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集成喷雾冷却的固定式与太阳跟踪光伏系统性能评估
Performance evaluation of fixed and sun-tracking photovoltaic systems integrated with spray cooling
| 作者 | Mosaad R.Sharaby · Swellam Wafa Sharshir · Asmaa A.El Bahloul · Abdallah Wagih Kandeal · Maher Rash |
| 期刊 | Solar Energy |
| 出版日期 | 2025年1月 |
| 卷/期 | 第 288 卷 |
| 技术分类 | 光伏发电技术 |
| 技术标签 | 储能系统 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | The effect of cooling was investigated with fixed and tacking [PV panels](https://www.sciencedirect.com/topics/engineering/photovoltaic-panel "Learn more about PV panels from ScienceDirect's AI-generated Topic Pages"). |
语言:
中文摘要
摘要 提高光伏(PV)系统的能量获取效率是推动其广泛应用面临的重要挑战。采用跟踪系统可最大化接收的太阳辐射,从而提升输出能量。然而,接收辐射越高,光伏组件表面温度也越高。过高的温度或温升会严重影响光伏组件的性能,导致输出能量和使用寿命下降。因此,提升光伏系统性能必须依赖有效的热管理措施。本研究旨在结合两种技术途径:利用跟踪系统以最大化能量接收,并引入表面冷却技术进行散热。本文对比了多种光伏系统配置,包括传统固定式、带冷却的固定式、带冷却的单轴跟踪(SAT)以及带冷却的双轴跟踪(DAT)系统。在冷却型光伏系统中,采用喷雾冷却技术对组件上表面进行降温。研究结果表明,跟踪系统显著提升了能量捕获能力;与固定式面板相比,单轴和双轴跟踪系统的输入功率分别提高了15.18%和16.2%。尽管吸收了更多的太阳能,跟踪系统的表面温度却与带冷却的固定式面板相近。此外,跟踪系统实现了最大的发电功率提升,尤其是双轴跟踪系统(DAT),其输出功率提高了26.1%。基于DAT的光伏系统达到了最高的峰值效率,为14%。
English Abstract
Abstract Maximizing the energy gained from photovoltaics (PVs) is a challenge to widespread their applicability. Applying a tracking system can maximize the received solar radiation and, subsequently, the output energy. Unfortunately, the higher the received radiation, the warmer the PV surface. Excessive temperature, or even rise, can badly affect the PVs, degrading both output energy and lifetime. Therefore, enhancing the performance necessitates thermal management. Hence, the current research aimed to merge two approaches: using a tracking system to maximize received energy and incorporating a surface cooling technique. Various PV configurations were compared: conventional fixed, fixed with cooling, single-axis tracking (SAT) with cooling, and double-axis tracking (DAT) with cooling configurations. In the cases of cooled PVs, spray cooling was applied to the upper panel’s surface. The findings showed that tracking systems improved the capture of energy; when SAT and DAT systems were compared to fixed panels, the input power increased by 15.18% and 16.2%, respectively. The surface temperatures of tracking systems were nearly similar to those of cooled fixed panels while absorbing greater solar energy. Moreover, the greatest power generation enhancement was achieved with tracking systems, particularly DAT, which showed a 26.1% increase in power output. The DAT-based PV had the highest peak efficiency of 14%.
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SunView 深度解读
该研究对阳光电源光伏逆变器产品线具有重要参考价值。双轴跟踪系统配合喷雾冷却可提升26.1%发电量,这为SG系列逆变器的MPPT算法优化提供新思路:需针对跟踪系统的动态辐照特性和温度波动优化控制策略。研究显示跟踪系统表面温度接近冷却固定板,但输入功率提升16.2%,表明通过智能热管理可提升系统效率至14%。建议将该温控技术与iSolarCloud平台的预测性维护功能结合,实时监测组件温度并动态调整逆变器工作点,最大化发电收益。该方案对大型地面电站的PowerTitan储能系统配套应用具有协同价值。