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使用塔古奇方法对具有螺旋矩形吸收器的太阳能光伏热系统的性能优化.

Jitendra Satpute1, Srinidhi Campli2, Dhinesh Balasubramanian3

  • 1Suman Ramesh Tulsiani Technical Campus Kamshet, Pune, 410405, India. jitusatpute12345@gmail.com.

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|October 11, 2024
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概括

这项研究使用塔古奇方法优化了太阳能热收集器的性能. 矩形螺旋吸收器设计显著影响效率,更高的流量提高了热回收和降低光伏温度.

关键词:
能源效率 能源效率是指能源的使用效率.优化优化 优化优化光伏热系统光伏热系统在S/N比率上.螺旋矩形吸收器 螺旋矩形吸收器热能回收可以回收热能.

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科学领域:

  • 可再生能源工程可再生能源工程
  • 热力学是一种热力学.
  • 材料科学 材料科学 材料科学

背景情况:

  • 太阳能热收集器对于可再生能源发电至关重要.
  • 优化操作参数是最大化太阳能系统效率的关键.
  • 光伏热 (PVT) 系统提供双重发电,但需要仔细调整参数.

研究的目的:

  • 用塔古奇法确定一个带有矩形螺旋吸收器的太阳能热收集器的最佳运行参数.
  • 分析吸收器设计,太阳辐射和质量流速对系统性能的影响.
  • 评估优化PVT系统的电气和热效率.

主要方法:

  • 塔古奇法用于实验设计和参数优化.
  • 操纵可控制的参数:质量流速,太阳辐射和吸收器设计.
  • 通过PV温度和出口水温度测量来评估系统的有效性.

主要成果:

  • 吸收器设计是PV温度 (69.19%) 和水输出温度 (73.63%) 的最重要因素.
  • 较高的太阳辐射和流量提高了热效率 (63.56%),而较低的辐射和流量则有利于电效率 (14.57%).
  • 预测回归模型显示高精度 (R2>97%) 与最小的误差 (<0.68%).

结论:

  • 矩形吸收器设计在PVT系统中非常有效.
  • 更高的质量流速降低了光伏温度,并改善了热能回收.
  • 该研究为进一步的能源,环境和经济分析提供了基础.