可变几何单轴跟踪器上双面光伏组件结构遮阳因子和失配损失的实验测定

IF 6 2区工程技术 Q2 ENERGY & FUELS

Solar Energy Pub Date : 2025-03-07 DOI:10.1016/j.solener.2025.113400

P. Merodio, F. Martínez-Moreno, E. Lorenzo

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引用次数: 0

摘要

与正面辐照度相比，双面模块的背面辐照度表现出更大的空间非均匀性，影响了结构阴影系数（SSF）和失配损失（MML）等性能指标。SSF量化被安装结构阻挡的后方辐照度的比例，而MML测量由于不均匀性而产生的功率损失。我们提出了一种新的实验方法来确定一对肖像（1P）和2P跟踪器的SSF和MML，考虑到全电池和半电池模块。对于1P跟踪器，全单元（半单元）模块的SSF为10.0%，MML为0.46%（0.40%）。对于2P跟踪器，全单元（半单元）模块的SSF为2.7%，MML为0.35%（0.21%）。通过改变扭矩管距离（1P）和东西面板间隙（2P）来检查跟踪器几何形状的影响，为SSF和MML提供数学关系。在两个跟踪器中，SSF的测量不确定度估计为4% （1P）和2% (2P)， MML的测量不确定度估计为4%。当用于年度能量产出模型时，两种跟踪器的SSF不确定性上升到10%，1P（2P）跟踪器的MML不确定性上升到20%(30%)，但它们对能量产出不确定性的影响低于1%。

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Experimental determination of the structure shading factor and mismatch losses for bifacial photovoltaic modules on variable-geometry, single-axis trackers

Rear irradiance on bifacial modules exhibits greater spatial non-uniformity compared to frontal irradiance, impacting performance metrics like the Structure Shading Factor (SSF) and Mismatch Loss (MML). SSF quantifies the fraction of rear irradiance obstructed by the mounting structure, while MML measures the resulting power losses due to non-uniformity.

We propose a new experimental methodology to determine SSF and MML for one-in-portrait (1P), and 2P trackers, considering full-cell and half-cell modules. For 1P trackers, SSF is 10.0 % and MML is 0.46 %(0.40 %) for full-cell(half-cell) modules. For 2P trackers, SSF is 2.7% and MML is 0.35 %(0.21 %) for full-cell(half-cell) modules. The influence of tracker geometry is examined by varying the torque tube distance (1P) and East-West panel gaps (2P), providing mathematical relationships for SSF and MML.

Measurement uncertainties are estimated at 4 % (1P) and 2 % (2P) for SSF, and 4 % for MML in both trackers. When used for annual energy yield modelling, uncertainties rise to 10 % in SSF for both trackers and 20 %(30 %) in MML for 1P(2P) trackers, yet their impact on energy yield uncertainty is below 1 %.

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来源期刊

Solar Energy 工程技术-能源与燃料

CiteScore

13.90

自引率

9.00%

发文量

审稿时长

47 days

期刊介绍： Solar Energy welcomes manuscripts presenting information not previously published in journals on any aspect of solar energy research, development, application, measurement or policy. The term "solar energy" in this context includes the indirect uses such as wind energy and biomass