并且垂直放置的模块在更低的温度下工作。调整后的Uc值使年发电量提高2.5%,性能比提高,部分抵消了由于配置不理想而造成的能量损失。综上所述,数字孪生体增加了对垂直光伏系统的理解,并支持了未来的决策,例如垂直光伏与农业结合的应用,其中垂直光伏的低地面覆盖率与农业部门的需求非常匹配。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Thermal model in digital twin of vertical PV system helps to explain unexpected yield gains
The business case of novel integrated applications of solar energy is often regarded as a straightforward extrapolation of standard solar parks. But when the design of the solar park is remarkably different from typical solar parks, the operating conditions of the PV panels could also be changed. We have applied the digital twin to an R&D location with nine rows of eight bifacial PV panels in a vertical east/west orientation with varying row-row distances. We simulated the in-plane irradiances, based on measured GHI, which turned out to be in good agreement with observations of in-plane irradiances. But, using default free-standing PV heat transfer coefficients, the modelled module temperatures were too high and the simulated module powers too low. Applying an in-house developed method, we found that the heat transfer coefficient Uc is nearly double, and the vertically placed modules operate at a much lower temperature. The adjusted value for Uc leads to a 2.5% higher annual energy yield and higher performance ratio, partially offsetting the energy loss due to the less than optimal configuration. In conclusion, the digital twin increased the understanding of the vertical PV system and support future decision making, for instance for the application of vertical PV in combination with agriculture, where the low ground coverage ratio of vertical PV matches well with the needs from the agricultural sector.
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来源期刊
EPJ Photovoltaics
EPJ Photovoltaics PHYSICS, APPLIED-
CiteScore
2.30
自引率
4.00%
发文量
15
审稿时长
8 weeks
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