Trnsys Validation of a 1.5 Axis Tracking Concentrated Solar Photovoltaic Thermal System

Other Topics Engineering Research eJournal Pub Date : 2019-11-26 DOI:10.2139/ssrn.3658921

N. Nteka, K. Kanyarusoke

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Abstract

This paper reports on TRNSYS simulation results on a hybrid concentrated solar photovoltaic thermal cooled collector, CSPVT. The system is composed of a 90Wp monocrystalline PV panel which is used to generate both electrical power and hot water for domestic use. The software was used to predict the total energy yield from a CSPVT. In addition to that, a prototype was built and tested to give actual energy yields. An existing Campbell weather station located near the experimental site, logging 15-minute data of actual parameters such as: incident radiation, voltage and current, enabled comparison with the model’s estimate. The electrical and thermal energy yields were closer to actual ones. Total energy production yield was 76% for Cape Town, South Africa, while TRNSYS predicted 82%. Thus, we conclude that, TRNSYS modelling can be used to predict the performance of the CSPVT at a location near the weather stations listed in the software’s database. A capital cost analysis showed that over a 15-year life span, the CSPVT could possibly give a unit energy cost less than half of that from a conventional PV panel.

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Trnsys 1.5轴跟踪聚光太阳能光伏热系统的验证

本文报道了混合聚光太阳能光伏热冷集热器(CSPVT)的TRNSYS仿真结果。该系统由一块90Wp单晶光伏板组成，用于产生电力和家庭热水。该软件用于预测CSPVT的总发电量。除此之外，还建造了一个原型并进行了测试，以获得实际的能量产出。位于实验地点附近的坎贝尔气象站记录了15分钟的实际参数数据，如:入射辐射、电压和电流，可以与模型的估计进行比较。电能和热能的产量更接近实际。南非开普敦的总能源产量为76%，而TRNSYS预测为82%。因此，我们得出结论，TRNSYS建模可以用来预测CSPVT在软件数据库中列出的气象站附近的位置的性能。一项资本成本分析显示，在15年的使用寿命内，CSPVT的单位能源成本可能不到传统光伏电池板的一半。

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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Other Topics Engineering Research eJournal

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