Simulation of sun tracking system for point focus fresnel collector

2017 IEEE 26th International Symposium on Industrial Electronics (ISIE) Pub Date : 2017-06-01 DOI:10.1109/ISIE.2017.8001386

A. Rizvi, H. A. Sher, K. E. Addoweesh, A. El-Leathy, H. Al-Ansary, K. Al-haddad

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Abstract

This work presents simulation of a sun tracking system that was developed for a Point Focus Fresnel Collector (PFFC) installed at King Saud University. The tracker is dual axis with a concentration ratio of 160 and a small acceptance angle of 2 degrees, hence a precise tracking control is required. Two control schemes were developed and tested, the open loop and closed loop. A sun position algorithm was used for open loop control whereas a sun sensor was used for closed loop control. The control system were simulated using Matlab/Simulink. It was found that open loop tracking is simpler to implement and consumes less power but is also less accurate and tracking error accumulates over time. On the other hand, closed loop control is more complicated to implement, consumes more power is much more accurate than open loop control. So, it is recommended to use the closed loop controller for PFFC system. The individual components of the control system were modelled using generic Simulink models. The complete model was operated in both open loop and closed loop configurations. The results of the models were analysed to estimate the operating limits of the tracker.

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点焦菲涅耳集热器太阳跟踪系统仿真

本文介绍了为安装在沙特国王大学的菲涅耳聚光器(PFFC)开发的太阳跟踪系统的仿真。跟踪器为双轴，集中比为160，接收角较小，只有2度，因此需要精确的跟踪控制。开发并测试了开环和闭环两种控制方案。开环控制采用太阳位置算法，闭环控制采用太阳敏感器。利用Matlab/Simulink对控制系统进行了仿真。研究发现，开环跟踪更容易实现，功耗更低，但也不太准确，跟踪误差会随着时间的推移而累积。另一方面，闭环控制实现起来更复杂，功耗更大，比开环控制精确得多。因此，建议在PFFC系统中使用闭环控制器。控制系统的各个组件使用通用的Simulink模型进行建模。完整的模型在开环和闭环两种构型下运行。对模型结果进行分析，估计跟踪器的工作极限。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2017 IEEE 26th International Symposium on Industrial Electronics (ISIE)

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